Module wasmtime_environ::__core::arch::x86
1.27.0 · source · Available on x86 only.
Expand description
Platform-specific intrinsics for the x86
platform.
See the module documentation for more details.
Structs
- __m128bhExperimental128-bit wide set of eight ‘u16’ types, x86-specific
- __m256bhExperimental256-bit wide set of 16 ‘u16’ types, x86-specific
- __m512Experimental512-bit wide set of sixteen
f32
types, x86-specific - __m512bhExperimental512-bit wide set of 32 ‘u16’ types, x86-specific
- __m512dExperimental512-bit wide set of eight
f64
types, x86-specific - __m512iExperimental512-bit wide integer vector type, x86-specific
- Result of the
cpuid
instruction. - 128-bit wide set of four
f32
types, x86-specific - 128-bit wide set of two
f64
types, x86-specific - 128-bit wide integer vector type, x86-specific
- 256-bit wide set of eight
f32
types, x86-specific - 256-bit wide set of four
f64
types, x86-specific - 256-bit wide integer vector type, x86-specific
Constants
- _MM_CMPINT_EQExperimentalEqual
- _MM_CMPINT_FALSEExperimentalFalse
- _MM_CMPINT_LEExperimentalLess-than-or-equal
- _MM_CMPINT_LTExperimentalLess-than
- _MM_CMPINT_NEExperimentalNot-equal
- _MM_CMPINT_NLEExperimentalNot less-than-or-equal
- _MM_CMPINT_NLTExperimentalNot less-than
- _MM_CMPINT_TRUEExperimentalTrue
- _MM_MANT_NORM_1_2Experimentalinterval [1, 2)
- _MM_MANT_NORM_P5_1Experimentalinterval [0.5, 1)
- _MM_MANT_NORM_P5_2Experimentalinterval [0.5, 2)
- _MM_MANT_NORM_P75_1P5Experimentalinterval [0.75, 1.5)
- _MM_MANT_SIGN_NANExperimentalDEST = NaN if sign(SRC) = 1
- _MM_MANT_SIGN_SRCExperimentalsign = sign(SRC)
- _MM_MANT_SIGN_ZEROExperimentalsign = 0
- _MM_PERM_AAAAExperimental
- _MM_PERM_AAABExperimental
- _MM_PERM_AAACExperimental
- _MM_PERM_AAADExperimental
- _MM_PERM_AABAExperimental
- _MM_PERM_AABBExperimental
- _MM_PERM_AABCExperimental
- _MM_PERM_AABDExperimental
- _MM_PERM_AACAExperimental
- _MM_PERM_AACBExperimental
- _MM_PERM_AACCExperimental
- _MM_PERM_AACDExperimental
- _MM_PERM_AADAExperimental
- _MM_PERM_AADBExperimental
- _MM_PERM_AADCExperimental
- _MM_PERM_AADDExperimental
- _MM_PERM_ABAAExperimental
- _MM_PERM_ABABExperimental
- _MM_PERM_ABACExperimental
- _MM_PERM_ABADExperimental
- _MM_PERM_ABBAExperimental
- _MM_PERM_ABBBExperimental
- _MM_PERM_ABBCExperimental
- _MM_PERM_ABBDExperimental
- _MM_PERM_ABCAExperimental
- _MM_PERM_ABCBExperimental
- _MM_PERM_ABCCExperimental
- _MM_PERM_ABCDExperimental
- _MM_PERM_ABDAExperimental
- _MM_PERM_ABDBExperimental
- _MM_PERM_ABDCExperimental
- _MM_PERM_ABDDExperimental
- _MM_PERM_ACAAExperimental
- _MM_PERM_ACABExperimental
- _MM_PERM_ACACExperimental
- _MM_PERM_ACADExperimental
- _MM_PERM_ACBAExperimental
- _MM_PERM_ACBBExperimental
- _MM_PERM_ACBCExperimental
- _MM_PERM_ACBDExperimental
- _MM_PERM_ACCAExperimental
- _MM_PERM_ACCBExperimental
- _MM_PERM_ACCCExperimental
- _MM_PERM_ACCDExperimental
- _MM_PERM_ACDAExperimental
- _MM_PERM_ACDBExperimental
- _MM_PERM_ACDCExperimental
- _MM_PERM_ACDDExperimental
- _MM_PERM_ADAAExperimental
- _MM_PERM_ADABExperimental
- _MM_PERM_ADACExperimental
- _MM_PERM_ADADExperimental
- _MM_PERM_ADBAExperimental
- _MM_PERM_ADBBExperimental
- _MM_PERM_ADBCExperimental
- _MM_PERM_ADBDExperimental
- _MM_PERM_ADCAExperimental
- _MM_PERM_ADCBExperimental
- _MM_PERM_ADCCExperimental
- _MM_PERM_ADCDExperimental
- _MM_PERM_ADDAExperimental
- _MM_PERM_ADDBExperimental
- _MM_PERM_ADDCExperimental
- _MM_PERM_ADDDExperimental
- _MM_PERM_BAAAExperimental
- _MM_PERM_BAABExperimental
- _MM_PERM_BAACExperimental
- _MM_PERM_BAADExperimental
- _MM_PERM_BABAExperimental
- _MM_PERM_BABBExperimental
- _MM_PERM_BABCExperimental
- _MM_PERM_BABDExperimental
- _MM_PERM_BACAExperimental
- _MM_PERM_BACBExperimental
- _MM_PERM_BACCExperimental
- _MM_PERM_BACDExperimental
- _MM_PERM_BADAExperimental
- _MM_PERM_BADBExperimental
- _MM_PERM_BADCExperimental
- _MM_PERM_BADDExperimental
- _MM_PERM_BBAAExperimental
- _MM_PERM_BBABExperimental
- _MM_PERM_BBACExperimental
- _MM_PERM_BBADExperimental
- _MM_PERM_BBBAExperimental
- _MM_PERM_BBBBExperimental
- _MM_PERM_BBBCExperimental
- _MM_PERM_BBBDExperimental
- _MM_PERM_BBCAExperimental
- _MM_PERM_BBCBExperimental
- _MM_PERM_BBCCExperimental
- _MM_PERM_BBCDExperimental
- _MM_PERM_BBDAExperimental
- _MM_PERM_BBDBExperimental
- _MM_PERM_BBDCExperimental
- _MM_PERM_BBDDExperimental
- _MM_PERM_BCAAExperimental
- _MM_PERM_BCABExperimental
- _MM_PERM_BCACExperimental
- _MM_PERM_BCADExperimental
- _MM_PERM_BCBAExperimental
- _MM_PERM_BCBBExperimental
- _MM_PERM_BCBCExperimental
- _MM_PERM_BCBDExperimental
- _MM_PERM_BCCAExperimental
- _MM_PERM_BCCBExperimental
- _MM_PERM_BCCCExperimental
- _MM_PERM_BCCDExperimental
- _MM_PERM_BCDAExperimental
- _MM_PERM_BCDBExperimental
- _MM_PERM_BCDCExperimental
- _MM_PERM_BCDDExperimental
- _MM_PERM_BDAAExperimental
- _MM_PERM_BDABExperimental
- _MM_PERM_BDACExperimental
- _MM_PERM_BDADExperimental
- _MM_PERM_BDBAExperimental
- _MM_PERM_BDBBExperimental
- _MM_PERM_BDBCExperimental
- _MM_PERM_BDBDExperimental
- _MM_PERM_BDCAExperimental
- _MM_PERM_BDCBExperimental
- _MM_PERM_BDCCExperimental
- _MM_PERM_BDCDExperimental
- _MM_PERM_BDDAExperimental
- _MM_PERM_BDDBExperimental
- _MM_PERM_BDDCExperimental
- _MM_PERM_BDDDExperimental
- _MM_PERM_CAAAExperimental
- _MM_PERM_CAABExperimental
- _MM_PERM_CAACExperimental
- _MM_PERM_CAADExperimental
- _MM_PERM_CABAExperimental
- _MM_PERM_CABBExperimental
- _MM_PERM_CABCExperimental
- _MM_PERM_CABDExperimental
- _MM_PERM_CACAExperimental
- _MM_PERM_CACBExperimental
- _MM_PERM_CACCExperimental
- _MM_PERM_CACDExperimental
- _MM_PERM_CADAExperimental
- _MM_PERM_CADBExperimental
- _MM_PERM_CADCExperimental
- _MM_PERM_CADDExperimental
- _MM_PERM_CBAAExperimental
- _MM_PERM_CBABExperimental
- _MM_PERM_CBACExperimental
- _MM_PERM_CBADExperimental
- _MM_PERM_CBBAExperimental
- _MM_PERM_CBBBExperimental
- _MM_PERM_CBBCExperimental
- _MM_PERM_CBBDExperimental
- _MM_PERM_CBCAExperimental
- _MM_PERM_CBCBExperimental
- _MM_PERM_CBCCExperimental
- _MM_PERM_CBCDExperimental
- _MM_PERM_CBDAExperimental
- _MM_PERM_CBDBExperimental
- _MM_PERM_CBDCExperimental
- _MM_PERM_CBDDExperimental
- _MM_PERM_CCAAExperimental
- _MM_PERM_CCABExperimental
- _MM_PERM_CCACExperimental
- _MM_PERM_CCADExperimental
- _MM_PERM_CCBAExperimental
- _MM_PERM_CCBBExperimental
- _MM_PERM_CCBCExperimental
- _MM_PERM_CCBDExperimental
- _MM_PERM_CCCAExperimental
- _MM_PERM_CCCBExperimental
- _MM_PERM_CCCCExperimental
- _MM_PERM_CCCDExperimental
- _MM_PERM_CCDAExperimental
- _MM_PERM_CCDBExperimental
- _MM_PERM_CCDCExperimental
- _MM_PERM_CCDDExperimental
- _MM_PERM_CDAAExperimental
- _MM_PERM_CDABExperimental
- _MM_PERM_CDACExperimental
- _MM_PERM_CDADExperimental
- _MM_PERM_CDBAExperimental
- _MM_PERM_CDBBExperimental
- _MM_PERM_CDBCExperimental
- _MM_PERM_CDBDExperimental
- _MM_PERM_CDCAExperimental
- _MM_PERM_CDCBExperimental
- _MM_PERM_CDCCExperimental
- _MM_PERM_CDCDExperimental
- _MM_PERM_CDDAExperimental
- _MM_PERM_CDDBExperimental
- _MM_PERM_CDDCExperimental
- _MM_PERM_CDDDExperimental
- _MM_PERM_DAAAExperimental
- _MM_PERM_DAABExperimental
- _MM_PERM_DAACExperimental
- _MM_PERM_DAADExperimental
- _MM_PERM_DABAExperimental
- _MM_PERM_DABBExperimental
- _MM_PERM_DABCExperimental
- _MM_PERM_DABDExperimental
- _MM_PERM_DACAExperimental
- _MM_PERM_DACBExperimental
- _MM_PERM_DACCExperimental
- _MM_PERM_DACDExperimental
- _MM_PERM_DADAExperimental
- _MM_PERM_DADBExperimental
- _MM_PERM_DADCExperimental
- _MM_PERM_DADDExperimental
- _MM_PERM_DBAAExperimental
- _MM_PERM_DBABExperimental
- _MM_PERM_DBACExperimental
- _MM_PERM_DBADExperimental
- _MM_PERM_DBBAExperimental
- _MM_PERM_DBBBExperimental
- _MM_PERM_DBBCExperimental
- _MM_PERM_DBBDExperimental
- _MM_PERM_DBCAExperimental
- _MM_PERM_DBCBExperimental
- _MM_PERM_DBCCExperimental
- _MM_PERM_DBCDExperimental
- _MM_PERM_DBDAExperimental
- _MM_PERM_DBDBExperimental
- _MM_PERM_DBDCExperimental
- _MM_PERM_DBDDExperimental
- _MM_PERM_DCAAExperimental
- _MM_PERM_DCABExperimental
- _MM_PERM_DCACExperimental
- _MM_PERM_DCADExperimental
- _MM_PERM_DCBAExperimental
- _MM_PERM_DCBBExperimental
- _MM_PERM_DCBCExperimental
- _MM_PERM_DCBDExperimental
- _MM_PERM_DCCAExperimental
- _MM_PERM_DCCBExperimental
- _MM_PERM_DCCCExperimental
- _MM_PERM_DCCDExperimental
- _MM_PERM_DCDAExperimental
- _MM_PERM_DCDBExperimental
- _MM_PERM_DCDCExperimental
- _MM_PERM_DCDDExperimental
- _MM_PERM_DDAAExperimental
- _MM_PERM_DDABExperimental
- _MM_PERM_DDACExperimental
- _MM_PERM_DDADExperimental
- _MM_PERM_DDBAExperimental
- _MM_PERM_DDBBExperimental
- _MM_PERM_DDBCExperimental
- _MM_PERM_DDBDExperimental
- _MM_PERM_DDCAExperimental
- _MM_PERM_DDCBExperimental
- _MM_PERM_DDCCExperimental
- _MM_PERM_DDCDExperimental
- _MM_PERM_DDDAExperimental
- _MM_PERM_DDDBExperimental
- _MM_PERM_DDDCExperimental
- _MM_PERM_DDDDExperimental
- _XABORT_CAPACITYExperimentalTransaction abort due to the transaction using too much memory.
- _XABORT_CONFLICTExperimentalTransaction abort due to a memory conflict with another thread.
- _XABORT_DEBUGExperimentalTransaction abort due to a debug trap.
- _XABORT_EXPLICITExperimentalTransaction explicitly aborted with xabort. The parameter passed to xabort is available with
_xabort_code(status)
. - _XABORT_NESTEDExperimentalTransaction abort in a inner nested transaction.
- _XABORT_RETRYExperimentalTransaction retry is possible.
- _XBEGIN_STARTEDExperimentalTransaction successfully started.
- Equal (ordered, non-signaling)
- Equal (ordered, signaling)
- Equal (unordered, non-signaling)
- Equal (unordered, signaling)
- False (ordered, non-signaling)
- False (ordered, signaling)
- Greater-than-or-equal (ordered, non-signaling)
- Greater-than-or-equal (ordered, signaling)
- Greater-than (ordered, non-signaling)
- Greater-than (ordered, signaling)
- Less-than-or-equal (ordered, non-signaling)
- Less-than-or-equal (ordered, signaling)
- Less-than (ordered, non-signaling)
- Less-than (ordered, signaling)
- Not-equal (ordered, non-signaling)
- Not-equal (ordered, signaling)
- Not-equal (unordered, non-signaling)
- Not-equal (unordered, signaling)
- Not-greater-than-or-equal (unordered, non-signaling)
- Not-greater-than-or-equal (unordered, signaling)
- Not-greater-than (unordered, non-signaling)
- Not-greater-than (unordered, signaling)
- Not-less-than-or-equal (unordered, non-signaling)
- Not-less-than-or-equal (unordered, signaling)
- Not-less-than (unordered, non-signaling)
- Not-less-than (unordered, signaling)
- Ordered (non-signaling)
- Ordered (signaling)
- True (unordered, non-signaling)
- True (unordered, signaling)
- Unordered (non-signaling)
- Unordered (signaling)
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- round up and do not suppress exceptions
- use MXCSR.RC; see
vendor::_MM_SET_ROUNDING_MODE
- round down and do not suppress exceptions
- use MXCSR.RC and suppress exceptions; see
vendor::_MM_SET_ROUNDING_MODE
- round to nearest and do not suppress exceptions
- suppress exceptions
- do not suppress exceptions
- use MXCSR.RC and do not suppress exceptions; see
vendor::_MM_SET_ROUNDING_MODE
- round to nearest
- round down
- round up
- truncate
- truncate and do not suppress exceptions
- See
_mm_prefetch
. - See
_mm_prefetch
. - See
_mm_prefetch
. - See
_mm_prefetch
. - See
_mm_prefetch
. - See
_mm_prefetch
. - See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- Mask only: return the bit mask
- For each character in
a
, find if it is inb
(Default) - The strings defined by
a
andb
are equal - Search for the defined substring in the target
- For each character in
a
, determine ifb[0] <= c <= b[1] or b[1] <= c <= b[2]...
- Index only: return the least significant bit (Default)
- Negates results only before the end of the string
- Do not negate results before the end of the string
- Index only: return the most significant bit
- Negates results
- Do not negate results (Default)
- String contains signed 8-bit characters
- String contains unsigned 16-bit characters
- String contains unsigned 8-bit characters (Default)
- Mask only: return the byte mask
- String contains unsigned 16-bit characters
XFEATURE_ENABLED_MASK
forXCR
Functions
- _MM_SHUFFLEExperimentalA utility function for creating masks to use with Intel shuffle and permute intrinsics.
- _kadd_mask32⚠ExperimentalAdd 32-bit masks in a and b, and store the result in k.
- _kadd_mask64⚠ExperimentalAdd 64-bit masks in a and b, and store the result in k.
- _kand_mask16⚠ExperimentalCompute the bitwise AND of 16-bit masks a and b, and store the result in k.
- _kand_mask32⚠ExperimentalCompute the bitwise AND of 32-bit masks a and b, and store the result in k.
- _kand_mask64⚠ExperimentalCompute the bitwise AND of 64-bit masks a and b, and store the result in k.
- _kandn_mask16⚠ExperimentalCompute the bitwise NOT of 16-bit masks a and then AND with b, and store the result in k.
- _kandn_mask32⚠ExperimentalCompute the bitwise NOT of 32-bit masks a and then AND with b, and store the result in k.
- _kandn_mask64⚠ExperimentalCompute the bitwise NOT of 64-bit masks a and then AND with b, and store the result in k.
- _knot_mask16⚠ExperimentalCompute the bitwise NOT of 16-bit mask a, and store the result in k.
- _knot_mask32⚠ExperimentalCompute the bitwise NOT of 32-bit mask a, and store the result in k.
- _knot_mask64⚠ExperimentalCompute the bitwise NOT of 64-bit mask a, and store the result in k.
- _kor_mask16⚠ExperimentalCompute the bitwise OR of 16-bit masks a and b, and store the result in k.
- _kor_mask32⚠ExperimentalCompute the bitwise OR of 32-bit masks a and b, and store the result in k.
- _kor_mask64⚠ExperimentalCompute the bitwise OR of 64-bit masks a and b, and store the result in k.
- _kxnor_mask16⚠ExperimentalCompute the bitwise XNOR of 16-bit masks a and b, and store the result in k.
- _kxnor_mask32⚠ExperimentalCompute the bitwise XNOR of 32-bit masks a and b, and store the result in k.
- _kxnor_mask64⚠ExperimentalCompute the bitwise XNOR of 64-bit masks a and b, and store the result in k.
- _kxor_mask16⚠ExperimentalCompute the bitwise XOR of 16-bit masks a and b, and store the result in k.
- _kxor_mask32⚠ExperimentalCompute the bitwise XOR of 32-bit masks a and b, and store the result in k.
- _kxor_mask64⚠ExperimentalCompute the bitwise XOR of 64-bit masks a and b, and store the result in k.
- _load_mask32⚠ExperimentalLoad 32-bit mask from memory into k.
- _load_mask64⚠ExperimentalLoad 64-bit mask from memory into k.
- _mm256_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst.
- _mm256_aesdec_epi128⚠ExperimentalPerforms one round of an AES decryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm256_aesdeclast_epi128⚠ExperimentalPerforms the last round of an AES decryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm256_aesenc_epi128⚠ExperimentalPerforms one round of an AES encryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm256_aesenclast_epi128⚠ExperimentalPerforms the last round of an AES encryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm256_alignr_epi32⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 32 bytes (8 elements) in dst.
- _mm256_alignr_epi64⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 32 bytes (4 elements) in dst.
- _mm256_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm256_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst.
- _mm256_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst.
- _mm256_broadcastmb_epi64⚠ExperimentalBroadcast the low 8-bits from input mask k to all 64-bit elements of dst.
- _mm256_broadcastmw_epi32⚠ExperimentalBroadcast the low 16-bits from input mask k to all 32-bit elements of dst.
- _mm256_clmulepi64_epi128⚠ExperimentalPerforms a carry-less multiplication of two 64-bit polynomials over the finite field GF(2^k) - in each of the 2 128-bit lanes.
- _mm256_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm256_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm256_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm256_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm256_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm256_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm256_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm256_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm256_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm256_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm256_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm256_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm256_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst.
- _mm256_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
- _mm256_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two 256-bit vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in a 256-bit wide vector. Intel’s documentation
- _mm256_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst. Intel’s documentation
- _mm256_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm256_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm256_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm256_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm256_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm256_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm256_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm256_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst.
- _mm256_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm256_cvttps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm256_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm256_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm256_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm256_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm256_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm256_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst.
- _mm256_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst. Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm256_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst. Intel’s documentation
- _mm256_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm256_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm256_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm256_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm256_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the result in dst.
- _mm256_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM1, and store the result in dst.
- _mm256_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm256_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm256_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm256_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign. The mantissa is normalized to the interval specified by interv, which can take the following values: _MM_MANT_NORM_1_2 // interval [1, 2) _MM_MANT_NORM_p5_2 // interval [0.5, 2) _MM_MANT_NORM_p5_1 // interval [0.5, 1) _MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5) The sign is determined by sc which can take the following values: _MM_MANT_SIGN_src // sign = sign(src) _MM_MANT_SIGN_zero // sign = 0 _MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
- _mm256_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm256_insertf32x4⚠ExperimentalCopy a to dst, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into dst at the location specified by imm8.
- _mm256_inserti32x4⚠ExperimentalCopy a to dst, then insert 128 bits (composed of 4 packed 32-bit integers) from b into dst at the location specified by imm8.
- _mm256_load_epi32⚠ExperimentalLoad 256-bits (composed of 8 packed 32-bit integers) from memory into dst. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_load_epi64⚠ExperimentalLoad 256-bits (composed of 4 packed 64-bit integers) from memory into dst. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_loadu_epi8⚠ExperimentalLoad 256-bits (composed of 32 packed 8-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm256_loadu_epi16⚠ExperimentalLoad 256-bits (composed of 16 packed 16-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm256_loadu_epi32⚠ExperimentalLoad 256-bits (composed of 8 packed 32-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm256_loadu_epi64⚠ExperimentalLoad 256-bits (composed of 4 packed 64-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm256_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst.
- _mm256_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst.
- _mm256_madd52hi_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the high 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm256_madd52lo_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the low 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm256_mask2_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask2_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm256_mask2_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm256_mask2_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm256_mask2_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set)
- _mm256_mask2_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm256_mask3_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmaddsub_pd⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask3_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm256_mask_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_abs_epi32⚠ExperimentalCompute the absolute value of packed signed 32-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_alignr_epi32⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 32 bytes (8 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_alignr_epi64⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 32 bytes (4 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_and_epi32⚠ExperimentalPerforms element-by-element bitwise AND between packed 32-bit integer elements of a and b, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm256_mask_blend_epi8⚠ExperimentalBlend packed 8-bit integers from a and b using control mask k, and store the results in dst.
- _mm256_mask_blend_epi16⚠ExperimentalBlend packed 16-bit integers from a and b using control mask k, and store the results in dst.
- _mm256_mask_blend_epi32⚠ExperimentalBlend packed 32-bit integers from a and b using control mask k, and store the results in dst.
- _mm256_mask_blend_epi64⚠ExperimentalBlend packed 64-bit integers from a and b using control mask k, and store the results in dst.
- _mm256_mask_blend_pd⚠ExperimentalBlend packed double-precision (64-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm256_mask_blend_ps⚠ExperimentalBlend packed single-precision (32-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm256_mask_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastsd_pd⚠ExperimentalBroadcast the low double-precision (64-bit) floating-point element from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_mask_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm256_mask_compressstoreu_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_compressstoreu_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_compressstoreu_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_compressstoreu_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_compressstoreu_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_compressstoreu_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_mask_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_mask_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of: (_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_mask_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi16_storeu_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi32_storeu_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepi32_storeu_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepi64_storeu_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepi64_storeu_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepi64_storeu_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 8 bytes of a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements and store the results in single vector dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm256_mask_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm256_mask_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_mask_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi16_storeu_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi32_storeu_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtsepi32_storeu_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtsepi64_storeu_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtsepi64_storeu_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtsepi64_storeu_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi16_storeu_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi32_storeu_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtusepi32_storeu_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_cvtusepi64_storeu_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtusepi64_storeu_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_cvtusepi64_storeu_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 32-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm256_mask_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm256_mask_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm256_mask_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM1, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm256_mask_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm256_mask_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_mask_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_mask_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm256_mask_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm256_mask_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_mask_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_mask_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm256_mask_insertf32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_inserti32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed 32-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_epi32⚠ExperimentalMove packed 32-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_epi64⚠ExperimentalMove packed 64-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm256_mask_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm256_mask_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm256_mask_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm256_mask_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_mask_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_mask_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_mask_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_mask_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_mask_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_mask_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_set1_epi16⚠ExperimentalBroadcast 16-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using writemask k (elements are copied from src“ when the corresponding mask bit is not set).
- _mm256_mask_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm256_mask_shuffle_epi8⚠ExperimentalShuffle 8-bit integers in a within 128-bit lanes using the control in the corresponding 8-bit element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_store_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_store_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_store_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_store_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_mask_storeu_epi8⚠ExperimentalStore packed 8-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_storeu_epi16⚠ExperimentalStore packed 16-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_storeu_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_storeu_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_storeu_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_storeu_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm256_mask_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 32-bit granularity (32-bit elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 64-bit granularity (64-bit elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm256_mask_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm256_mask_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm256_mask_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm256_mask_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm256_mask_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm256_mask_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm256_mask_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm256_mask_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_mask_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_maskz_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_abs_epi32⚠ExperimentalCompute the absolute value of packed signed 32-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_alignr_epi32⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 32 bytes (8 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_alignr_epi64⚠ExperimentalConcatenate a and b into a 64-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 32 bytes (4 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_and_epi32⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastsd_pd⚠ExperimentalBroadcast the low double-precision (64-bit) floating-point element from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm256_maskz_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_maskz_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm256_maskz_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_maskz_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 8 bytes of a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in single vector dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm256_maskz_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm256_maskz_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_maskz_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm256_maskz_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm256_maskz_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm256_maskz_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM1, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm256_maskz_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm256_maskz_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_maskz_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm256_maskz_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm256_maskz_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm256_maskz_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_maskz_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm256_maskz_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm256_maskz_insertf32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_inserti32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed 32-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_maskz_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_maskz_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_maskz_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_maskz_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm256_maskz_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_epi32⚠ExperimentalMove packed 32-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_epi64⚠ExperimentalMove packed 64-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm256_maskz_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm256_maskz_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm256_maskz_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm256_maskz_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_maskz_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_maskz_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_maskz_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_maskz_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_maskz_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm256_maskz_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_set1_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_epi8⚠ExperimentalShuffle packed 8-bit integers in a according to shuffle control mask in the corresponding 8-bit element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm256_maskz_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 32-bit granularity (32-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 64-bit granularity (64-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_maskz_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm256_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst.
- _mm256_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst.
- _mm256_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst.
- _mm256_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst.
- _mm256_movepi8_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 8-bit integer in a.
- _mm256_movepi16_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 16-bit integer in a.
- _mm256_movm_epi8⚠ExperimentalSet each packed 8-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm256_movm_epi16⚠ExperimentalSet each packed 16-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm256_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst.
- _mm256_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst.
- _mm256_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the resut in dst.
- _mm256_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm256_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst.
- _mm256_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst.
- _mm256_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm256_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm256_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm256_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm256_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm256_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx.
- _mm256_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm256_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm256_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm256_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm256_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm256_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm256_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm256_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm256_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm256_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm256_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm256_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm256_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm256_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm256_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm256_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm256_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm256_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst).
- _mm256_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst.
- _mm256_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst).
- _mm256_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst.
- _mm256_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst.
- _mm256_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst.
- _mm256_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst.
- _mm256_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst.
- _mm256_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst.
- _mm256_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst.
- _mm256_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst.
- _mm256_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst.
- _mm256_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst.
- _mm256_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst.
- _mm256_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst.
- _mm256_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst.
- _mm256_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm256_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst.
- _mm256_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst.
- _mm256_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm256_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm256_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm256_store_epi32⚠ExperimentalStore 256-bits (composed of 8 packed 32-bit integers) from a into memory. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_store_epi64⚠ExperimentalStore 256-bits (composed of 4 packed 64-bit integers) from a into memory. mem_addr must be aligned on a 32-byte boundary or a general-protection exception may be generated.
- _mm256_storeu_epi8⚠ExperimentalStore 256-bits (composed of 32 packed 8-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm256_storeu_epi16⚠ExperimentalStore 256-bits (composed of 16 packed 16-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm256_storeu_epi32⚠ExperimentalStore 256-bits (composed of 8 packed 32-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm256_storeu_epi64⚠ExperimentalStore 256-bits (composed of 4 packed 64-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm256_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm256_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm256_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm256_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm256_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm256_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm256_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm256_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm256_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm256_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm256_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst.
- _mm256_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst.
- _mm512_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst.
- _mm512_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst.
- _mm512_abs_epi32⚠ExperimentalComputes the absolute values of packed 32-bit integers in
a
. - _mm512_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst.
- _mm512_abs_pd⚠ExperimentalFinds the absolute value of each packed double-precision (64-bit) floating-point element in v2, storing the results in dst.
- _mm512_abs_ps⚠ExperimentalFinds the absolute value of each packed single-precision (32-bit) floating-point element in v2, storing the results in dst.
- _mm512_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst.
- _mm512_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst.
- _mm512_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst.
- _mm512_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst.
- _mm512_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_add_round_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_add_round_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst.
- _mm512_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst.
- _mm512_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst.
- _mm512_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst.
- _mm512_aesdec_epi128⚠ExperimentalPerforms one round of an AES decryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm512_aesdeclast_epi128⚠ExperimentalPerforms the last round of an AES decryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm512_aesenc_epi128⚠ExperimentalPerforms one round of an AES encryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm512_aesenclast_epi128⚠ExperimentalPerforms the last round of an AES encryption flow on each 128-bit word (state) in
a
using the corresponding 128-bit word (key) inround_key
. - _mm512_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst.
- _mm512_alignr_epi32⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 64 bytes (16 elements) in dst.
- _mm512_alignr_epi64⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 64 bytes (8 elements) in dst.
- _mm512_and_epi32⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, and store the results in dst.
- _mm512_and_epi64⚠ExperimentalCompute the bitwise AND of 512 bits (composed of packed 64-bit integers) in a and b, and store the results in dst.
- _mm512_and_si512⚠ExperimentalCompute the bitwise AND of 512 bits (representing integer data) in a and b, and store the result in dst.
- _mm512_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst.
- _mm512_andnot_epi64⚠ExperimentalCompute the bitwise NOT of 512 bits (composed of packed 64-bit integers) in a and then AND with b, and store the results in dst.
- _mm512_andnot_si512⚠ExperimentalCompute the bitwise NOT of 512 bits (representing integer data) in a and then AND with b, and store the result in dst.
- _mm512_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst.
- _mm512_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst.
- _mm512_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm512_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst.
- _mm512_broadcast_f64x4⚠ExperimentalBroadcast the 4 packed double-precision (64-bit) floating-point elements from a to all elements of dst.
- _mm512_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst.
- _mm512_broadcast_i64x4⚠ExperimentalBroadcast the 4 packed 64-bit integers from a to all elements of dst.
- _mm512_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst.
- _mm512_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst.
- _mm512_broadcastmb_epi64⚠ExperimentalBroadcast the low 8-bits from input mask k to all 64-bit elements of dst.
- _mm512_broadcastmw_epi32⚠ExperimentalBroadcast the low 16-bits from input mask k to all 32-bit elements of dst.
- _mm512_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst.
- _mm512_broadcastsd_pd⚠ExperimentalBroadcast the low double-precision (64-bit) floating-point element from a to all elements of dst.
- _mm512_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst.
- _mm512_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst.
- _mm512_bslli_epi128⚠ExperimentalShift 128-bit lanes in a left by imm8 bytes while shifting in zeros, and store the results in dst.
- _mm512_bsrli_epi128⚠ExperimentalShift 128-bit lanes in a right by imm8 bytes while shifting in zeros, and store the results in dst.
- _mm512_castpd128_pd512⚠ExperimentalCast vector of type __m128d to type __m512d; the upper 384 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castpd256_pd512⚠ExperimentalCast vector of type __m256d to type __m512d; the upper 256 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castpd512_pd128⚠ExperimentalCast vector of type __m512d to type __m128d. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castpd512_pd256⚠ExperimentalCast vector of type __m512d to type __m256d. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castpd_ps⚠ExperimentalCast vector of type __m512d to type __m512. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castpd_si512⚠ExperimentalCast vector of type __m512d to type __m512i. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps128_ps512⚠ExperimentalCast vector of type __m128 to type __m512; the upper 384 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps256_ps512⚠ExperimentalCast vector of type __m256 to type __m512; the upper 256 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps512_ps128⚠ExperimentalCast vector of type __m512 to type __m128. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps512_ps256⚠ExperimentalCast vector of type __m512 to type __m256. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps_pd⚠ExperimentalCast vector of type __m512 to type __m512d. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castps_si512⚠ExperimentalCast vector of type __m512 to type __m512i. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi128_si512⚠ExperimentalCast vector of type __m128i to type __m512i; the upper 384 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi256_si512⚠ExperimentalCast vector of type __m256i to type __m512i; the upper 256 bits of the result are undefined. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi512_pd⚠ExperimentalCast vector of type __m512i to type __m512d. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi512_ps⚠ExperimentalCast vector of type __m512i to type __m512. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi512_si128⚠ExperimentalCast vector of type __m512i to type __m128i. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_castsi512_si256⚠ExperimentalCast vector of type __m512i to type __m256i. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_clmulepi64_epi128⚠ExperimentalPerforms a carry-less multiplication of two 64-bit polynomials over the finite field GF(2^k) - in each of the 4 128-bit lanes.
- _mm512_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by
IMM8
, and store the results in mask vector k. - _mm512_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm512_cmp_round_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cmp_round_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for equality, and store the results in mask vector k.
- _mm512_cmpeq_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for equality, and store the results in mask vector k.
- _mm512_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm512_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm512_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmple_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm512_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for less-than, and store the results in mask vector k.
- _mm512_cmplt_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for less-than, and store the results in mask vector k.
- _mm512_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpneq_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-equal, and store the results in mask vector k.
- _mm512_cmpnle_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-less-than-or-equal, and store the results in mask vector k.
- _mm512_cmpnle_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-less-than-or-equal, and store the results in mask vector k.
- _mm512_cmpnlt_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-less-than, and store the results in mask vector k.
- _mm512_cmpnlt_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-less-than, and store the results in mask vector k.
- _mm512_cmpord_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b to see if neither is NaN, and store the results in mask vector k.
- _mm512_cmpord_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b to see if neither is NaN, and store the results in mask vector k.
- _mm512_cmpunord_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b to see if either is NaN, and store the results in mask vector k.
- _mm512_cmpunord_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b to see if either is NaN, and store the results in mask vector k.
- _mm512_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_cvt_roundepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvt_roundepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvt_roundpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm512_cvt_roundpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvt_roundph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm512_cvt_roundps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst.
- _mm512_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm512_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm512_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm512_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
- _mm512_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvtepi32lo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of packed 32-bit integer elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst.
- _mm512_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm512_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm512_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst.
- _mm512_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst.
- _mm512_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 8 byte sof a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst.
- _mm512_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
- _mm512_cvtepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvtepu32lo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of packed 32-bit unsigned integer elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst.
- _mm512_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two 512-bit vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in a
512-bit wide vector. Intel’s documentation - _mm512_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst. Intel’s documentation
- _mm512_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm512_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvtpd_pslo⚠ExperimentalPerforms an element-by-element conversion of packed double-precision (64-bit) floating-point elements in v2 to single-precision (32-bit) floating-point elements and stores them in dst. The elements are stored in the lower half of the results vector, while the remaining upper half locations are set to 0.
- _mm512_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst.
- _mm512_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst.
- _mm512_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm512_cvtps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
- _mm512_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvtpslo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of packed single-precision (32-bit) floating-point elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst.
- _mm512_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst.
- _mm512_cvtsi512_si32⚠ExperimentalCopy the lower 32-bit integer in a to dst.
- _mm512_cvtt_roundpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvtt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvtt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvtt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst.
- _mm512_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm512_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst.
- _mm512_cvttps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm512_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm512_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm512_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm512_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm512_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm512_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst.
- _mm512_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst. Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm512_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst.
- _mm512_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst.
- _mm512_div_round_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, =and store the results in dst.
- _mm512_div_round_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst.
- _mm512_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst.Compute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst. Intel’s documentation
- _mm512_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm512_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm512_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm512_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm512_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the result in dst.
- _mm512_extractf64x4_pd⚠ExperimentalExtract 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from a, selected with imm8, and store the result in dst.
- _mm512_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM2, and store the result in dst.
- _mm512_extracti64x4_epi64⚠ExperimentalExtract 256 bits (composed of 4 packed 64-bit integers) from a, selected with IMM1, and store the result in dst.
- _mm512_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm512_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm512_fixupimm_round_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm512_fixupimm_round_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm512_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst.
- _mm512_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst.
- _mm512_fmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst.
- _mm512_fmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst.
- _mm512_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst.
- _mm512_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst.
- _mm512_fmaddsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst.
- _mm512_fmaddsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst.
- _mm512_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst.
- _mm512_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst.
- _mm512_fmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst.
- _mm512_fmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst.
- _mm512_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst.
- _mm512_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst.
- _mm512_fmsubadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst.
- _mm512_fmsubadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst.
- _mm512_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst.
- _mm512_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst.
- _mm512_fnmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst.
- _mm512_fnmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst.
- _mm512_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst.
- _mm512_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst.
- _mm512_fnmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst.
- _mm512_fnmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst.
- _mm512_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_getexp_round_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_getexp_round_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm512_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign. The mantissa is normalized to the interval specified by interv, which can take the following values: _MM_MANT_NORM_1_2 // interval [1, 2) _MM_MANT_NORM_p5_2 // interval [0.5, 2) _MM_MANT_NORM_p5_1 // interval [0.5, 1) _MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5) The sign is determined by sc which can take the following values: _MM_MANT_SIGN_src // sign = sign(src) _MM_MANT_SIGN_zero // sign = 0 _MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
- _mm512_getmant_round_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_getmant_round_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm512_i32gather_epi32⚠ExperimentalGather 32-bit integers from memory using 32-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i32gather_epi64⚠ExperimentalGather 64-bit integers from memory using 32-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i32gather_pd⚠ExperimentalGather double-precision (64-bit) floating-point elements from memory using 32-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i32gather_ps⚠ExperimentalGather single-precision (32-bit) floating-point elements from memory using 32-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i32scatter_epi32⚠ExperimentalScatter 32-bit integers from a into memory using 32-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i32scatter_epi64⚠ExperimentalScatter 64-bit integers from a into memory using 32-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i32scatter_pd⚠ExperimentalScatter double-precision (64-bit) floating-point elements from a into memory using 32-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i32scatter_ps⚠ExperimentalScatter single-precision (32-bit) floating-point elements from a into memory using 32-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i64gather_epi32⚠ExperimentalGather 32-bit integers from memory using 64-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i64gather_epi64⚠ExperimentalGather 64-bit integers from memory using 64-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i64gather_pd⚠ExperimentalGather double-precision (64-bit) floating-point elements from memory using 64-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i64gather_ps⚠ExperimentalGather single-precision (32-bit) floating-point elements from memory using 64-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst. scale should be 1, 2, 4 or 8.
- _mm512_i64scatter_epi32⚠ExperimentalScatter 32-bit integers from a into memory using 64-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i64scatter_epi64⚠ExperimentalScatter 64-bit integers from a into memory using 64-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i64scatter_pd⚠ExperimentalScatter double-precision (64-bit) floating-point elements from a into memory using 64-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). scale should be 1, 2, 4 or 8.
- _mm512_i64scatter_ps⚠ExperimentalScatter single-precision (32-bit) floating-point elements from a into memory using 64-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_insertf32x4⚠ExperimentalCopy a to dst, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into dst at the location specified by imm8.
- _mm512_insertf64x4⚠ExperimentalCopy a to dst, then insert 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from b into dst at the location specified by imm8.
- _mm512_inserti32x4⚠ExperimentalCopy a to dst, then insert 128 bits (composed of 4 packed 32-bit integers) from b into dst at the location specified by imm8.
- _mm512_inserti64x4⚠ExperimentalCopy a to dst, then insert 256 bits (composed of 4 packed 64-bit integers) from b into dst at the location specified by imm8.
- _mm512_int2mask⚠ExperimentalConverts integer mask into bitmask, storing the result in dst.
- _mm512_kand⚠ExperimentalCompute the bitwise AND of 16-bit masks a and b, and store the result in k.
- _mm512_kandn⚠ExperimentalCompute the bitwise NOT of 16-bit masks a and then AND with b, and store the result in k.
- _mm512_kmov⚠ExperimentalCopy 16-bit mask a to k.
- _mm512_knot⚠ExperimentalCompute the bitwise NOT of 16-bit mask a, and store the result in k.
- _mm512_kor⚠ExperimentalCompute the bitwise OR of 16-bit masks a and b, and store the result in k.
- _mm512_kortestc⚠ExperimentalPerforms bitwise OR between k1 and k2, storing the result in dst. CF flag is set if dst consists of all 1’s.
- _mm512_kunpackb⚠ExperimentalUnpack and interleave 8 bits from masks a and b, and store the 16-bit result in k.
- _mm512_kxnor⚠ExperimentalCompute the bitwise XNOR of 16-bit masks a and b, and store the result in k.
- _mm512_kxor⚠ExperimentalCompute the bitwise XOR of 16-bit masks a and b, and store the result in k.
- _mm512_load_epi32⚠ExperimentalLoad 512-bits (composed of 16 packed 32-bit integers) from memory into dst. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_load_epi64⚠ExperimentalLoad 512-bits (composed of 8 packed 64-bit integers) from memory into dst. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_load_pd⚠ExperimentalLoad 512-bits (composed of 8 packed double-precision (64-bit) floating-point elements) from memory into dst. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_load_ps⚠ExperimentalLoad 512-bits (composed of 16 packed single-precision (32-bit) floating-point elements) from memory into dst. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_load_si512⚠ExperimentalLoad 512-bits of integer data from memory into dst. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_loadu_epi8⚠ExperimentalLoad 512-bits (composed of 64 packed 8-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm512_loadu_epi16⚠ExperimentalLoad 512-bits (composed of 32 packed 16-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm512_loadu_epi32⚠ExperimentalLoad 512-bits (composed of 16 packed 32-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm512_loadu_epi64⚠ExperimentalLoad 512-bits (composed of 8 packed 64-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm512_loadu_pd⚠ExperimentalLoads 512-bits (composed of 8 packed double-precision (64-bit) floating-point elements) from memory into result.
mem_addr
does not need to be aligned on any particular boundary. - _mm512_loadu_ps⚠ExperimentalLoads 512-bits (composed of 16 packed single-precision (32-bit) floating-point elements) from memory into result.
mem_addr
does not need to be aligned on any particular boundary. - _mm512_loadu_si512⚠ExperimentalLoad 512-bits of integer data from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm512_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst.
- _mm512_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst.
- _mm512_madd52hi_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the high 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm512_madd52lo_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the low 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm512_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst.
- _mm512_maddubs_epi16⚠ExperimentalVertically multiply each unsigned 8-bit integer from a with the corresponding signed 8-bit integer from b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst.
- _mm512_mask2_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask2_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm512_mask2_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm512_mask2_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm512_mask2_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set)
- _mm512_mask2_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm512_mask2int⚠ExperimentalConverts bit mask k1 into an integer value, storing the results in dst.
- _mm512_mask3_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmaddsub_pd⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmaddsub_round_pd⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmaddsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsubadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fmsubadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask3_fnmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm512_mask_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_abs_epi32⚠ExperimentalComputes the absolute value of packed 32-bit integers in
a
, and store the unsigned results indst
using writemaskk
(elements are copied fromsrc
when the corresponding mask bit is not set). - _mm512_mask_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_abs_pd⚠ExperimentalFinds the absolute value of each packed double-precision (64-bit) floating-point element in v2, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_abs_ps⚠ExperimentalFinds the absolute value of each packed single-precision (32-bit) floating-point element in v2, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_round_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_add_round_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_alignr_epi32⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 64 bytes (16 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_alignr_epi64⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 64 bytes (8 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_and_epi32⚠ExperimentalPerforms element-by-element bitwise AND between packed 32-bit integer elements of a and b, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm512_mask_blend_epi8⚠ExperimentalBlend packed 8-bit integers from a and b using control mask k, and store the results in dst.
- _mm512_mask_blend_epi16⚠ExperimentalBlend packed 16-bit integers from a and b using control mask k, and store the results in dst.
- _mm512_mask_blend_epi32⚠ExperimentalBlend packed 32-bit integers from a and b using control mask k, and store the results in dst.
- _mm512_mask_blend_epi64⚠ExperimentalBlend packed 64-bit integers from a and b using control mask k, and store the results in dst.
- _mm512_mask_blend_pd⚠ExperimentalBlend packed double-precision (64-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm512_mask_blend_ps⚠ExperimentalBlend packed single-precision (32-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm512_mask_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcast_f64x4⚠ExperimentalBroadcast the 4 packed double-precision (64-bit) floating-point elements from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcast_i64x4⚠ExperimentalBroadcast the 4 packed 64-bit integers from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastsd_pd⚠ExperimentalBroadcast the low double-precision (64-bit) floating-point element from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmp_round_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cmp_round_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpeq_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmple_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmplt_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpneq_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpnle_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpnle_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpnlt_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b for not-less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpnlt_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b for not-less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpord_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b to see if neither is NaN, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpord_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b to see if neither is NaN, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpunord_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b to see if either is NaN, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_cmpunord_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b to see if either is NaN, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_mask_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm512_mask_compressstoreu_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_compressstoreu_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_compressstoreu_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_compressstoreu_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_compressstoreu_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_compressstoreu_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_mask_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_mask_cvt_roundepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvt_roundps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi16_storeu_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi32_storeu_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepi32_storeu_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepi32lo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of packed 32-bit integer elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepi64_storeu_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepi64_storeu_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepi64_storeu_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtepu32lo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of 32-bit unsigned integer elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in single vector dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm512_mask_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm512_mask_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtpd_pslo⚠ExperimentalPerforms an element-by-element conversion of packed double-precision (64-bit) floating-point elements in v2 to single-precision (32-bit) floating-point elements and stores them in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The elements are stored in the lower half of the results vector, while the remaining upper half locations are set to 0.
- _mm512_mask_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvtpslo_pd⚠ExperimentalPerforms element-by-element conversion of the lower half of packed single-precision (32-bit) floating-point elements in v2 to packed double-precision (64-bit) floating-point elements, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi16_storeu_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi32_storeu_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtsepi32_storeu_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtsepi64_storeu_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtsepi64_storeu_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtsepi64_storeu_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtt_roundpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvtt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvtt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvtt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi16_storeu_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi32_storeu_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtusepi32_storeu_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_cvtusepi64_storeu_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtusepi64_storeu_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_cvtusepi64_storeu_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 32-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm512_mask_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm512_mask_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_div_round_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_div_round_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm512_mask_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_extractf64x4_pd⚠ExperimentalExtract 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from a, selected with imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM2, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_extracti64x4_epi64⚠ExperimentalExtract 256 bits (composed of 4 packed 64-bit integers) from a, selected with IMM1, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_mask_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_mask_fixupimm_round_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_mask_fixupimm_round_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_mask_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmaddsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmaddsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsubadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fmsubadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_fnmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_mask_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_mask_getexp_round_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_getexp_round_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm512_mask_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm512_mask_getmant_round_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_getmant_round_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_mask_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_mask_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm512_mask_i32gather_epi32⚠ExperimentalGather 32-bit integers from memory using 32-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32gather_epi64⚠ExperimentalGather 64-bit integers from memory using 32-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32gather_pd⚠ExperimentalGather double-precision (64-bit) floating-point elements from memory using 32-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32gather_ps⚠ExperimentalGather single-precision (32-bit) floating-point elements from memory using 32-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32scatter_epi32⚠ExperimentalScatter 32-bit integers from a into memory using 32-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32scatter_epi64⚠ExperimentalScatter 64-bit integers from a into memory using 32-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32scatter_pd⚠ExperimentalScatter double-precision (64-bit) floating-point elements from a into memory using 32-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i32scatter_ps⚠ExperimentalScatter single-precision (32-bit) floating-point elements from a into memory using 32-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 32-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64gather_epi32⚠ExperimentalGather 32-bit integers from memory using 64-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64gather_epi64⚠ExperimentalGather 64-bit integers from memory using 64-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64gather_pd⚠ExperimentalGather double-precision (64-bit) floating-point elements from memory using 64-bit indices. 64-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64gather_ps⚠ExperimentalGather single-precision (32-bit) floating-point elements from memory using 64-bit indices. 32-bit elements are loaded from addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale). Gathered elements are merged into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64scatter_epi32⚠ExperimentalScatter 32-bit integers from a into memory using 64-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64scatter_epi64⚠ExperimentalScatter 64-bit integers from a into memory using 64-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64scatter_pd⚠ExperimentalScatter double-precision (64-bit) floating-point elements from a into memory using 64-bit indices. 64-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_i64scatter_ps⚠ExperimentalScatter single-precision (32-bit) floating-point elements from a into memory using 64-bit indices. 32-bit elements are stored at addresses starting at base_addr and offset by each 64-bit element in vindex (each index is scaled by the factor in scale) subject to mask k (elements are not stored when the corresponding mask bit is not set). scale should be 1, 2, 4 or 8.
- _mm512_mask_insertf32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_insertf64x4⚠ExperimentalCopy a to tmp, then insert 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_inserti32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed 32-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_inserti64x4⚠ExperimentalCopy a to tmp, then insert 256 bits (composed of 4 packed 64-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_max_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_max_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_min_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_min_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_mask_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mov_epi32⚠ExperimentalMove packed 32-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mov_epi64⚠ExperimentalMove packed 64-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mul_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_mullox_epi64⚠ExperimentalMultiplies elements in packed 64-bit integer vectors a and b together, storing the lower 64 bits of the result in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutevar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Note that this intrinsic shuffles across 128-bit lanes, unlike past intrinsics that use the permutevar name. This intrinsic is identical to _mm512_mask_permutexvar_epi32, and it is recommended that you use that intrinsic name.
- _mm512_mask_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm512_mask_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm512_mask_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm512_mask_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm512_mask_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_mask_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_mask_reduce_add_epi32⚠ExperimentalReduce the packed 32-bit integers in a by addition using mask k. Returns the sum of all active elements in a.
- _mm512_mask_reduce_add_epi64⚠ExperimentalReduce the packed 64-bit integers in a by addition using mask k. Returns the sum of all active elements in a.
- _mm512_mask_reduce_add_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by addition using mask k. Returns the sum of all active elements in a.
- _mm512_mask_reduce_add_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by addition using mask k. Returns the sum of all active elements in a.
- _mm512_mask_reduce_and_epi32⚠ExperimentalReduce the packed 32-bit integers in a by bitwise AND using mask k. Returns the bitwise AND of all active elements in a.
- _mm512_mask_reduce_and_epi64⚠ExperimentalReduce the packed 64-bit integers in a by addition using mask k. Returns the sum of all active elements in a.
- _mm512_mask_reduce_max_epi32⚠ExperimentalReduce the packed signed 32-bit integers in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_max_epi64⚠ExperimentalReduce the packed signed 64-bit integers in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_max_epu32⚠ExperimentalReduce the packed unsigned 32-bit integers in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_max_epu64⚠ExperimentalReduce the packed unsigned 64-bit integers in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_max_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_max_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by maximum using mask k. Returns the maximum of all active elements in a.
- _mm512_mask_reduce_min_epi32⚠ExperimentalReduce the packed signed 32-bit integers in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_min_epi64⚠ExperimentalReduce the packed signed 64-bit integers in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_min_epu32⚠ExperimentalReduce the packed unsigned 32-bit integers in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_min_epu64⚠ExperimentalReduce the packed signed 64-bit integers in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_min_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_min_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by maximum using mask k. Returns the minimum of all active elements in a.
- _mm512_mask_reduce_mul_epi32⚠ExperimentalReduce the packed 32-bit integers in a by multiplication using mask k. Returns the product of all active elements in a.
- _mm512_mask_reduce_mul_epi64⚠ExperimentalReduce the packed 64-bit integers in a by multiplication using mask k. Returns the product of all active elements in a.
- _mm512_mask_reduce_mul_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by multiplication using mask k. Returns the product of all active elements in a.
- _mm512_mask_reduce_mul_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by multiplication using mask k. Returns the product of all active elements in a.
- _mm512_mask_reduce_or_epi32⚠ExperimentalReduce the packed 32-bit integers in a by bitwise OR using mask k. Returns the bitwise OR of all active elements in a.
- _mm512_mask_reduce_or_epi64⚠ExperimentalReduce the packed 64-bit integers in a by bitwise OR using mask k. Returns the bitwise OR of all active elements in a.
- _mm512_mask_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_mask_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_mask_roundscale_round_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_mask_roundscale_round_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_mask_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_mask_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_mask_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_scalef_round_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_scalef_round_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_set1_epi16⚠ExperimentalBroadcast 16-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using writemask k (elements are copied from src“ when the corresponding mask bit is not set).
- _mm512_mask_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm512_mask_shuffle_epi8⚠ExperimentalShuffle 8-bit integers in a within 128-bit lanes using the control in the corresponding 8-bit element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sqrt_round_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sqrt_round_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_store_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_store_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_store_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_store_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_mask_storeu_epi8⚠ExperimentalStore packed 8-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_storeu_epi16⚠ExperimentalStore packed 16-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_storeu_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_storeu_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_storeu_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_storeu_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm512_mask_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_round_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_sub_round_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 32-bit granularity (32-bit elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 64-bit granularity (64-bit elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm512_mask_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm512_mask_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm512_mask_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm512_mask_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm512_mask_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm512_mask_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm512_mask_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm512_mask_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_mask_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm512_maskz_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_abs_epi32⚠ExperimentalComputes the absolute value of packed 32-bit integers in
a
, and store the unsigned results indst
using zeromaskk
(elements are zeroed out when the corresponding mask bit is not set). - _mm512_maskz_abs_epi64⚠ExperimentalCompute the absolute value of packed signed 64-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_round_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_add_round_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_alignr_epi32⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 32-bit elements, and stores the low 64 bytes (16 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_alignr_epi64⚠ExperimentalConcatenate a and b into a 128-byte immediate result, shift the result right by imm8 64-bit elements, and stores the low 64 bytes (8 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_and_epi32⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcast_f32x4⚠ExperimentalBroadcast the 4 packed single-precision (32-bit) floating-point elements from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcast_f64x4⚠ExperimentalBroadcast the 4 packed double-precision (64-bit) floating-point elements from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcast_i32x4⚠ExperimentalBroadcast the 4 packed 32-bit integers from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcast_i64x4⚠ExperimentalBroadcast the 4 packed 64-bit integers from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastsd_pd⚠ExperimentalBroadcast the low double-precision (64-bit) floating-point element from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm512_maskz_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_maskz_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm512_maskz_cvt_roundepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvt_roundps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 8 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtepu32_ps⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in single vector dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm512_maskz_cvtneps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed BF16 (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm512_maskz_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtps_pd⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm512_maskz_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtt_roundpd_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvtt_roundpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvtt_roundps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvtt_roundps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm512_maskz_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_div_round_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_div_round_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm512_maskz_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_extractf32x4_ps⚠ExperimentalExtract 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from a, selected with imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_extractf64x4_pd⚠ExperimentalExtract 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from a, selected with imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_extracti32x4_epi32⚠ExperimentalExtract 128 bits (composed of 4 packed 32-bit integers) from a, selected with IMM2, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_extracti64x4_epi64⚠ExperimentalExtract 256 bits (composed of 4 packed 64-bit integers) from a, selected with IMM1, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_maskz_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_maskz_fixupimm_round_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_maskz_fixupimm_round_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm512_maskz_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in a using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmaddsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmaddsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsubadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fmsubadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmadd_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmadd_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmsub_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_fnmsub_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_maskz_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm512_maskz_getexp_round_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_getexp_round_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm512_maskz_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm512_maskz_getmant_round_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_getmant_round_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_maskz_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm512_maskz_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm512_maskz_insertf32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_insertf64x4⚠ExperimentalCopy a to tmp, then insert 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_inserti32x4⚠ExperimentalCopy a to tmp, then insert 128 bits (composed of 4 packed 32-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_inserti64x4⚠ExperimentalCopy a to tmp, then insert 256 bits (composed of 4 packed 64-bit integers) from b into tmp at the location specified by imm8. Store tmp to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_maskz_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_maskz_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_maskz_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_maskz_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm512_maskz_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_max_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_max_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_min_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_min_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_maskz_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mov_epi32⚠ExperimentalMove packed 32-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mov_epi64⚠ExperimentalMove packed 64-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_round_pd⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mul_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm512_maskz_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm512_maskz_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm512_maskz_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm512_maskz_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_maskz_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_maskz_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_maskz_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_maskz_roundscale_round_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_maskz_roundscale_round_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_maskz_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_maskz_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm512_maskz_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_scalef_round_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_scalef_round_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_set1_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_epi8⚠ExperimentalShuffle packed 8-bit integers in a according to shuffle control mask in the corresponding 8-bit element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sqrt_round_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sqrt_round_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_round_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_sub_round_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 32-bit granularity (32-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 64-bit granularity (64-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_maskz_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm512_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst.
- _mm512_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst.
- _mm512_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst.
- _mm512_max_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_max_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst.
- _mm512_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst. Compare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst.
- _mm512_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst.
- _mm512_min_round_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_min_round_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm512_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst.
- _mm512_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst.
- _mm512_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst.
- _mm512_movepi8_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 8-bit integer in a.
- _mm512_movepi16_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 16-bit integer in a.
- _mm512_movm_epi8⚠ExperimentalSet each packed 8-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm512_movm_epi16⚠ExperimentalSet each packed 16-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm512_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst.
- _mm512_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst.
- _mm512_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_mul_round_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_mul_round_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst.
- _mm512_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst.
- _mm512_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst.
- _mm512_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst.
- _mm512_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst.
- _mm512_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst.
- _mm512_mullox_epi64⚠ExperimentalMultiplies elements in packed 64-bit integer vectors a and b together, storing the lower 64 bits of the result in dst.
- _mm512_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst.
- _mm512_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst.
- _mm512_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the resut in dst.
- _mm512_or_si512⚠ExperimentalCompute the bitwise OR of 512 bits (representing integer data) in a and b, and store the result in dst.
- _mm512_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst.
- _mm512_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst.
- _mm512_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst.
- _mm512_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst.
- _mm512_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst.
- _mm512_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst.
- _mm512_permutevar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst. Note that this intrinsic shuffles across 128-bit lanes, unlike past intrinsics that use the permutevar name. This intrinsic is identical to _mm512_permutexvar_epi32, and it is recommended that you use that intrinsic name.
- _mm512_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst.
- _mm512_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst.
- _mm512_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm512_permutex_epi64⚠ExperimentalShuffle 64-bit integers in a within 256-bit lanes using the control in imm8, and store the results in dst.
- _mm512_permutex_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 256-bit lanes using the control in imm8, and store the results in dst.
- _mm512_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm512_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm512_permutexvar_epi32⚠ExperimentalShuffle 32-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm512_permutexvar_epi64⚠ExperimentalShuffle 64-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm512_permutexvar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm512_permutexvar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a across lanes using the corresponding index in idx.
- _mm512_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm512_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm512_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm512_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm512_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm512_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm512_reduce_add_epi32⚠ExperimentalReduce the packed 32-bit integers in a by addition. Returns the sum of all elements in a.
- _mm512_reduce_add_epi64⚠ExperimentalReduce the packed 64-bit integers in a by addition. Returns the sum of all elements in a.
- _mm512_reduce_add_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by addition. Returns the sum of all elements in a.
- _mm512_reduce_add_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by addition. Returns the sum of all elements in a.
- _mm512_reduce_and_epi32⚠ExperimentalReduce the packed 32-bit integers in a by bitwise AND. Returns the bitwise AND of all elements in a.
- _mm512_reduce_and_epi64⚠ExperimentalReduce the packed 64-bit integers in a by bitwise AND. Returns the bitwise AND of all elements in a.
- _mm512_reduce_max_epi32⚠ExperimentalReduce the packed signed 32-bit integers in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_max_epi64⚠ExperimentalReduce the packed signed 64-bit integers in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_max_epu32⚠ExperimentalReduce the packed unsigned 32-bit integers in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_max_epu64⚠ExperimentalReduce the packed unsigned 64-bit integers in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_max_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_max_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by maximum. Returns the maximum of all elements in a.
- _mm512_reduce_min_epi32⚠ExperimentalReduce the packed signed 32-bit integers in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_min_epi64⚠ExperimentalReduce the packed signed 64-bit integers in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_min_epu32⚠ExperimentalReduce the packed unsigned 32-bit integers in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_min_epu64⚠ExperimentalReduce the packed unsigned 64-bit integers in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_min_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_min_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by minimum. Returns the minimum of all elements in a.
- _mm512_reduce_mul_epi32⚠ExperimentalReduce the packed 32-bit integers in a by multiplication. Returns the product of all elements in a.
- _mm512_reduce_mul_epi64⚠ExperimentalReduce the packed 64-bit integers in a by multiplication. Returns the product of all elements in a.
- _mm512_reduce_mul_pd⚠ExperimentalReduce the packed double-precision (64-bit) floating-point elements in a by multiplication. Returns the product of all elements in a.
- _mm512_reduce_mul_ps⚠ExperimentalReduce the packed single-precision (32-bit) floating-point elements in a by multiplication. Returns the product of all elements in a.
- _mm512_reduce_or_epi32⚠ExperimentalReduce the packed 32-bit integers in a by bitwise OR. Returns the bitwise OR of all elements in a.
- _mm512_reduce_or_epi64⚠ExperimentalReduce the packed 64-bit integers in a by bitwise OR. Returns the bitwise OR of all elements in a.
- _mm512_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm512_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm512_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm512_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm512_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm512_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm512_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm512_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm512_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_roundscale_round_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_roundscale_round_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm512_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm512_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm512_sad_epu8⚠ExperimentalCompute the absolute differences of packed unsigned 8-bit integers in a and b, then horizontally sum each consecutive 8 differences to produce eight unsigned 16-bit integers, and pack these unsigned 16-bit integers in the low 16 bits of 64-bit elements in dst.
- _mm512_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm512_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm512_scalef_round_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm512_scalef_round_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm512_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst.
- _mm512_set1_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst.
- _mm512_set1_epi32⚠ExperimentalBroadcast 32-bit integer
a
to all elements ofdst
. - _mm512_set1_epi64⚠ExperimentalBroadcast 64-bit integer
a
to all elements ofdst
. - _mm512_set1_pd⚠ExperimentalBroadcast 64-bit float
a
to all elements ofdst
. - _mm512_set1_ps⚠ExperimentalBroadcast 32-bit float
a
to all elements ofdst
. - _mm512_set4_epi32⚠ExperimentalSet packed 32-bit integers in dst with the repeated 4 element sequence.
- _mm512_set4_epi64⚠ExperimentalSet packed 64-bit integers in dst with the repeated 4 element sequence.
- _mm512_set4_pd⚠ExperimentalSet packed double-precision (64-bit) floating-point elements in dst with the repeated 4 element sequence.
- _mm512_set4_ps⚠ExperimentalSet packed single-precision (32-bit) floating-point elements in dst with the repeated 4 element sequence.
- _mm512_set_epi8⚠ExperimentalSet packed 8-bit integers in dst with the supplied values.
- _mm512_set_epi16⚠ExperimentalSet packed 16-bit integers in dst with the supplied values.
- _mm512_set_epi32⚠ExperimentalSets packed 32-bit integers in
dst
with the supplied values. - _mm512_set_epi64⚠ExperimentalSet packed 64-bit integers in dst with the supplied values.
- _mm512_set_pd⚠ExperimentalSet packed double-precision (64-bit) floating-point elements in dst with the supplied values.
- _mm512_set_ps⚠ExperimentalSets packed 32-bit integers in
dst
with the supplied values. - _mm512_setr4_epi32⚠ExperimentalSet packed 32-bit integers in dst with the repeated 4 element sequence in reverse order.
- _mm512_setr4_epi64⚠ExperimentalSet packed 64-bit integers in dst with the repeated 4 element sequence in reverse order.
- _mm512_setr4_pd⚠ExperimentalSet packed double-precision (64-bit) floating-point elements in dst with the repeated 4 element sequence in reverse order.
- _mm512_setr4_ps⚠ExperimentalSet packed single-precision (32-bit) floating-point elements in dst with the repeated 4 element sequence in reverse order.
- _mm512_setr_epi32⚠ExperimentalSets packed 32-bit integers in
dst
with the supplied values in reverse order. - _mm512_setr_epi64⚠ExperimentalSet packed 64-bit integers in dst with the supplied values in reverse order.
- _mm512_setr_pd⚠ExperimentalSet packed double-precision (64-bit) floating-point elements in dst with the supplied values in reverse order.
- _mm512_setr_ps⚠ExperimentalSets packed 32-bit integers in
dst
with the supplied values in reverse order. - _mm512_setzero⚠ExperimentalReturn vector of type __m512 with all elements set to zero.
- _mm512_setzero_epi32⚠ExperimentalReturn vector of type __m512i with all elements set to zero.
- _mm512_setzero_pd⚠ExperimentalReturns vector of type
__m512d
with all elements set to zero. - _mm512_setzero_ps⚠ExperimentalReturns vector of type
__m512d
with all elements set to zero. - _mm512_setzero_si512⚠ExperimentalReturns vector of type
__m512i
with all elements set to zero. - _mm512_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst).
- _mm512_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst.
- _mm512_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst).
- _mm512_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst.
- _mm512_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst.
- _mm512_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst.
- _mm512_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst.
- _mm512_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst.
- _mm512_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst.
- _mm512_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst.
- _mm512_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst.
- _mm512_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst.
- _mm512_shuffle_epi8⚠ExperimentalShuffle packed 8-bit integers in a according to shuffle control mask in the corresponding 8-bit element of b, and store the results in dst.
- _mm512_shuffle_epi32⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst.
- _mm512_shuffle_f32x4⚠ExperimentalShuffle 128-bits (composed of 4 single-precision (32-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst.
- _mm512_shuffle_f64x2⚠ExperimentalShuffle 128-bits (composed of 2 double-precision (64-bit) floating-point elements) selected by imm8 from a and b, and store the results in dst.
- _mm512_shuffle_i32x4⚠ExperimentalShuffle 128-bits (composed of 4 32-bit integers) selected by imm8 from a and b, and store the results in dst.
- _mm512_shuffle_i64x2⚠ExperimentalShuffle 128-bits (composed of 2 64-bit integers) selected by imm8 from a and b, and store the results in dst.
- _mm512_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst.
- _mm512_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst.
- _mm512_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst.
- _mm512_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst.
- _mm512_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst.
- _mm512_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst.
- _mm512_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst.
- _mm512_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst.
- _mm512_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst.
- _mm512_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst.
- _mm512_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst.
- _mm512_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst.
- _mm512_sqrt_round_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst.
- _mm512_sqrt_round_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst.
- _mm512_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst.
- _mm512_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst.
- _mm512_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst.
- _mm512_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst.
- _mm512_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst.
- _mm512_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst.
- _mm512_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm512_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm512_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm512_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst.
- _mm512_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst.
- _mm512_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst.
- _mm512_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst.
- _mm512_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst.
- _mm512_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst.
- _mm512_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm512_store_epi32⚠ExperimentalStore 512-bits (composed of 16 packed 32-bit integers) from a into memory. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_store_epi64⚠ExperimentalStore 512-bits (composed of 8 packed 64-bit integers) from a into memory. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_store_pd⚠ExperimentalStore 512-bits (composed of 8 packed double-precision (64-bit) floating-point elements) from a into memory. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_store_ps⚠ExperimentalStore 512-bits of integer data from a into memory. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_store_si512⚠ExperimentalStore 512-bits of integer data from a into memory. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_storeu_epi8⚠ExperimentalStore 512-bits (composed of 64 packed 8-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm512_storeu_epi16⚠ExperimentalStore 512-bits (composed of 32 packed 16-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm512_storeu_epi32⚠ExperimentalStore 512-bits (composed of 16 packed 32-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm512_storeu_epi64⚠ExperimentalStore 512-bits (composed of 8 packed 64-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm512_storeu_pd⚠ExperimentalStores 512-bits (composed of 8 packed double-precision (64-bit) floating-point elements) from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - _mm512_storeu_si512⚠ExperimentalStore 512-bits of integer data from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm512_stream_pd⚠ExperimentalStore 512-bits (composed of 8 packed double-precision (64-bit) floating-point elements) from a into memory using a non-temporal memory hint. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_stream_ps⚠ExperimentalStore 512-bits (composed of 16 packed single-precision (32-bit) floating-point elements) from a into memory using a non-temporal memory hint. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_stream_si512⚠ExperimentalStore 512-bits of integer data from a into memory using a non-temporal memory hint. mem_addr must be aligned on a 64-byte boundary or a general-protection exception may be generated.
- _mm512_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst.
- _mm512_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst.
- _mm512_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst.
- _mm512_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst.
- _mm512_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst.
- _mm512_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst.
- _mm512_sub_round_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst.
- _mm512_sub_round_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst.
- _mm512_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst.
- _mm512_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst.
- _mm512_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst.
- _mm512_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst.
- _mm512_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm512_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm512_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm512_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm512_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm512_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm512_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm512_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm512_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm512_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm512_undefined⚠ExperimentalReturn vector of type __m512 with undefined elements.
- _mm512_undefined_epi32⚠ExperimentalReturn vector of type __m512i with undefined elements.
- _mm512_undefined_pd⚠ExperimentalReturns vector of type
__m512d
with undefined elements. - _mm512_undefined_ps⚠ExperimentalReturns vector of type
__m512
with undefined elements. - _mm512_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst.
- _mm512_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst.
- _mm512_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst.
- _mm512_xor_si512⚠ExperimentalCompute the bitwise XOR of 512 bits (representing integer data) in a and b, and store the result in dst.
- _mm512_zextpd128_pd512⚠ExperimentalCast vector of type __m128d to type __m512d; the upper 384 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_zextpd256_pd512⚠ExperimentalCast vector of type __m256d to type __m512d; the upper 256 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_zextps128_ps512⚠ExperimentalCast vector of type __m128 to type __m512; the upper 384 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_zextps256_ps512⚠ExperimentalCast vector of type __m256 to type __m512; the upper 256 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_zextsi128_si512⚠ExperimentalCast vector of type __m128i to type __m512i; the upper 384 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm512_zextsi256_si512⚠ExperimentalCast vector of type __m256i to type __m512i; the upper 256 bits of the result are zeroed. This intrinsic is only used for compilation and does not generate any instructions, thus it has zero latency.
- _mm_add_round_sd⚠ExperimentalAdd the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_add_round_ss⚠ExperimentalAdd the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_alignr_epi32⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 16 bytes (4 elements) in dst.
- _mm_alignr_epi64⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 16 bytes (2 elements) in dst.
- _mm_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm_broadcastmb_epi64⚠ExperimentalBroadcast the low 8-bits from input mask k to all 64-bit elements of dst.
- _mm_broadcastmw_epi32⚠ExperimentalBroadcast the low 16-bits from input mask k to all 32-bit elements of dst.
- _mm_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k.
- _mm_cmp_round_sd_mask⚠ExperimentalCompare the lower double-precision (64-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cmp_round_ss_mask⚠ExperimentalCompare the lower single-precision (32-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cmp_sd_mask⚠ExperimentalCompare the lower double-precision (64-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k.
- _mm_cmp_ss_mask⚠ExperimentalCompare the lower single-precision (32-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k.
- _mm_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k.
- _mm_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k.
- _mm_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k.
- _mm_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k.
- _mm_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k.
- _mm_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k.
- _mm_comi_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point element in a and b based on the comparison operand specified by imm8, and return the boolean result (0 or 1).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_comi_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point element in a and b based on the comparison operand specified by imm8, and return the boolean result (0 or 1).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit. Each element’s comparison forms a zero extended bit vector in dst.
- _mm_cvt_roundi32_ss⚠ExperimentalConvert the signed 32-bit integer b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_cvt_roundsd_i32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundsd_si32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundsd_ss⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundsd_u32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to an unsigned 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundsi32_ss⚠ExperimentalConvert the signed 32-bit integer b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_cvt_roundss_i32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundss_sd⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvt_roundss_si32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundss_u32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to an unsigned 32-bit integer, and store the result in dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvt_roundu32_ss⚠ExperimentalConvert the unsigned 32-bit integer b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst.
- _mm_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst.
- _mm_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst.
- _mm_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst.
- _mm_cvti32_sd⚠ExperimentalConvert the signed 32-bit integer b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_cvti32_ss⚠ExperimentalConvert the signed 32-bit integer b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two 128-bit vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in a 128-bit wide vector. Intel’s documentation
- _mm_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst.
- _mm_cvtsd_i32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
- _mm_cvtsd_u32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to an unsigned 32-bit integer, and store the result in dst.
- _mm_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst.
- _mm_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst.
- _mm_cvtss_i32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer, and store the result in dst.
- _mm_cvtss_u32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to an unsigned 32-bit integer, and store the result in dst.
- _mm_cvtt_roundsd_i32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvtt_roundsd_si32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvtt_roundsd_u32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to an unsigned 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvtt_roundss_i32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvtt_roundss_si32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvtt_roundss_u32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to an unsigned 32-bit integer with truncation, and store the result in dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm_cvttps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst.
- _mm_cvttsd_i32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
- _mm_cvttsd_u32⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in a to an unsigned 32-bit integer with truncation, and store the result in dst.
- _mm_cvttss_i32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to a 32-bit integer with truncation, and store the result in dst.
- _mm_cvttss_u32⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in a to an unsigned 32-bit integer with truncation, and store the result in dst.
- _mm_cvtu32_sd⚠ExperimentalConvert the unsigned 32-bit integer b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_cvtu32_ss⚠ExperimentalConvert the unsigned 32-bit integer b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst.
- _mm_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst.
- _mm_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst.
- _mm_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst. Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm_div_round_sd⚠ExperimentalDivide the lower double-precision (64-bit) floating-point element in a by the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_div_round_ss⚠ExperimentalDivide the lower single-precision (32-bit) floating-point element in a by the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst. Intel’s documentation
- _mm_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst.
- _mm_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst.
- _mm_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst. imm8 is used to set the required flags reporting.
- _mm_fixupimm_round_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_fixupimm_round_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_fixupimm_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
- _mm_fixupimm_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
- _mm_fmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_fmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_fmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_fmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_fnmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_fnmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_fnmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_fnmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, subtract the lower element in c from the negated intermediate result, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst. This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_getexp_round_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_getexp_round_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_getexp_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_getexp_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign. The mantissa is normalized to the interval specified by interv, which can take the following values: _MM_MANT_NORM_1_2 // interval [1, 2) _MM_MANT_NORM_p5_2 // interval [0.5, 2) _MM_MANT_NORM_p5_1 // interval [0.5, 1) _MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5) The sign is determined by sc which can take the following values: _MM_MANT_SIGN_src // sign = sign(src) _MM_MANT_SIGN_zero // sign = 0 _MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
- _mm_getmant_round_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_getmant_round_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_getmant_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_getmant_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm_load_epi32⚠ExperimentalLoad 128-bits (composed of 4 packed 32-bit integers) from memory into dst. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_load_epi64⚠ExperimentalLoad 128-bits (composed of 2 packed 64-bit integers) from memory into dst. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_loadu_epi8⚠ExperimentalLoad 128-bits (composed of 16 packed 8-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm_loadu_epi16⚠ExperimentalLoad 128-bits (composed of 8 packed 16-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm_loadu_epi32⚠ExperimentalLoad 128-bits (composed of 4 packed 32-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm_loadu_epi64⚠ExperimentalLoad 128-bits (composed of 2 packed 64-bit integers) from memory into dst. mem_addr does not need to be aligned on any particular boundary.
- _mm_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst.
- _mm_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst.
- _mm_madd52hi_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the high 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm_madd52lo_epu64⚠ExperimentalMultiply packed unsigned 52-bit integers in each 64-bit element of
b
andc
to form a 104-bit intermediate result. Add the low 52-bit unsigned integer from the intermediate result with the corresponding unsigned 64-bit integer ina
, and store the results indst
. - _mm_mask2_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask2_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm_mask2_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm_mask2_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm_mask2_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set)
- _mm_mask2_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from idx when the corresponding mask bit is not set).
- _mm_mask3_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fmaddsub_pd⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fnmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fnmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fnmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fnmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from c when the corresponding mask bit is not set).
- _mm_mask3_fnmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fnmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask3_fnmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from c to the upper element of dst.
- _mm_mask3_fnmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from c to the upper elements of dst.
- _mm_mask_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set)
- _mm_mask_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_abs_epi32⚠ExperimentalCompute the absolute value of packed signed 32-bit integers in a, and store the unsigned results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_add_round_sd⚠ExperimentalAdd the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_add_round_ss⚠ExperimentalAdd the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_add_sd⚠ExperimentalAdd the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_add_ss⚠ExperimentalAdd the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_alignr_epi32⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 16 bytes (4 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_alignr_epi64⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 16 bytes (2 elements) in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_and_epi32⚠ExperimentalPerforms element-by-element bitwise AND between packed 32-bit integer elements of a and b, storing the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_bitshuffle_epi64_mask⚠ExperimentalConsiders the input
b
as packed 64-bit integers andc
as packed 8-bit integers. Then groups 8 8-bit values fromc
as indices into the bits of the corresponding 64-bit integer. It then selects these bits and packs them into the output. - _mm_mask_blend_epi8⚠ExperimentalBlend packed 8-bit integers from a and b using control mask k, and store the results in dst.
- _mm_mask_blend_epi16⚠ExperimentalBlend packed 16-bit integers from a and b using control mask k, and store the results in dst.
- _mm_mask_blend_epi32⚠ExperimentalBlend packed 32-bit integers from a and b using control mask k, and store the results in dst.
- _mm_mask_blend_epi64⚠ExperimentalBlend packed 64-bit integers from a and b using control mask k, and store the results in dst.
- _mm_mask_blend_pd⚠ExperimentalBlend packed double-precision (64-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm_mask_blend_ps⚠ExperimentalBlend packed single-precision (32-bit) floating-point elements from a and b using control mask k, and store the results in dst.
- _mm_mask_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cmp_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_pd_mask⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_ps_mask⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b based on the comparison operand specified by imm8, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmp_round_sd_mask⚠ExperimentalCompare the lower double-precision (64-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k using zeromask k1 (the element is zeroed out when mask bit 0 is not set).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_cmp_round_ss_mask⚠ExperimentalCompare the lower single-precision (32-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k using zeromask k1 (the element is zeroed out when mask bit 0 is not seti).
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_cmp_sd_mask⚠ExperimentalCompare the lower double-precision (64-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k using zeromask k1 (the element is zeroed out when mask bit 0 is not set).
- _mm_mask_cmp_ss_mask⚠ExperimentalCompare the lower single-precision (32-bit) floating-point element in a and b based on the comparison operand specified by imm8, and store the result in mask vector k using zeromask k1 (the element is zeroed out when mask bit 0 is not set).
- _mm_mask_cmpeq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epi64_mask⚠ExperimentalCompare packed 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpeq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for equality, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpge_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpgt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for greater-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmple_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epi32_mask⚠ExperimentalCompare packed signed 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for less-than-or-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmplt_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for less-than, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epi8_mask⚠ExperimentalCompare packed signed 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epi16_mask⚠ExperimentalCompare packed signed 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epi32_mask⚠ExperimentalCompare packed 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epi64_mask⚠ExperimentalCompare packed signed 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epu8_mask⚠ExperimentalCompare packed unsigned 8-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epu16_mask⚠ExperimentalCompare packed unsigned 16-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epu32_mask⚠ExperimentalCompare packed unsigned 32-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_cmpneq_epu64_mask⚠ExperimentalCompare packed unsigned 64-bit integers in a and b for not-equal, and store the results in mask vector k using zeromask k1 (elements are zeroed out when the corresponding mask bit is not set).
- _mm_mask_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to dst, and pass through the remaining elements from src.
- _mm_mask_compressstoreu_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_compressstoreu_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_compressstoreu_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_compressstoreu_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_compressstoreu_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_compressstoreu_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm_mask_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using writemask k (elements are copied from src when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm_mask_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_cvt_roundsd_ss⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_cvt_roundss_sd⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 2 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi16_storeu_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi32_storeu_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepi32_storeu_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepi64_storeu_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepi64_storeu_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepi64_storeu_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 4 bytes of a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 2 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in single vector dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm_mask_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_cvtsd_ss⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi16_storeu_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi32_storeu_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtsepi32_storeu_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtsepi64_storeu_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtsepi64_storeu_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtsepi64_storeu_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtss_sd⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi16_storeu_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi32_storeu_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtusepi32_storeu_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_cvtusepi64_storeu_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 8-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtusepi64_storeu_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 16-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_cvtusepi64_storeu_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed 32-bit integers with unsigned saturation, and store the active results (those with their respective bit set in writemask k) to unaligned memory at base_addr.
- _mm_mask_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm_mask_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_div_round_sd⚠ExperimentalDivide the lower double-precision (64-bit) floating-point element in a by the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_div_round_ss⚠ExperimentalDivide the lower single-precision (32-bit) floating-point element in a by the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_div_sd⚠ExperimentalDivide the lower double-precision (64-bit) floating-point element in a by the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_div_ss⚠ExperimentalDivide the lower single-precision (32-bit) floating-point element in a by the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). Intel’s documentation
- _mm_mask_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm_mask_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm_mask_fixupimm_round_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_fixupimm_round_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_fixupimm_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
- _mm_mask_fixupimm_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
- _mm_mask_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fnmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fnmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fnmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fnmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using writemask k (the element is copied from a when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_fnmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fnmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_fnmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_fnmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using writemask k (the element is copied from c when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_mask_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_mask_getexp_round_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_getexp_round_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_getexp_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_mask_getexp_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_mask_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm_mask_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm_mask_getmant_round_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_getmant_round_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_getmant_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_getmant_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_mask_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_mask_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm_mask_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using writemask k (elements are copied from src when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_max_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_max_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_max_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_max_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_min_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_min_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_mask_min_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_min_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mov_epi32⚠ExperimentalMove packed 32-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mov_epi64⚠ExperimentalMove packed 64-bit integers from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_move_sd⚠ExperimentalMove the lower double-precision (64-bit) floating-point element from b to the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_move_ss⚠ExperimentalMove the lower single-precision (32-bit) floating-point element from b to the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mul_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_mul_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_mul_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_mul_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm_mask_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm_mask_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm_mask_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm_mask_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rcp14_sd⚠ExperimentalCompute the approximate reciprocal of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rcp14_ss⚠ExperimentalCompute the approximate reciprocal of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_roundscale_round_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_roundscale_round_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_roundscale_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_roundscale_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_mask_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rsqrt14_sd⚠ExperimentalCompute the approximate reciprocal square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_rsqrt14_ss⚠ExperimentalCompute the approximate reciprocal square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_mask_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_scalef_round_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_scalef_round_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_scalef_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_scalef_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_set1_epi16⚠ExperimentalBroadcast 16-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using writemask k (elements are copied from src“ when the corresponding mask bit is not set).
- _mm_mask_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using writemask k (elements are copied from a when the corresponding mask bit is not set).
- _mm_mask_shuffle_epi8⚠ExperimentalShuffle 8-bit integers in a within 128-bit lanes using the control in the corresponding 8-bit element of b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a using the control in imm8, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sqrt_round_sd⚠ExperimentalCompute the square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_sqrt_round_ss⚠ExperimentalCompute the square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_sqrt_sd⚠ExperimentalCompute the square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_sqrt_ss⚠ExperimentalCompute the square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_store_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_store_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_store_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_store_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_mask_storeu_epi8⚠ExperimentalStore packed 8-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_storeu_epi16⚠ExperimentalStore packed 16-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_storeu_epi32⚠ExperimentalStore packed 32-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_storeu_epi64⚠ExperimentalStore packed 64-bit integers from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_storeu_pd⚠ExperimentalStore packed double-precision (64-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_storeu_ps⚠ExperimentalStore packed single-precision (32-bit) floating-point elements from a into memory using writemask k. mem_addr does not need to be aligned on any particular boundary.
- _mm_mask_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_sub_round_sd⚠ExperimentalSubtract the lower double-precision (64-bit) floating-point element in b from the lower double-precision (64-bit) floating-point element in a, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_sub_round_ss⚠ExperimentalSubtract the lower single-precision (32-bit) floating-point element in b from the lower single-precision (32-bit) floating-point element in a, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_sub_sd⚠ExperimentalSubtract the lower double-precision (64-bit) floating-point element in b from the lower double-precision (64-bit) floating-point element in a, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_mask_sub_ss⚠ExperimentalSubtract the lower single-precision (32-bit) floating-point element in b from the lower single-precision (32-bit) floating-point element in a, store the result in the lower element of dst using writemask k (the element is copied from src when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_mask_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 32-bit granularity (32-bit elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from src, a, and b are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using writemask k at 64-bit granularity (64-bit elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm_mask_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm_mask_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm_mask_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is non-zero.
- _mm_mask_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm_mask_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm_mask_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm_mask_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k (subject to writemask k) if the intermediate value is zero.
- _mm_mask_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_mask_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_maskz_abs_epi8⚠ExperimentalCompute the absolute value of packed signed 8-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_abs_epi16⚠ExperimentalCompute the absolute value of packed signed 16-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_abs_epi32⚠ExperimentalCompute the absolute value of packed signed 32-bit integers in a, and store the unsigned results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_epi8⚠ExperimentalAdd packed 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_epi16⚠ExperimentalAdd packed 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_epi32⚠ExperimentalAdd packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_epi64⚠ExperimentalAdd packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_pd⚠ExperimentalAdd packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_ps⚠ExperimentalAdd packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_add_round_sd⚠ExperimentalAdd the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_add_round_ss⚠ExperimentalAdd the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_add_sd⚠ExperimentalAdd the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_add_ss⚠ExperimentalAdd the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_adds_epi8⚠ExperimentalAdd packed signed 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_adds_epi16⚠ExperimentalAdd packed signed 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_adds_epu8⚠ExperimentalAdd packed unsigned 8-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_adds_epu16⚠ExperimentalAdd packed unsigned 16-bit integers in a and b using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_alignr_epi8⚠ExperimentalConcatenate pairs of 16-byte blocks in a and b into a 32-byte temporary result, shift the result right by imm8 bytes, and store the low 16 bytes in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_alignr_epi32⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 32-bit elements, and store the low 16 bytes (4 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_alignr_epi64⚠ExperimentalConcatenate a and b into a 32-byte immediate result, shift the result right by imm8 64-bit elements, and store the low 16 bytes (2 elements) in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_and_epi32⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_and_epi64⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_andnot_epi32⚠ExperimentalCompute the bitwise NOT of packed 32-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_andnot_epi64⚠ExperimentalCompute the bitwise NOT of packed 64-bit integers in a and then AND with b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_avg_epu8⚠ExperimentalAverage packed unsigned 8-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_avg_epu16⚠ExperimentalAverage packed unsigned 16-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_broadcastb_epi8⚠ExperimentalBroadcast the low packed 8-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_broadcastd_epi32⚠ExperimentalBroadcast the low packed 32-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_broadcastq_epi64⚠ExperimentalBroadcast the low packed 64-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_broadcastss_ps⚠ExperimentalBroadcast the low single-precision (32-bit) floating-point element from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_broadcastw_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_compress_epi8⚠ExperimentalContiguously store the active 8-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_compress_epi16⚠ExperimentalContiguously store the active 16-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_compress_epi32⚠ExperimentalContiguously store the active 32-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_compress_epi64⚠ExperimentalContiguously store the active 64-bit integers in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_compress_pd⚠ExperimentalContiguously store the active double-precision (64-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_compress_ps⚠ExperimentalContiguously store the active single-precision (32-bit) floating-point elements in a (those with their respective bit set in zeromask k) to dst, and set the remaining elements to zero.
- _mm_maskz_conflict_epi32⚠ExperimentalTest each 32-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm_maskz_conflict_epi64⚠ExperimentalTest each 64-bit element of a for equality with all other elements in a closer to the least significant bit using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Each element’s comparison forms a zero extended bit vector in dst.
- _mm_maskz_cvt_roundps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_cvt_roundsd_ss⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the rounding[3:0] parameter, which can be one of:
(_MM_FROUND_TO_NEAREST_INT |_MM_FROUND_NO_EXC) // round to nearest, and suppress exceptions
(_MM_FROUND_TO_NEG_INF |_MM_FROUND_NO_EXC) // round down, and suppress exceptions
(_MM_FROUND_TO_POS_INF |_MM_FROUND_NO_EXC) // round up, and suppress exceptions
(_MM_FROUND_TO_ZERO |_MM_FROUND_NO_EXC) // truncate, and suppress exceptions
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_cvt_roundss_sd⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_cvtepi8_epi16⚠ExperimentalSign extend packed 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi8_epi32⚠ExperimentalSign extend packed 8-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi8_epi64⚠ExperimentalSign extend packed 8-bit integers in the low 2 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi16_epi8⚠ExperimentalConvert packed 16-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi16_epi32⚠ExperimentalSign extend packed 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi16_epi64⚠ExperimentalSign extend packed 16-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi32_epi8⚠ExperimentalConvert packed 32-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi32_epi16⚠ExperimentalConvert packed 32-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi32_epi64⚠ExperimentalSign extend packed 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi32_pd⚠ExperimentalConvert packed signed 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi32_ps⚠ExperimentalConvert packed signed 32-bit integers in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi64_epi8⚠ExperimentalConvert packed 64-bit integers in a to packed 8-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi64_epi16⚠ExperimentalConvert packed 64-bit integers in a to packed 16-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepi64_epi32⚠ExperimentalConvert packed 64-bit integers in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu8_epi16⚠ExperimentalZero extend packed unsigned 8-bit integers in a to packed 16-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu8_epi32⚠ExperimentalZero extend packed unsigned 8-bit integers in th elow 4 bytes of a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu8_epi64⚠ExperimentalZero extend packed unsigned 8-bit integers in the low 2 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu16_epi32⚠ExperimentalZero extend packed unsigned 16-bit integers in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu16_epi64⚠ExperimentalZero extend packed unsigned 16-bit integers in the low 4 bytes of a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu32_epi64⚠ExperimentalZero extend packed unsigned 32-bit integers in a to packed 64-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtepu32_pd⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed double-precision (64-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtne2ps_pbh⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in two vectors a and b to packed BF16 (16-bit) floating-point elements, and store the results in single vector dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm_maskz_cvtpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtpd_ps⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtph_ps⚠ExperimentalConvert packed half-precision (16-bit) floating-point elements in a to packed single-precision (32-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtps_epu32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtps_ph⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed half-precision (16-bit) floating-point elements, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_cvtsd_ss⚠ExperimentalConvert the lower double-precision (64-bit) floating-point element in b to a single-precision (32-bit) floating-point element, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_cvtsepi16_epi8⚠ExperimentalConvert packed signed 16-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtsepi32_epi8⚠ExperimentalConvert packed signed 32-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtsepi32_epi16⚠ExperimentalConvert packed signed 32-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst.
- _mm_maskz_cvtsepi64_epi8⚠ExperimentalConvert packed signed 64-bit integers in a to packed 8-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtsepi64_epi16⚠ExperimentalConvert packed signed 64-bit integers in a to packed 16-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtsepi64_epi32⚠ExperimentalConvert packed signed 64-bit integers in a to packed 32-bit integers with signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtss_sd⚠ExperimentalConvert the lower single-precision (32-bit) floating-point element in b to a double-precision (64-bit) floating-point element, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_cvttpd_epi32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvttpd_epu32⚠ExperimentalConvert packed double-precision (64-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvttps_epi32⚠ExperimentalConvert packed single-precision (32-bit) floating-point elements in a to packed 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvttps_epu32⚠ExperimentalConvert packed double-precision (32-bit) floating-point elements in a to packed unsigned 32-bit integers with truncation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi16_epi8⚠ExperimentalConvert packed unsigned 16-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi32_epi8⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi32_epi16⚠ExperimentalConvert packed unsigned 32-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi64_epi8⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 8-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi64_epi16⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 16-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_cvtusepi64_epi32⚠ExperimentalConvert packed unsigned 64-bit integers in a to packed unsigned 32-bit integers with unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_dbsad_epu8⚠ExperimentalCompute the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in a compared to those in b, and store the 16-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Four SADs are performed on four 8-bit quadruplets for each 64-bit lane. The first two SADs use the lower 8-bit quadruplet of the lane from a, and the last two SADs use the uppper 8-bit quadruplet of the lane from a. Quadruplets from b are selected from within 128-bit lanes according to the control in imm8, and each SAD in each 64-bit lane uses the selected quadruplet at 8-bit offsets.
- _mm_maskz_div_pd⚠ExperimentalDivide packed double-precision (64-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_div_ps⚠ExperimentalDivide packed single-precision (32-bit) floating-point elements in a by packed elements in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_div_round_sd⚠ExperimentalDivide the lower double-precision (64-bit) floating-point element in a by the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_div_round_ss⚠ExperimentalDivide the lower single-precision (32-bit) floating-point element in a by the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_div_sd⚠ExperimentalDivide the lower double-precision (64-bit) floating-point element in a by the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_div_ss⚠ExperimentalDivide the lower single-precision (32-bit) floating-point element in a by the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_dpbf16_ps⚠ExperimentalCompute dot-product of BF16 (16-bit) floating-point pairs in a and b, accumulating the intermediate single-precision (32-bit) floating-point elements with elements in src, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). Intel’s documentation
- _mm_maskz_dpbusd_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_dpbusds_epi32⚠ExperimentalMultiply groups of 4 adjacent pairs of unsigned 8-bit integers in a with corresponding signed 8-bit integers in b, producing 4 intermediate signed 16-bit results. Sum these 4 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_dpwssd_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_dpwssds_epi32⚠ExperimentalMultiply groups of 2 adjacent pairs of signed 16-bit integers in a with corresponding 16-bit integers in b, producing 2 intermediate signed 32-bit results. Sum these 2 results with the corresponding 32-bit integer in src using signed saturation, and store the packed 32-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_epi8⚠ExperimentalLoad contiguous active 8-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_epi16⚠ExperimentalLoad contiguous active 16-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_epi32⚠ExperimentalLoad contiguous active 32-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_epi64⚠ExperimentalLoad contiguous active 64-bit integers from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_pd⚠ExperimentalLoad contiguous active double-precision (64-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expand_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from a (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_epi8⚠ExperimentalLoad contiguous active 8-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_epi16⚠ExperimentalLoad contiguous active 16-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_epi32⚠ExperimentalLoad contiguous active 32-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_epi64⚠ExperimentalLoad contiguous active 64-bit integers from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_pd⚠ExperimentalLoad contiguous active single-precision (64-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_expandloadu_ps⚠ExperimentalLoad contiguous active single-precision (32-bit) floating-point elements from unaligned memory at mem_addr (those with their respective bit set in mask k), and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fixupimm_pd⚠ExperimentalFix up packed double-precision (64-bit) floating-point elements in a and b using packed 64-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm_maskz_fixupimm_ps⚠ExperimentalFix up packed single-precision (32-bit) floating-point elements in a and b using packed 32-bit integers in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). imm8 is used to set the required flags reporting.
- _mm_maskz_fixupimm_round_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_fixupimm_round_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_fixupimm_sd⚠ExperimentalFix up the lower double-precision (64-bit) floating-point elements in a and b using the lower 64-bit integer in c, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. imm8 is used to set the required flags reporting.
- _mm_maskz_fixupimm_ss⚠ExperimentalFix up the lower single-precision (32-bit) floating-point elements in a and b using the lower 32-bit integer in c, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. imm8 is used to set the required flags reporting.
- _mm_maskz_fmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fmaddsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmaddsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fmsubadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, alternatively add and subtract packed elements in c to/from the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fmsubadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, alternatively subtract and add packed elements in c from/to the intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fnmadd_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fnmadd_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, add the negated intermediate result to packed elements in c, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fnmadd_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fnmadd_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fnmadd_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fnmadd_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and add the negated intermediate result to the lower element in c. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fnmsub_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fnmsub_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, subtract packed elements in c from the negated intermediate result, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_fnmsub_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fnmsub_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_fnmsub_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_fnmsub_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point elements in a and b, and subtract the lower element in c from the negated intermediate result. Store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_getexp_pd⚠ExperimentalConvert the exponent of each packed double-precision (64-bit) floating-point element in a to a double-precision (64-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_maskz_getexp_ps⚠ExperimentalConvert the exponent of each packed single-precision (32-bit) floating-point element in a to a single-precision (32-bit) floating-point number representing the integer exponent, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates floor(log2(x)) for each element.
- _mm_maskz_getexp_round_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_getexp_round_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_getexp_sd⚠ExperimentalConvert the exponent of the lower double-precision (64-bit) floating-point element in b to a double-precision (64-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_maskz_getexp_ss⚠ExperimentalConvert the exponent of the lower single-precision (32-bit) floating-point element in b to a single-precision (32-bit) floating-point number representing the integer exponent, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates floor(log2(x)) for the lower element.
- _mm_maskz_getmant_pd⚠ExperimentalNormalize the mantissas of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm_maskz_getmant_ps⚠ExperimentalNormalize the mantissas of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1 - _mm_maskz_getmant_round_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_getmant_round_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_getmant_sd⚠ExperimentalNormalize the mantissas of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_getmant_ss⚠ExperimentalNormalize the mantissas of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. This intrinsic essentially calculates ±(2^k)*|x.significand|, where k depends on the interval range defined by interv and the sign depends on sc and the source sign.
The mantissa is normalized to the interval specified by interv, which can take the following values:
_MM_MANT_NORM_1_2 // interval [1, 2)
_MM_MANT_NORM_p5_2 // interval [0.5, 2)
_MM_MANT_NORM_p5_1 // interval [0.5, 1)
_MM_MANT_NORM_p75_1p5 // interval [0.75, 1.5)
The sign is determined by sc which can take the following values:
_MM_MANT_SIGN_src // sign = sign(src)
_MM_MANT_SIGN_zero // sign = 0
_MM_MANT_SIGN_nan // dst = NaN if sign(src) = 1
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_gf2p8affine_epi64_epi8⚠ExperimentalPerforms an affine transformation on the packed bytes in x. That is computes a*x+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_maskz_gf2p8affineinv_epi64_epi8⚠ExperimentalPerforms an affine transformation on the inverted packed bytes in x. That is computes a*inv(x)+b over the Galois Field 2^8 for each packed byte with a being a 8x8 bit matrix and b being a constant 8-bit immediate value. The inverse of a byte is defined with respect to the reduction polynomial x^8+x^4+x^3+x+1. The inverse of 0 is 0. Each pack of 8 bytes in x is paired with the 64-bit word at the same position in a.
- _mm_maskz_gf2p8mul_epi8⚠ExperimentalPerforms a multiplication in GF(2^8) on the packed bytes. The field is in polynomial representation with the reduction polynomial x^8 + x^4 + x^3 + x + 1.
- _mm_maskz_load_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_maskz_load_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_maskz_load_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_maskz_load_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_maskz_loadu_epi8⚠ExperimentalLoad packed 8-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_loadu_epi16⚠ExperimentalLoad packed 16-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_loadu_epi32⚠ExperimentalLoad packed 32-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_loadu_epi64⚠ExperimentalLoad packed 64-bit integers from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_loadu_pd⚠ExperimentalLoad packed double-precision (64-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_loadu_ps⚠ExperimentalLoad packed single-precision (32-bit) floating-point elements from memory into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). mem_addr does not need to be aligned on any particular boundary.
- _mm_maskz_lzcnt_epi32⚠ExperimentalCounts the number of leading zero bits in each packed 32-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_lzcnt_epi64⚠ExperimentalCounts the number of leading zero bits in each packed 64-bit integer in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_madd_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers, and pack the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_maddubs_epi16⚠ExperimentalMultiply packed unsigned 8-bit integers in a by packed signed 8-bit integers in b, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers, and pack the saturated results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed maximum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_max_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_max_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_max_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_max_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the maximum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_min_epi8⚠ExperimentalCompare packed signed 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epi16⚠ExperimentalCompare packed signed 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epi32⚠ExperimentalCompare packed signed 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epu8⚠ExperimentalCompare packed unsigned 8-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epu16⚠ExperimentalCompare packed unsigned 16-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epu32⚠ExperimentalCompare packed unsigned 32-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_pd⚠ExperimentalCompare packed double-precision (64-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_ps⚠ExperimentalCompare packed single-precision (32-bit) floating-point elements in a and b, and store packed minimum values in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_min_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_min_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_maskz_min_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_min_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the minimum value in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_mov_epi8⚠ExperimentalMove packed 8-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mov_epi16⚠ExperimentalMove packed 16-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mov_epi32⚠ExperimentalMove packed 32-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mov_epi64⚠ExperimentalMove packed 64-bit integers from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mov_pd⚠ExperimentalMove packed double-precision (64-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mov_ps⚠ExperimentalMove packed single-precision (32-bit) floating-point elements from a into dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_move_sd⚠ExperimentalMove the lower double-precision (64-bit) floating-point element from b to the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_move_ss⚠ExperimentalMove the lower single-precision (32-bit) floating-point element from b to the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_movedup_pd⚠ExperimentalDuplicate even-indexed double-precision (64-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_movehdup_ps⚠ExperimentalDuplicate odd-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_moveldup_ps⚠ExperimentalDuplicate even-indexed single-precision (32-bit) floating-point elements from a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mul_epi32⚠ExperimentalMultiply the low signed 32-bit integers from each packed 64-bit element in a and b, and store the signed 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mul_epu32⚠ExperimentalMultiply the low unsigned 32-bit integers from each packed 64-bit element in a and b, and store the unsigned 64-bit results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mul_pd⚠ExperimentalMultiply packed double-precision (64-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mul_ps⚠ExperimentalMultiply packed single-precision (32-bit) floating-point elements in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mul_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_mul_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_mul_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_mul_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_mulhi_epi16⚠ExperimentalMultiply the packed signed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mulhi_epu16⚠ExperimentalMultiply the packed unsigned 16-bit integers in a and b, producing intermediate 32-bit integers, and store the high 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mulhrs_epi16⚠ExperimentalMultiply packed signed 16-bit integers in a and b, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and store bits [16:1] to dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mullo_epi16⚠ExperimentalMultiply the packed 16-bit integers in a and b, producing intermediate 32-bit integers, and store the low 16 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_mullo_epi32⚠ExperimentalMultiply the packed 32-bit integers in a and b, producing intermediate 64-bit integers, and store the low 32 bits of the intermediate integers in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_packs_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_packs_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using signed saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_packus_epi16⚠ExperimentalConvert packed signed 16-bit integers from a and b to packed 8-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_packus_epi32⚠ExperimentalConvert packed signed 32-bit integers from a and b to packed 16-bit integers using unsigned saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permute_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permute_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutevar_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutevar_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a within 128-bit lanes using the control in b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm_maskz_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm_maskz_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm_maskz_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm_maskz_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rcp14_sd⚠ExperimentalCompute the approximate reciprocal of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rcp14_ss⚠ExperimentalCompute the approximate reciprocal of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_roundscale_round_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_roundscale_round_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_roundscale_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_roundscale_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_maskz_rsqrt14_pd⚠ExperimentalCompute the approximate reciprocal square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rsqrt14_ps⚠ExperimentalCompute the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set). The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rsqrt14_sd⚠ExperimentalCompute the approximate reciprocal square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_rsqrt14_ss⚠ExperimentalCompute the approximate reciprocal square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_maskz_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_scalef_round_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_scalef_round_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_scalef_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_scalef_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_set1_epi8⚠ExperimentalBroadcast 8-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_set1_epi16⚠ExperimentalBroadcast the low packed 16-bit integer from a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_set1_epi32⚠ExperimentalBroadcast 32-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_set1_epi64⚠ExperimentalBroadcast 64-bit integer a to all elements of dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shuffle_epi8⚠ExperimentalShuffle packed 8-bit integers in a according to shuffle control mask in the corresponding 8-bit element of b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shuffle_epi32⚠ExperimentalShuffle 32-bit integers in a within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shuffle_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements within 128-bit lanes using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shuffle_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a using the control in imm8, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shufflehi_epi16⚠ExperimentalShuffle 16-bit integers in the high 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the high 64 bits of 128-bit lanes of dst, with the low 64 bits of 128-bit lanes being copied from a to dst, using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_shufflelo_epi16⚠ExperimentalShuffle 16-bit integers in the low 64 bits of 128-bit lanes of a using the control in imm8. Store the results in the low 64 bits of 128-bit lanes of dst, with the high 64 bits of 128-bit lanes being copied from a to dst, using writemask k (elements are copied from src when the corresponding mask bit is not set).
- _mm_maskz_sll_epi16⚠ExperimentalShift packed 16-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sll_epi32⚠ExperimentalShift packed 32-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sll_epi64⚠ExperimentalShift packed 64-bit integers in a left by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_slli_epi16⚠ExperimentalShift packed 16-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_slli_epi32⚠ExperimentalShift packed 32-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_slli_epi64⚠ExperimentalShift packed 64-bit integers in a left by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sllv_epi32⚠ExperimentalShift packed 32-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sllv_epi64⚠ExperimentalShift packed 64-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sqrt_pd⚠ExperimentalCompute the square root of packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sqrt_ps⚠ExperimentalCompute the square root of packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sqrt_round_sd⚠ExperimentalCompute the square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_sqrt_round_ss⚠ExperimentalCompute the square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_sqrt_sd⚠ExperimentalCompute the square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_sqrt_ss⚠ExperimentalCompute the square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_sra_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sra_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srai_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srai_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srav_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srl_epi16⚠ExperimentalShift packed 16-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srl_epi32⚠ExperimentalShift packed 32-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srl_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srli_epi16⚠ExperimentalShift packed 16-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srli_epi32⚠ExperimentalShift packed 32-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srli_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srlv_epi32⚠ExperimentalShift packed 32-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_srlv_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_epi8⚠ExperimentalSubtract packed 8-bit integers in b from packed 8-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_epi16⚠ExperimentalSubtract packed 16-bit integers in b from packed 16-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_epi32⚠ExperimentalSubtract packed 32-bit integers in b from packed 32-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_epi64⚠ExperimentalSubtract packed 64-bit integers in b from packed 64-bit integers in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_pd⚠ExperimentalSubtract packed double-precision (64-bit) floating-point elements in b from packed double-precision (64-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_ps⚠ExperimentalSubtract packed single-precision (32-bit) floating-point elements in b from packed single-precision (32-bit) floating-point elements in a, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_sub_round_sd⚠ExperimentalSubtract the lower double-precision (64-bit) floating-point element in b from the lower double-precision (64-bit) floating-point element in a, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_sub_round_ss⚠ExperimentalSubtract the lower single-precision (32-bit) floating-point element in b from the lower single-precision (32-bit) floating-point element in a, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_sub_sd⚠ExperimentalSubtract the lower double-precision (64-bit) floating-point element in b from the lower double-precision (64-bit) floating-point element in a, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper element from a to the upper element of dst.
- _mm_maskz_sub_ss⚠ExperimentalSubtract the lower single-precision (32-bit) floating-point element in b from the lower single-precision (32-bit) floating-point element in a, store the result in the lower element of dst using zeromask k (the element is zeroed out when mask bit 0 is not set), and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_maskz_subs_epi8⚠ExperimentalSubtract packed signed 8-bit integers in b from packed 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_subs_epi16⚠ExperimentalSubtract packed signed 16-bit integers in b from packed 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_subs_epu8⚠ExperimentalSubtract packed unsigned 8-bit integers in b from packed unsigned 8-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_subs_epu16⚠ExperimentalSubtract packed unsigned 16-bit integers in b from packed unsigned 16-bit integers in a using saturation, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 32-bit granularity (32-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst using zeromask k at 64-bit granularity (64-bit elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpackhi_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_epi8⚠ExperimentalUnpack and interleave 8-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_epi16⚠ExperimentalUnpack and interleave 16-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_epi32⚠ExperimentalUnpack and interleave 32-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_epi64⚠ExperimentalUnpack and interleave 64-bit integers from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_pd⚠ExperimentalUnpack and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_unpacklo_ps⚠ExperimentalUnpack and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_maskz_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst using zeromask k (elements are zeroed out when the corresponding mask bit is not set).
- _mm_max_epi64⚠ExperimentalCompare packed signed 64-bit integers in a and b, and store packed maximum values in dst.
- _mm_max_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed maximum values in dst.
- _mm_max_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the maximum value in the lower element of dst, and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_max_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the maximum value in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_min_epu64⚠ExperimentalCompare packed unsigned 64-bit integers in a and b, and store packed minimum values in dst.
- _mm_min_round_sd⚠ExperimentalCompare the lower double-precision (64-bit) floating-point elements in a and b, store the minimum value in the lower element of dst , and copy the upper element from a to the upper element of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_min_round_ss⚠ExperimentalCompare the lower single-precision (32-bit) floating-point elements in a and b, store the minimum value in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Exceptions can be suppressed by passing _MM_FROUND_NO_EXC in the sae parameter. - _mm_movepi8_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 8-bit integer in a.
- _mm_movepi16_mask⚠ExperimentalSet each bit of mask register k based on the most significant bit of the corresponding packed 16-bit integer in a.
- _mm_movm_epi8⚠ExperimentalSet each packed 8-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm_movm_epi16⚠ExperimentalSet each packed 16-bit integer in dst to all ones or all zeros based on the value of the corresponding bit in k.
- _mm_mul_round_sd⚠ExperimentalMultiply the lower double-precision (64-bit) floating-point element in a and b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_mul_round_ss⚠ExperimentalMultiply the lower single-precision (32-bit) floating-point element in a and b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_multishift_epi64_epi8⚠ExperimentalFor each 64-bit element in b, select 8 unaligned bytes using a byte-granular shift control within the corresponding 64-bit element of a, and store the 8 assembled bytes to the corresponding 64-bit element of dst.
- _mm_or_epi32⚠ExperimentalCompute the bitwise OR of packed 32-bit integers in a and b, and store the results in dst.
- _mm_or_epi64⚠ExperimentalCompute the bitwise OR of packed 64-bit integers in a and b, and store the resut in dst.
- _mm_permutex2var_epi8⚠ExperimentalShuffle 8-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutex2var_epi16⚠ExperimentalShuffle 16-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutex2var_epi32⚠ExperimentalShuffle 32-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutex2var_epi64⚠ExperimentalShuffle 64-bit integers in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutex2var_pd⚠ExperimentalShuffle double-precision (64-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutex2var_ps⚠ExperimentalShuffle single-precision (32-bit) floating-point elements in a and b across lanes using the corresponding selector and index in idx, and store the results in dst.
- _mm_permutexvar_epi8⚠ExperimentalShuffle 8-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm_permutexvar_epi16⚠ExperimentalShuffle 16-bit integers in a across lanes using the corresponding index in idx, and store the results in dst.
- _mm_popcnt_epi8⚠ExperimentalFor each packed 8-bit integer maps the value to the number of logical 1 bits.
- _mm_popcnt_epi16⚠ExperimentalFor each packed 16-bit integer maps the value to the number of logical 1 bits.
- _mm_popcnt_epi32⚠ExperimentalFor each packed 32-bit integer maps the value to the number of logical 1 bits.
- _mm_popcnt_epi64⚠ExperimentalFor each packed 64-bit integer maps the value to the number of logical 1 bits.
- _mm_rcp14_pd⚠ExperimentalCompute the approximate reciprocal of packed double-precision (64-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_rcp14_ps⚠ExperimentalCompute the approximate reciprocal of packed single-precision (32-bit) floating-point elements in a, and store the results in dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_rcp14_sd⚠ExperimentalCompute the approximate reciprocal of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_rcp14_ss⚠ExperimentalCompute the approximate reciprocal of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_rol_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm_rol_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in imm8, and store the results in dst.
- _mm_rolv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm_rolv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the left by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm_ror_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm_ror_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in imm8, and store the results in dst.
- _mm_rorv_epi32⚠ExperimentalRotate the bits in each packed 32-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm_rorv_epi64⚠ExperimentalRotate the bits in each packed 64-bit integer in a to the right by the number of bits specified in the corresponding element of b, and store the results in dst.
- _mm_roundscale_pd⚠ExperimentalRound packed double-precision (64-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_roundscale_ps⚠ExperimentalRound packed single-precision (32-bit) floating-point elements in a to the number of fraction bits specified by imm8, and store the results in dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_roundscale_round_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_roundscale_round_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_roundscale_sd⚠ExperimentalRound the lower double-precision (64-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_roundscale_ss⚠ExperimentalRound the lower single-precision (32-bit) floating-point element in b to the number of fraction bits specified by imm8, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
Rounding is done according to the imm8[2:0] parameter, which can be one of:
_MM_FROUND_TO_NEAREST_INT // round to nearest
_MM_FROUND_TO_NEG_INF // round down
_MM_FROUND_TO_POS_INF // round up
_MM_FROUND_TO_ZERO // truncate
_MM_FROUND_CUR_DIRECTION // use MXCSR.RC; see _MM_SET_ROUNDING_MODE - _mm_rsqrt14_sd⚠ExperimentalCompute the approximate reciprocal square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_rsqrt14_ss⚠ExperimentalCompute the approximate reciprocal square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst. The maximum relative error for this approximation is less than 2^-14.
- _mm_scalef_pd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm_scalef_ps⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, and store the results in dst.
- _mm_scalef_round_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_scalef_round_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_scalef_sd⚠ExperimentalScale the packed double-precision (64-bit) floating-point elements in a using values from b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_scalef_ss⚠ExperimentalScale the packed single-precision (32-bit) floating-point elements in a using values from b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_shldi_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by imm8 bits, and store the upper 16-bits in dst).
- _mm_shldi_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by imm8 bits, and store the upper 32-bits in dst.
- _mm_shldi_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by imm8 bits, and store the upper 64-bits in dst).
- _mm_shldv_epi16⚠ExperimentalConcatenate packed 16-bit integers in a and b producing an intermediate 32-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 16-bits in dst.
- _mm_shldv_epi32⚠ExperimentalConcatenate packed 32-bit integers in a and b producing an intermediate 64-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 32-bits in dst.
- _mm_shldv_epi64⚠ExperimentalConcatenate packed 64-bit integers in a and b producing an intermediate 128-bit result. Shift the result left by the amount specified in the corresponding element of c, and store the upper 64-bits in dst.
- _mm_shrdi_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by imm8 bits, and store the lower 16-bits in dst.
- _mm_shrdi_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by imm8 bits, and store the lower 32-bits in dst.
- _mm_shrdi_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by imm8 bits, and store the lower 64-bits in dst.
- _mm_shrdv_epi16⚠ExperimentalConcatenate packed 16-bit integers in b and a producing an intermediate 32-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 16-bits in dst.
- _mm_shrdv_epi32⚠ExperimentalConcatenate packed 32-bit integers in b and a producing an intermediate 64-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 32-bits in dst.
- _mm_shrdv_epi64⚠ExperimentalConcatenate packed 64-bit integers in b and a producing an intermediate 128-bit result. Shift the result right by the amount specified in the corresponding element of c, and store the lower 64-bits in dst.
- _mm_sllv_epi16⚠ExperimentalShift packed 16-bit integers in a left by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm_sqrt_round_sd⚠ExperimentalCompute the square root of the lower double-precision (64-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_sqrt_round_ss⚠ExperimentalCompute the square root of the lower single-precision (32-bit) floating-point element in b, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_sra_epi64⚠ExperimentalShift packed 64-bit integers in a right by count while shifting in sign bits, and store the results in dst.
- _mm_srai_epi64⚠ExperimentalShift packed 64-bit integers in a right by imm8 while shifting in sign bits, and store the results in dst.
- _mm_srav_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm_srav_epi64⚠ExperimentalShift packed 64-bit integers in a right by the amount specified by the corresponding element in count while shifting in sign bits, and store the results in dst.
- _mm_srlv_epi16⚠ExperimentalShift packed 16-bit integers in a right by the amount specified by the corresponding element in count while shifting in zeros, and store the results in dst.
- _mm_store_epi32⚠ExperimentalStore 128-bits (composed of 4 packed 32-bit integers) from a into memory. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_store_epi64⚠ExperimentalStore 128-bits (composed of 2 packed 64-bit integers) from a into memory. mem_addr must be aligned on a 16-byte boundary or a general-protection exception may be generated.
- _mm_storeu_epi8⚠ExperimentalStore 128-bits (composed of 16 packed 8-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm_storeu_epi16⚠ExperimentalStore 128-bits (composed of 8 packed 16-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm_storeu_epi32⚠ExperimentalStore 128-bits (composed of 4 packed 32-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm_storeu_epi64⚠ExperimentalStore 128-bits (composed of 2 packed 64-bit integers) from a into memory. mem_addr does not need to be aligned on any particular boundary.
- _mm_sub_round_sd⚠ExperimentalSubtract the lower double-precision (64-bit) floating-point element in b from the lower double-precision (64-bit) floating-point element in a, store the result in the lower element of dst, and copy the upper element from a to the upper element of dst.
- _mm_sub_round_ss⚠ExperimentalSubtract the lower single-precision (32-bit) floating-point element in b from the lower single-precision (32-bit) floating-point element in a, store the result in the lower element of dst, and copy the upper 3 packed elements from a to the upper elements of dst.
- _mm_ternarylogic_epi32⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 32-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm_ternarylogic_epi64⚠ExperimentalBitwise ternary logic that provides the capability to implement any three-operand binary function; the specific binary function is specified by value in imm8. For each bit in each packed 64-bit integer, the corresponding bit from a, b, and c are used to form a 3 bit index into imm8, and the value at that bit in imm8 is written to the corresponding bit in dst.
- _mm_test_epi8_mask⚠ExperimentalCompute the bitwise AND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm_test_epi16_mask⚠ExperimentalCompute the bitwise AND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm_test_epi32_mask⚠ExperimentalCompute the bitwise AND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm_test_epi64_mask⚠ExperimentalCompute the bitwise AND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is non-zero.
- _mm_testn_epi8_mask⚠ExperimentalCompute the bitwise NAND of packed 8-bit integers in a and b, producing intermediate 8-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm_testn_epi16_mask⚠ExperimentalCompute the bitwise NAND of packed 16-bit integers in a and b, producing intermediate 16-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm_testn_epi32_mask⚠ExperimentalCompute the bitwise NAND of packed 32-bit integers in a and b, producing intermediate 32-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm_testn_epi64_mask⚠ExperimentalCompute the bitwise NAND of packed 64-bit integers in a and b, producing intermediate 64-bit values, and set the corresponding bit in result mask k if the intermediate value is zero.
- _mm_xor_epi32⚠ExperimentalCompute the bitwise XOR of packed 32-bit integers in a and b, and store the results in dst.
- _mm_xor_epi64⚠ExperimentalCompute the bitwise XOR of packed 64-bit integers in a and b, and store the results in dst.
- _store_mask32⚠ExperimentalStore 32-bit mask from a into memory.
- _store_mask64⚠ExperimentalStore 64-bit mask from a into memory.
- _xabort⚠ExperimentalForces a restricted transactional memory (RTM) region to abort.
- _xabort_codeExperimental
- _xbegin⚠ExperimentalSpecifies the start of a restricted transactional memory (RTM) code region and returns a value indicating status.
- _xend⚠ExperimentalSpecifies the end of a restricted transactional memory (RTM) code region.
- _xtest⚠ExperimentalQueries whether the processor is executing in a transactional region identified by restricted transactional memory (RTM) or hardware lock elision (HLE).
- has_cpuidExperimentalDoes the host support the
cpuid
instruction? - ud2⚠ExperimentalGenerates the trap instruction
UD2
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- See
_mm_setcsr
- Transpose the 4x4 matrix formed by 4 rows of __m128 in place.
- See
__cpuid_count
. - Returns the result of the
cpuid
instruction for a givenleaf
(EAX
) andsub_leaf
(ECX
). - Returns the highest-supported
leaf
(EAX
) and sub-leaf (ECX
)cpuid
values. - Reads the current value of the processor’s time-stamp counter and the
IA32_TSC_AUX MSR
. - Adds unsigned 32-bit integers
a
andb
with unsigned 8-bit carry-inc_in
(carry flag), and store the unsigned 32-bit result inout
, and the carry-out is returned (carry or overflow flag). - Adds unsigned 32-bit integers
a
andb
with unsigned 8-bit carry-inc_in
(carry or overflow flag), and store the unsigned 32-bit result inout
, and the carry-out is returned (carry or overflow flag). - Bitwise logical
AND
of inverteda
withb
. - Extracts bits of
a
specified bycontrol
into the least significant bits of the result. - Extracts bits in range [
start
,start
+length
) froma
into the least significant bits of the result. - Returns the bit in position
b
of the memory addressed byp
. - Returns the bit in position
b
of the memory addressed byp
, then inverts that bit. - Returns the bit in position
b
of the memory addressed byp
, then resets that bit to0
. - Returns the bit in position
b
of the memory addressed byp
, then sets the bit to1
. - Clears all bits below the least significant zero bit of
x
. - Sets all bits of
x
to 1 except for the least significant zero bit. - Sets the least significant zero bit of
x
and clears all other bits. - Sets the least significant zero bit of
x
and clears all bits above that bit. - Sets the least significant zero bit of
x
. - Sets all bits of
x
below the least significant one. - Extracts lowest set isolated bit.
- Clears least significant bit and sets all other bits.
- Gets mask up to lowest set bit.
- Resets the lowest set bit of
x
. - Returns an integer with the reversed byte order of x
- Zeroes higher bits of
a
>=index
. - Restores the
XMM
,MMX
,MXCSR
, andx87
FPU registers from the 512-byte-long 16-byte-aligned memory regionmem_addr
. - Saves the
x87
FPU,MMX
technology,XMM
, andMXCSR
registers to the 512-byte-long 16-byte-aligned memory regionmem_addr
. - Counts the leading most significant zero bits.
- Computes the absolute values of packed 8-bit integers in
a
. - Computes the absolute values of packed 16-bit integers in
a
. - Computes the absolute values of packed 32-bit integers in
a
. - Adds packed 8-bit integers in
a
andb
. - Adds packed 16-bit integers in
a
andb
. - Adds packed 32-bit integers in
a
andb
. - Adds packed 64-bit integers in
a
andb
. - Adds packed double-precision (64-bit) floating-point elements in
a
andb
. - Adds packed single-precision (32-bit) floating-point elements in
a
andb
. - Adds packed 8-bit integers in
a
andb
using saturation. - Adds packed 16-bit integers in
a
andb
using saturation. - Adds packed unsigned 8-bit integers in
a
andb
using saturation. - Adds packed unsigned 16-bit integers in
a
andb
using saturation. - Alternatively adds and subtracts packed double-precision (64-bit) floating-point elements in
a
to/from packed elements inb
. - Alternatively adds and subtracts packed single-precision (32-bit) floating-point elements in
a
to/from packed elements inb
. - Concatenates pairs of 16-byte blocks in
a
andb
into a 32-byte temporary result, shifts the result right byn
bytes, and returns the low 16 bytes. - Computes the bitwise AND of a packed double-precision (64-bit) floating-point elements in
a
andb
. - Computes the bitwise AND of packed single-precision (32-bit) floating-point elements in
a
andb
. - Computes the bitwise AND of 256 bits (representing integer data) in
a
andb
. - Computes the bitwise NOT of packed double-precision (64-bit) floating-point elements in
a
, and then AND withb
. - Computes the bitwise NOT of packed single-precision (32-bit) floating-point elements in
a
and then AND withb
. - Computes the bitwise NOT of 256 bits (representing integer data) in
a
and then AND withb
. - Averages packed unsigned 8-bit integers in
a
andb
. - Averages packed unsigned 16-bit integers in
a
andb
. - Blends packed 16-bit integers from
a
andb
using control maskIMM8
. - Blends packed 32-bit integers from
a
andb
using control maskIMM8
. - Blends packed double-precision (64-bit) floating-point elements from
a
andb
using control maskimm8
. - Blends packed single-precision (32-bit) floating-point elements from
a
andb
using control maskimm8
. - Blends packed 8-bit integers from
a
andb
usingmask
. - Blends packed double-precision (64-bit) floating-point elements from
a
andb
usingc
as a mask. - Blends packed single-precision (32-bit) floating-point elements from
a
andb
usingc
as a mask. - Broadcasts 128 bits from memory (composed of 2 packed double-precision (64-bit) floating-point elements) to all elements of the returned vector.
- Broadcasts 128 bits from memory (composed of 4 packed single-precision (32-bit) floating-point elements) to all elements of the returned vector.
- Broadcasts a double-precision (64-bit) floating-point element from memory to all elements of the returned vector.
- Broadcasts a single-precision (32-bit) floating-point element from memory to all elements of the returned vector.
- Broadcasts the low packed 8-bit integer from
a
to all elements of the 256-bit returned value. - Broadcasts the low packed 32-bit integer from
a
to all elements of the 256-bit returned value. - Broadcasts the low packed 64-bit integer from
a
to all elements of the 256-bit returned value. - Broadcasts the low double-precision (64-bit) floating-point element from
a
to all elements of the 256-bit returned value. - Broadcasts 128 bits of integer data from a to all 128-bit lanes in the 256-bit returned value.
- Broadcasts the low single-precision (32-bit) floating-point element from
a
to all elements of the 256-bit returned value. - Broadcasts the low packed 16-bit integer from a to all elements of the 256-bit returned value
- Shifts 128-bit lanes in
a
left byimm8
bytes while shifting in zeros. - Shifts 128-bit lanes in
a
right byimm8
bytes while shifting in zeros. - Casts vector of type __m128d to type __m256d; the upper 128 bits of the result are undefined.
- Casts vector of type __m256d to type __m128d.
- Cast vector of type __m256d to type __m256.
- Casts vector of type __m256d to type __m256i.
- Casts vector of type __m128 to type __m256; the upper 128 bits of the result are undefined.
- Casts vector of type __m256 to type __m128.
- Cast vector of type __m256 to type __m256d.
- Casts vector of type __m256 to type __m256i.
- Casts vector of type __m128i to type __m256i; the upper 128 bits of the result are undefined.
- Casts vector of type __m256i to type __m256d.
- Casts vector of type __m256i to type __m256.
- Casts vector of type __m256i to type __m128i.
- Rounds packed double-precision (64-bit) floating point elements in
a
toward positive infinity. - Rounds packed single-precision (32-bit) floating point elements in
a
toward positive infinity. - Compares packed double-precision (64-bit) floating-point elements in
a
andb
based on the comparison operand specified byIMM5
. - Compares packed single-precision (32-bit) floating-point elements in
a
andb
based on the comparison operand specified byIMM5
. - Compares packed 8-bit integers in
a
andb
for equality. - Compares packed 16-bit integers in
a
andb
for equality. - Compares packed 32-bit integers in
a
andb
for equality. - Compares packed 64-bit integers in
a
andb
for equality. - Compares packed 8-bit integers in
a
andb
for greater-than. - Compares packed 16-bit integers in
a
andb
for greater-than. - Compares packed 32-bit integers in
a
andb
for greater-than. - Compares packed 64-bit integers in
a
andb
for greater-than. - Sign-extend 8-bit integers to 16-bit integers.
- Sign-extend 8-bit integers to 32-bit integers.
- Sign-extend 8-bit integers to 64-bit integers.
- Sign-extend 16-bit integers to 32-bit integers.
- Sign-extend 16-bit integers to 64-bit integers.
- Sign-extend 32-bit integers to 64-bit integers.
- Converts packed 32-bit integers in
a
to packed double-precision (64-bit) floating-point elements. - Converts packed 32-bit integers in
a
to packed single-precision (32-bit) floating-point elements. - Zero-extend unsigned 8-bit integers in
a
to 16-bit integers. - Zero-extend the lower eight unsigned 8-bit integers in
a
to 32-bit integers. The upper eight elements ofa
are unused. - Zero-extend the lower four unsigned 8-bit integers in
a
to 64-bit integers. The upper twelve elements ofa
are unused. - Zeroes extend packed unsigned 16-bit integers in
a
to packed 32-bit integers, and stores the results indst
. - Zero-extend the lower four unsigned 16-bit integers in
a
to 64-bit integers. The upper four elements ofa
are unused. - Zero-extend unsigned 32-bit integers in
a
to 64-bit integers. - Converts packed double-precision (64-bit) floating-point elements in
a
to packed 32-bit integers. - Converts packed double-precision (64-bit) floating-point elements in
a
to packed single-precision (32-bit) floating-point elements. - Converts the 8 x 16-bit half-precision float values in the 128-bit vector
a
into 8 x 32-bit float values stored in a 256-bit wide vector. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed 32-bit integers. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed double-precision (64-bit) floating-point elements. - Converts the 8 x 32-bit float values in the 256-bit vector
a
into 8 x 16-bit half-precision float values stored in a 128-bit wide vector. - Returns the first element of the input vector of
[4 x double]
. - Returns the first element of the input vector of
[8 x i32]
. - Returns the first element of the input vector of
[8 x float]
. - Converts packed double-precision (64-bit) floating-point elements in
a
to packed 32-bit integers with truncation. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed 32-bit integers with truncation. - Computes the division of each of the 4 packed 64-bit floating-point elements in
a
by the corresponding packed elements inb
. - Computes the division of each of the 8 packed 32-bit floating-point elements in
a
by the corresponding packed elements inb
. - Conditionally multiplies the packed single-precision (32-bit) floating-point elements in
a
andb
using the high 4 bits inimm8
, sum the four products, and conditionally return the sum using the low 4 bits ofimm8
. - Extracts an 8-bit integer from
a
, selected withINDEX
. Returns a 32-bit integer containing the zero-extended integer data. - Extracts a 16-bit integer from
a
, selected withINDEX
. Returns a 32-bit integer containing the zero-extended integer data. - Extracts a 32-bit integer from
a
, selected withINDEX
. - Extracts 128 bits (composed of 2 packed double-precision (64-bit) floating-point elements) from
a
, selected withimm8
. - Extracts 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) from
a
, selected withimm8
. - Extracts 128 bits (composed of integer data) from
a
, selected withimm8
. - Extracts 128 bits (of integer data) from
a
selected withIMM1
. - Rounds packed double-precision (64-bit) floating point elements in
a
toward negative infinity. - Rounds packed single-precision (32-bit) floating point elements in
a
toward negative infinity. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and add the intermediate result to packed elements inc
. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and add the intermediate result to packed elements inc
. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and alternatively add and subtract packed elements inc
to/from the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and alternatively add and subtract packed elements inc
to/from the intermediate result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the intermediate result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and alternatively subtract and add packed elements inc
from/to the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and alternatively subtract and add packed elements inc
from/to the intermediate result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and add the negated intermediate result to packed elements inc
. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and add the negated intermediate result to packed elements inc
. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. - Horizontally adds adjacent pairs of 16-bit integers in
a
andb
. - Horizontally adds adjacent pairs of 32-bit integers in
a
andb
. - Horizontal addition of adjacent pairs in the two packed vectors of 4 64-bit floating points
a
andb
. In the result, sums of elements froma
are returned in even locations, while sums of elements fromb
are returned in odd locations. - Horizontal addition of adjacent pairs in the two packed vectors of 8 32-bit floating points
a
andb
. In the result, sums of elements froma
are returned in locations of indices 0, 1, 4, 5; while sums of elements fromb
are locations 2, 3, 6, 7. - Horizontally adds adjacent pairs of 16-bit integers in
a
andb
using saturation. - Horizontally subtract adjacent pairs of 16-bit integers in
a
andb
. - Horizontally subtract adjacent pairs of 32-bit integers in
a
andb
. - Horizontal subtraction of adjacent pairs in the two packed vectors of 4 64-bit floating points
a
andb
. In the result, sums of elements froma
are returned in even locations, while sums of elements fromb
are returned in odd locations. - Horizontal subtraction of adjacent pairs in the two packed vectors of 8 32-bit floating points
a
andb
. In the result, sums of elements froma
are returned in locations of indices 0, 1, 4, 5; while sums of elements fromb
are locations 2, 3, 6, 7. - Horizontally subtract adjacent pairs of 16-bit integers in
a
andb
using saturation. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Copies
a
to result, and inserts the 8-bit integeri
into result at the location specified byindex
. - Copies
a
to result, and inserts the 16-bit integeri
into result at the location specified byindex
. - Copies
a
to result, and inserts the 32-bit integeri
into result at the location specified byindex
. - Copies
a
to result, then inserts 128 bits (composed of 2 packed double-precision (64-bit) floating-point elements) fromb
into result at the location specified byimm8
. - Copies
a
to result, then inserts 128 bits (composed of 4 packed single-precision (32-bit) floating-point elements) fromb
into result at the location specified byimm8
. - Copies
a
to result, then inserts 128 bits fromb
into result at the location specified byimm8
. - Copies
a
todst
, then insert 128 bits (of integer data) fromb
at the location specified byIMM1
. - Loads 256-bits of integer data from unaligned memory into result. This intrinsic may perform better than
_mm256_loadu_si256
when the data crosses a cache line boundary. - Loads 256-bits (composed of 4 packed double-precision (64-bit) floating-point elements) from memory into result.
mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Loads 256-bits (composed of 8 packed single-precision (32-bit) floating-point elements) from memory into result.
mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Loads 256-bits of integer data from memory into result.
mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Loads two 128-bit values (composed of 4 packed single-precision (32-bit) floating-point elements) from memory, and combine them into a 256-bit value.
hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Loads two 128-bit values (composed of 2 packed double-precision (64-bit) floating-point elements) from memory, and combine them into a 256-bit value.
hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Loads two 128-bit values (composed of integer data) from memory, and combine them into a 256-bit value.
hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Loads 256-bits (composed of 4 packed double-precision (64-bit) floating-point elements) from memory into result.
mem_addr
does not need to be aligned on any particular boundary. - Loads 256-bits (composed of 8 packed single-precision (32-bit) floating-point elements) from memory into result.
mem_addr
does not need to be aligned on any particular boundary. - Loads 256-bits of integer data from memory into result.
mem_addr
does not need to be aligned on any particular boundary. - Multiplies packed signed 16-bit integers in
a
andb
, producing intermediate signed 32-bit integers. Horizontally add adjacent pairs of intermediate 32-bit integers. - Vertically multiplies each unsigned 8-bit integer from
a
with the corresponding signed 8-bit integer fromb
, producing intermediate signed 16-bit integers. Horizontally add adjacent pairs of intermediate signed 16-bit integers - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Loads packed 32-bit integers from memory pointed by
mem_addr
usingmask
(elements are zeroed out when the highest bit is not set in the corresponding element). - Loads packed 64-bit integers from memory pointed by
mem_addr
usingmask
(elements are zeroed out when the highest bit is not set in the corresponding element). - Loads packed double-precision (64-bit) floating-point elements from memory into result using
mask
(elements are zeroed out when the high bit of the corresponding element is not set). - Loads packed single-precision (32-bit) floating-point elements from memory into result using
mask
(elements are zeroed out when the high bit of the corresponding element is not set). - Stores packed 32-bit integers from
a
into memory pointed bymem_addr
usingmask
(elements are not stored when the highest bit is not set in the corresponding element). - Stores packed 64-bit integers from
a
into memory pointed bymem_addr
usingmask
(elements are not stored when the highest bit is not set in the corresponding element). - Stores packed double-precision (64-bit) floating-point elements from
a
into memory usingmask
. - Stores packed single-precision (32-bit) floating-point elements from
a
into memory usingmask
. - Compares packed 8-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed 16-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed 32-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed unsigned 8-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed unsigned 16-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed unsigned 32-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed double-precision (64-bit) floating-point elements in
a
andb
, and returns packed maximum values - Compares packed single-precision (32-bit) floating-point elements in
a
andb
, and returns packed maximum values - Compares packed 8-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed 16-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed 32-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed unsigned 8-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed unsigned 16-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed unsigned 32-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed double-precision (64-bit) floating-point elements in
a
andb
, and returns packed minimum values - Compares packed single-precision (32-bit) floating-point elements in
a
andb
, and returns packed minimum values - Duplicate even-indexed double-precision (64-bit) floating-point elements from
a
, and returns the results. - Duplicate odd-indexed single-precision (32-bit) floating-point elements from
a
, and returns the results. - Duplicate even-indexed single-precision (32-bit) floating-point elements from
a
, and returns the results. - Creates mask from the most significant bit of each 8-bit element in
a
, return the result. - Sets each bit of the returned mask based on the most significant bit of the corresponding packed double-precision (64-bit) floating-point element in
a
. - Sets each bit of the returned mask based on the most significant bit of the corresponding packed single-precision (32-bit) floating-point element in
a
. - Computes the sum of absolute differences (SADs) of quadruplets of unsigned 8-bit integers in
a
compared to those inb
, and stores the 16-bit results in dst. Eight SADs are performed for each 128-bit lane using one quadruplet fromb
and eight quadruplets froma
. One quadruplet is selected fromb
starting at on the offset specified inimm8
. Eight quadruplets are formed from sequential 8-bit integers selected froma
starting at the offset specified inimm8
. - Multiplies the low 32-bit integers from each packed 64-bit element in
a
andb
- Multiplies the low unsigned 32-bit integers from each packed 64-bit element in
a
andb
- Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
. - Multiplies the packed 16-bit integers in
a
andb
, producing intermediate 32-bit integers and returning the high 16 bits of the intermediate integers. - Multiplies the packed unsigned 16-bit integers in
a
andb
, producing intermediate 32-bit integers and returning the high 16 bits of the intermediate integers. - Multiplies packed 16-bit integers in
a
andb
, producing intermediate signed 32-bit integers. Truncate each intermediate integer to the 18 most significant bits, round by adding 1, and return bits[16:1]
. - Multiplies the packed 16-bit integers in
a
andb
, producing intermediate 32-bit integers, and returns the low 16 bits of the intermediate integers - Multiplies the packed 32-bit integers in
a
andb
, producing intermediate 64-bit integers, and returns the low 32 bits of the intermediate integers - Computes the bitwise OR packed double-precision (64-bit) floating-point elements in
a
andb
. - Computes the bitwise OR packed single-precision (32-bit) floating-point elements in
a
andb
. - Computes the bitwise OR of 256 bits (representing integer data) in
a
andb
- Converts packed 16-bit integers from
a
andb
to packed 8-bit integers using signed saturation - Converts packed 32-bit integers from
a
andb
to packed 16-bit integers using signed saturation - Converts packed 16-bit integers from
a
andb
to packed 8-bit integers using unsigned saturation - Converts packed 32-bit integers from
a
andb
to packed 16-bit integers using unsigned saturation - Shuffles 256 bits (composed of 4 packed double-precision (64-bit) floating-point elements) selected by
imm8
froma
andb
. - Shuffles 256 bits (composed of 8 packed single-precision (32-bit) floating-point elements) selected by
imm8
froma
andb
. - Shuffles 128-bits (composed of integer data) selected by
imm8
froma
andb
. - Shuffles 128-bits of integer data selected by
imm8
froma
andb
. - Permutes 64-bit integers from
a
using control maskimm8
. - Shuffles 64-bit floating-point elements in
a
across lanes using the control inimm8
. - Shuffles double-precision (64-bit) floating-point elements in
a
within 128-bit lanes using the control inimm8
. - Shuffles single-precision (32-bit) floating-point elements in
a
within 128-bit lanes using the control inimm8
. - Permutes packed 32-bit integers from
a
according to the content ofb
. - Shuffles eight 32-bit floating-point elements in
a
across lanes using the corresponding 32-bit integer index inidx
. - Shuffles double-precision (64-bit) floating-point elements in
a
within 256-bit lanes using the control inb
. - Shuffles single-precision (32-bit) floating-point elements in
a
within 128-bit lanes using the control inb
. - Computes the approximate reciprocal of packed single-precision (32-bit) floating-point elements in
a
, and returns the results. The maximum relative error for this approximation is less than 1.5*2^-12. - Rounds packed double-precision (64-bit) floating point elements in
a
according to the flagROUNDING
. The value ofROUNDING
may be as follows: - Rounds packed single-precision (32-bit) floating point elements in
a
according to the flagROUNDING
. The value ofROUNDING
may be as follows: - Computes the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in
a
, and returns the results. The maximum relative error for this approximation is less than 1.5*2^-12. - Computes the absolute differences of packed unsigned 8-bit integers in
a
andb
, then horizontally sum each consecutive 8 differences to produce four unsigned 16-bit integers, and pack these unsigned 16-bit integers in the low 16 bits of the 64-bit return value - Broadcasts 8-bit integer
a
to all elements of returned vector. This intrinsic may generate thevpbroadcastb
. - Broadcasts 16-bit integer
a
to all elements of returned vector. This intrinsic may generate thevpbroadcastw
. - Broadcasts 32-bit integer
a
to all elements of returned vector. This intrinsic may generate thevpbroadcastd
. - Broadcasts 64-bit integer
a
to all elements of returned vector. This intrinsic may generate thevpbroadcastq
. - Broadcasts double-precision (64-bit) floating-point value
a
to all elements of returned vector. - Broadcasts single-precision (32-bit) floating-point value
a
to all elements of returned vector. - Sets packed 8-bit integers in returned vector with the supplied values.
- Sets packed 16-bit integers in returned vector with the supplied values.
- Sets packed 32-bit integers in returned vector with the supplied values.
- Sets packed 64-bit integers in returned vector with the supplied values.
- Sets packed __m256 returned vector with the supplied values.
- Sets packed __m256d returned vector with the supplied values.
- Sets packed __m256i returned vector with the supplied values.
- Sets packed double-precision (64-bit) floating-point elements in returned vector with the supplied values.
- Sets packed single-precision (32-bit) floating-point elements in returned vector with the supplied values.
- Sets packed 8-bit integers in returned vector with the supplied values in reverse order.
- Sets packed 16-bit integers in returned vector with the supplied values in reverse order.
- Sets packed 32-bit integers in returned vector with the supplied values in reverse order.
- Sets packed 64-bit integers in returned vector with the supplied values in reverse order.
- Sets packed __m256 returned vector with the supplied values.
- Sets packed __m256d returned vector with the supplied values.
- Sets packed __m256i returned vector with the supplied values.
- Sets packed double-precision (64-bit) floating-point elements in returned vector with the supplied values in reverse order.
- Sets packed single-precision (32-bit) floating-point elements in returned vector with the supplied values in reverse order.
- Returns vector of type __m256d with all elements set to zero.
- Returns vector of type __m256 with all elements set to zero.
- Returns vector of type __m256i with all elements set to zero.
- Shuffles bytes from
a
according to the content ofb
. - Shuffles 32-bit integers in 128-bit lanes of
a
using the control inimm8
. - Shuffles double-precision (64-bit) floating-point elements within 128-bit lanes using the control in
imm8
. - Shuffles single-precision (32-bit) floating-point elements in
a
within 128-bit lanes using the control inimm8
. - Shuffles 16-bit integers in the high 64 bits of 128-bit lanes of
a
using the control inimm8
. The low 64 bits of 128-bit lanes ofa
are copied to the output. - Shuffles 16-bit integers in the low 64 bits of 128-bit lanes of
a
using the control inimm8
. The high 64 bits of 128-bit lanes ofa
are copied to the output. - Negates packed 8-bit integers in
a
when the corresponding signed 8-bit integer inb
is negative, and returns the results. Results are zeroed out when the corresponding element inb
is zero. - Negates packed 16-bit integers in
a
when the corresponding signed 16-bit integer inb
is negative, and returns the results. Results are zeroed out when the corresponding element inb
is zero. - Negates packed 32-bit integers in
a
when the corresponding signed 32-bit integer inb
is negative, and returns the results. Results are zeroed out when the corresponding element inb
is zero. - Shifts packed 16-bit integers in
a
left bycount
while shifting in zeros, and returns the result - Shifts packed 32-bit integers in
a
left bycount
while shifting in zeros, and returns the result - Shifts packed 64-bit integers in
a
left bycount
while shifting in zeros, and returns the result - Shifts packed 16-bit integers in
a
left byIMM8
while shifting in zeros, return the results; - Shifts packed 32-bit integers in
a
left byIMM8
while shifting in zeros, return the results; - Shifts packed 64-bit integers in
a
left byIMM8
while shifting in zeros, return the results; - Shifts 128-bit lanes in
a
left byimm8
bytes while shifting in zeros. - Shifts packed 32-bit integers in
a
left by the amount specified by the corresponding element incount
while shifting in zeros, and returns the result. - Shifts packed 64-bit integers in
a
left by the amount specified by the corresponding element incount
while shifting in zeros, and returns the result. - Returns the square root of packed double-precision (64-bit) floating point elements in
a
. - Returns the square root of packed single-precision (32-bit) floating point elements in
a
. - Shifts packed 16-bit integers in
a
right bycount
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right bycount
while shifting in sign bits. - Shifts packed 16-bit integers in
a
right byIMM8
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right byIMM8
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in sign bits. - Shifts packed 16-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 32-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 64-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 16-bit integers in
a
right byIMM8
while shifting in zeros - Shifts packed 32-bit integers in
a
right byIMM8
while shifting in zeros - Shifts packed 64-bit integers in
a
right byIMM8
while shifting in zeros - Shifts 128-bit lanes in
a
right byimm8
bytes while shifting in zeros. - Shifts packed 32-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in zeros, - Shifts packed 64-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in zeros, - Stores 256-bits (composed of 4 packed double-precision (64-bit) floating-point elements) from
a
into memory.mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Stores 256-bits (composed of 8 packed single-precision (32-bit) floating-point elements) from
a
into memory.mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Stores 256-bits of integer data from
a
into memory.mem_addr
must be aligned on a 32-byte boundary or a general-protection exception may be generated. - Stores the high and low 128-bit halves (each composed of 4 packed single-precision (32-bit) floating-point elements) from
a
into memory two different 128-bit locations.hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Stores the high and low 128-bit halves (each composed of 2 packed double-precision (64-bit) floating-point elements) from
a
into memory two different 128-bit locations.hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Stores the high and low 128-bit halves (each composed of integer data) from
a
into memory two different 128-bit locations.hiaddr
andloaddr
do not need to be aligned on any particular boundary. - Stores 256-bits (composed of 4 packed double-precision (64-bit) floating-point elements) from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - Stores 256-bits (composed of 8 packed single-precision (32-bit) floating-point elements) from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - Stores 256-bits of integer data from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - Moves double-precision values from a 256-bit vector of
[4 x double]
to a 32-byte aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon). - Moves single-precision floating point values from a 256-bit vector of
[8 x float]
to a 32-byte aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon). - Moves integer data from a 256-bit integer vector to a 32-byte aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon)
- Subtract packed 8-bit integers in
b
from packed 8-bit integers ina
- Subtract packed 16-bit integers in
b
from packed 16-bit integers ina
- Subtract packed 32-bit integers in
b
from packed 32-bit integers ina
- Subtract packed 64-bit integers in
b
from packed 64-bit integers ina
- Subtracts packed double-precision (64-bit) floating-point elements in
b
from packed elements ina
. - Subtracts packed single-precision (32-bit) floating-point elements in
b
from packed elements ina
. - Subtract packed 8-bit integers in
b
from packed 8-bit integers ina
using saturation. - Subtract packed 16-bit integers in
b
from packed 16-bit integers ina
using saturation. - Subtract packed unsigned 8-bit integers in
b
from packed 8-bit integers ina
using saturation. - Subtract packed unsigned 16-bit integers in
b
from packed 16-bit integers ina
using saturation. - Computes the bitwise AND of 256 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theCF
value. - Computes the bitwise AND of 256 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theCF
value. - Computes the bitwise AND of 256 bits (representing integer data) in
a
andb
, and setZF
to 1 if the result is zero, otherwise setZF
to 0. Computes the bitwise NOT ofa
and then AND withb
, and setCF
to 1 if the result is zero, otherwise setCF
to 0. Return theCF
value. - Computes the bitwise AND of 256 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return 1 if both theZF
andCF
values are zero, otherwise return 0. - Computes the bitwise AND of 256 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return 1 if both theZF
andCF
values are zero, otherwise return 0. - Computes the bitwise AND of 256 bits (representing integer data) in
a
andb
, and setZF
to 1 if the result is zero, otherwise setZF
to 0. Computes the bitwise NOT ofa
and then AND withb
, and setCF
to 1 if the result is zero, otherwise setCF
to 0. Return 1 if both theZF
andCF
values are zero, otherwise return 0. - Computes the bitwise AND of 256 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theZF
value. - Computes the bitwise AND of 256 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 256-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theZF
value. - Computes the bitwise AND of 256 bits (representing integer data) in
a
andb
, and setZF
to 1 if the result is zero, otherwise setZF
to 0. Computes the bitwise NOT ofa
and then AND withb
, and setCF
to 1 if the result is zero, otherwise setCF
to 0. Return theZF
value. - Returns vector of type
__m256d
with undefined elements. - Returns vector of type
__m256
with undefined elements. - Returns vector of type __m256i with undefined elements.
- Unpacks and interleave 8-bit integers from the high half of each 128-bit lane in
a
andb
. - Unpacks and interleave 16-bit integers from the high half of each 128-bit lane of
a
andb
. - Unpacks and interleave 32-bit integers from the high half of each 128-bit lane of
a
andb
. - Unpacks and interleave 64-bit integers from the high half of each 128-bit lane of
a
andb
. - Unpacks and interleave double-precision (64-bit) floating-point elements from the high half of each 128-bit lane in
a
andb
. - Unpacks and interleave single-precision (32-bit) floating-point elements from the high half of each 128-bit lane in
a
andb
. - Unpacks and interleave 8-bit integers from the low half of each 128-bit lane of
a
andb
. - Unpacks and interleave 16-bit integers from the low half of each 128-bit lane of
a
andb
. - Unpacks and interleave 32-bit integers from the low half of each 128-bit lane of
a
andb
. - Unpacks and interleave 64-bit integers from the low half of each 128-bit lane of
a
andb
. - Unpacks and interleave double-precision (64-bit) floating-point elements from the low half of each 128-bit lane in
a
andb
. - Unpacks and interleave single-precision (32-bit) floating-point elements from the low half of each 128-bit lane in
a
andb
. - Computes the bitwise XOR of packed double-precision (64-bit) floating-point elements in
a
andb
. - Computes the bitwise XOR of packed single-precision (32-bit) floating-point elements in
a
andb
. - Computes the bitwise XOR of 256 bits (representing integer data) in
a
andb
- Zeroes the contents of all XMM or YMM registers.
- Zeroes the upper 128 bits of all YMM registers; the lower 128-bits of the registers are unmodified.
- Constructs a 256-bit floating-point vector of
[4 x double]
from a 128-bit floating-point vector of[2 x double]
. The lower 128 bits contain the value of the source vector. The upper 128 bits are set to zero. - Constructs a 256-bit floating-point vector of
[8 x float]
from a 128-bit floating-point vector of[4 x float]
. The lower 128 bits contain the value of the source vector. The upper 128 bits are set to zero. - Constructs a 256-bit integer vector from a 128-bit integer vector. The lower 128 bits contain the value of the source vector. The upper 128 bits are set to zero.
- Stores 512-bits (composed of 16 packed single-precision (32-bit) floating-point elements) from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - Computes the absolute value of packed 8-bit signed integers in
a
and return the unsigned results. - Computes the absolute value of each of the packed 16-bit signed integers in
a
and return the 16-bit unsigned integer - Computes the absolute value of each of the packed 32-bit signed integers in
a
and return the 32-bit unsigned integer - Adds packed 8-bit integers in
a
andb
. - Adds packed 16-bit integers in
a
andb
. - Adds packed 32-bit integers in
a
andb
. - Adds packed 64-bit integers in
a
andb
. - Adds packed double-precision (64-bit) floating-point elements in
a
andb
. - Adds __m128 vectors.
- Returns a new vector with the low element of
a
replaced by the sum of the low elements ofa
andb
. - Adds the first component of
a
andb
, the other components are copied froma
. - Adds packed 8-bit integers in
a
andb
using saturation. - Adds packed 16-bit integers in
a
andb
using saturation. - Adds packed unsigned 8-bit integers in
a
andb
using saturation. - Adds packed unsigned 16-bit integers in
a
andb
using saturation. - Alternatively add and subtract packed double-precision (64-bit) floating-point elements in
a
to/from packed elements inb
. - Alternatively add and subtract packed single-precision (32-bit) floating-point elements in
a
to/from packed elements inb
. - Performs one round of an AES decryption flow on data (state) in
a
. - Performs the last round of an AES decryption flow on data (state) in
a
. - Performs one round of an AES encryption flow on data (state) in
a
. - Performs the last round of an AES encryption flow on data (state) in
a
. - Performs the
InvMixColumns
transformation ona
. - Assist in expanding the AES cipher key.
- Concatenate 16-byte blocks in
a
andb
into a 32-byte temporary result, shift the result right byn
bytes, and returns the low 16 bytes. - Computes the bitwise AND of packed double-precision (64-bit) floating-point elements in
a
andb
. - Bitwise AND of packed single-precision (32-bit) floating-point elements.
- Computes the bitwise AND of 128 bits (representing integer data) in
a
andb
. - Computes the bitwise NOT of
a
and then AND withb
. - Bitwise AND-NOT of packed single-precision (32-bit) floating-point elements.
- Computes the bitwise NOT of 128 bits (representing integer data) in
a
and then AND withb
. - Averages packed unsigned 8-bit integers in
a
andb
. - Averages packed unsigned 16-bit integers in
a
andb
. - Blend packed 16-bit integers from
a
andb
using the maskIMM8
. - Blends packed 32-bit integers from
a
andb
using control maskIMM4
. - Blend packed double-precision (64-bit) floating-point elements from
a
andb
using control maskIMM2
- Blend packed single-precision (32-bit) floating-point elements from
a
andb
using maskIMM4
- Blend packed 8-bit integers from
a
andb
usingmask
- Blend packed double-precision (64-bit) floating-point elements from
a
andb
usingmask
- Blend packed single-precision (32-bit) floating-point elements from
a
andb
usingmask
- Broadcasts a single-precision (32-bit) floating-point element from memory to all elements of the returned vector.
- Broadcasts the low packed 8-bit integer from
a
to all elements of the 128-bit returned value. - Broadcasts the low packed 32-bit integer from
a
to all elements of the 128-bit returned value. - Broadcasts the low packed 64-bit integer from
a
to all elements of the 128-bit returned value. - Broadcasts the low double-precision (64-bit) floating-point element from
a
to all elements of the 128-bit returned value. - Broadcasts the low single-precision (32-bit) floating-point element from
a
to all elements of the 128-bit returned value. - Broadcasts the low packed 16-bit integer from a to all elements of the 128-bit returned value
- Shifts
a
left byIMM8
bytes while shifting in zeros. - Shifts
a
right byIMM8
bytes while shifting in zeros. - Casts a 128-bit floating-point vector of
[2 x double]
into a 128-bit floating-point vector of[4 x float]
. - Casts a 128-bit floating-point vector of
[2 x double]
into a 128-bit integer vector. - Casts a 128-bit floating-point vector of
[4 x float]
into a 128-bit floating-point vector of[2 x double]
. - Casts a 128-bit floating-point vector of
[4 x float]
into a 128-bit integer vector. - Casts a 128-bit integer vector into a 128-bit floating-point vector of
[2 x double]
. - Casts a 128-bit integer vector into a 128-bit floating-point vector of
[4 x float]
. - Round the packed double-precision (64-bit) floating-point elements in
a
up to an integer value, and stores the results as packed double-precision floating-point elements. - Round the packed single-precision (32-bit) floating-point elements in
a
up to an integer value, and stores the results as packed single-precision floating-point elements. - Round the lower double-precision (64-bit) floating-point element in
b
up to an integer value, store the result as a double-precision floating-point element in the lower element of the intrinsic result, and copies the upper element froma
to the upper element of the intrinsic result. - Round the lower single-precision (32-bit) floating-point element in
b
up to an integer value, store the result as a single-precision floating-point element in the lower element of the intrinsic result, and copies the upper 3 packed elements froma
to the upper elements of the intrinsic result. - Invalidates and flushes the cache line that contains
p
from all levels of the cache hierarchy. - Performs a carry-less multiplication of two 64-bit polynomials over the finite field GF(2^k).
- Compares packed double-precision (64-bit) floating-point elements in
a
andb
based on the comparison operand specified byIMM5
. - Compares packed single-precision (32-bit) floating-point elements in
a
andb
based on the comparison operand specified byIMM5
. - Compares the lower double-precision (64-bit) floating-point element in
a
andb
based on the comparison operand specified byIMM5
, store the result in the lower element of returned vector, and copies the upper element froma
to the upper element of returned vector. - Compares the lower single-precision (32-bit) floating-point element in
a
andb
based on the comparison operand specified byIMM5
, store the result in the lower element of returned vector, and copies the upper 3 packed elements froma
to the upper elements of returned vector. - Compares packed 8-bit integers in
a
andb
for equality. - Compares packed 16-bit integers in
a
andb
for equality. - Compares packed 32-bit integers in
a
andb
for equality. - Compares packed 64-bit integers in
a
andb
for equality - Compares corresponding elements in
a
andb
for equality. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input elements were equal, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the equality comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for equality. The lowest 32 bits of the result will be0xffffffff
if the two inputs are equal, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return1
ifb
did not contain a null character and the resulting mask was zero, and0
otherwise. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return1
if the resulting mask was non-zero, and0
otherwise. - Compares packed strings
a
andb
with lengthsla
andlb
using the control inIMM8
and return the generated index. Similar to_mm_cmpistri
with the exception that_mm_cmpistri
implicitly determines the length ofa
andb
. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return the generated mask. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return bit0
of the resulting bit mask. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return1
if any character in a was null, and0
otherwise. - Compares packed strings in
a
andb
with lengthsla
andlb
using the control inIMM8
, and return1
if any character inb
was null, and0
otherwise. - Compares corresponding elements in
a
andb
for greater-than-or-equal. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is greater than or equal to the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the greater-than-or-equal comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for greater than or equal. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is greater than or equalb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares packed 8-bit integers in
a
andb
for greater-than. - Compares packed 16-bit integers in
a
andb
for greater-than. - Compares packed 32-bit integers in
a
andb
for greater-than. - Compares packed 64-bit integers in
a
andb
for greater-than, return the results. - Compares corresponding elements in
a
andb
for greater-than. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is greater than the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the greater-than comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for greater than. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is greater thanb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and return1
ifb
did not contain a null character and the resulting mask was zero, and0
otherwise. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and return1
if the resulting mask was non-zero, and0
otherwise. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
and return the generated index. Similar to_mm_cmpestri
with the exception that_mm_cmpestri
requires the lengths ofa
andb
to be explicitly specified. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and return the generated mask. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and return bit0
of the resulting bit mask. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and returns1
if any character ina
was null, and0
otherwise. - Compares packed strings with implicit lengths in
a
andb
using the control inIMM8
, and return1
if any character inb
was null. and0
otherwise. - Compares corresponding elements in
a
andb
for less-than-or-equal - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is less than or equal to the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the less-than-or-equal comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for less than or equal. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is less than or equalb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares packed 8-bit integers in
a
andb
for less-than. - Compares packed 16-bit integers in
a
andb
for less-than. - Compares packed 32-bit integers in
a
andb
for less-than. - Compares corresponding elements in
a
andb
for less-than. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is less than the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the less-than comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for less than. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is less thanb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
for not-equal. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input elements are not equal, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the not-equal comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for inequality. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is not equal tob.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
for not-greater-than-or-equal. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is not greater than or equal to the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the not-greater-than-or-equal comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for not-greater-than-or-equal. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is not greater than or equal tob.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
for not-greater-than. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is not greater than the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the not-greater-than comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for not-greater-than. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is not greater thanb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
for not-less-than-or-equal. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is not less than or equal to the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the not-less-than-or-equal comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for not-less-than-or-equal. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is not less than or equal tob.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
for not-less-than. - Compares each of the four floats in
a
to the corresponding element inb
. The result in the output vector will be0xffffffff
if the input element ina
is not less than the corresponding element inb
, or0
otherwise. - Returns a new vector with the low element of
a
replaced by the not-less-than comparison of the lower elements ofa
andb
. - Compares the lowest
f32
of both inputs for not-less-than. The lowest 32 bits of the result will be0xffffffff
ifa.extract(0)
is not less thanb.extract(0)
, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
to see if neither isNaN
. - Compares each of the four floats in
a
to the corresponding element inb
. Returns four floats that have one of two possible bit patterns. The element in the output vector will be0xffffffff
if the input elements ina
andb
are ordered (i.e., neither of them is a NaN), or 0 otherwise. - Returns a new vector with the low element of
a
replaced by the result of comparing both of the lower elements ofa
andb
toNaN
. If neither are equal toNaN
then0xFFFFFFFFFFFFFFFF
is used and0
otherwise. - Checks if the lowest
f32
of both inputs are ordered. The lowest 32 bits of the result will be0xffffffff
if neither ofa.extract(0)
orb.extract(0)
is a NaN, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares corresponding elements in
a
andb
to see if either isNaN
. - Compares each of the four floats in
a
to the corresponding element inb
. Returns four floats that have one of two possible bit patterns. The element in the output vector will be0xffffffff
if the input elements ina
andb
are unordered (i.e., at least on of them is a NaN), or 0 otherwise. - Returns a new vector with the low element of
a
replaced by the result of comparing both of the lower elements ofa
andb
toNaN
. If either is equal toNaN
then0xFFFFFFFFFFFFFFFF
is used and0
otherwise. - Checks if the lowest
f32
of both inputs are unordered. The lowest 32 bits of the result will be0xffffffff
if any ofa.extract(0)
orb.extract(0)
is a NaN, or0
otherwise. The upper 96 bits of the result are the upper 96 bits ofa
. - Compares the lower element of
a
andb
for equality. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if they are equal, or0
otherwise. - Compares the lower element of
a
andb
for greater-than-or-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is greater than or equal to the one fromb
, or0
otherwise. - Compares the lower element of
a
andb
for greater-than. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is greater than the one fromb
, or0
otherwise. - Compares the lower element of
a
andb
for less-than-or-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is less than or equal to the one fromb
, or0
otherwise. - Compares the lower element of
a
andb
for less-than. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is less than the one fromb
, or0
otherwise. - Compares the lower element of
a
andb
for not-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if they are not equal, or0
otherwise. - Starting with the initial value in
crc
, return the accumulated CRC32-C value for unsigned 8-bit integerv
. - Starting with the initial value in
crc
, return the accumulated CRC32-C value for unsigned 16-bit integerv
. - Starting with the initial value in
crc
, return the accumulated CRC32-C value for unsigned 32-bit integerv
. - Alias for
_mm_cvtsi32_ss
. - Alias for
_mm_cvtss_si32
. - Sign extend packed 8-bit integers in
a
to packed 16-bit integers - Sign extend packed 8-bit integers in
a
to packed 32-bit integers - Sign extend packed 8-bit integers in the low 8 bytes of
a
to packed 64-bit integers - Sign extend packed 16-bit integers in
a
to packed 32-bit integers - Sign extend packed 16-bit integers in
a
to packed 64-bit integers - Sign extend packed 32-bit integers in
a
to packed 64-bit integers - Converts the lower two packed 32-bit integers in
a
to packed double-precision (64-bit) floating-point elements. - Converts packed 32-bit integers in
a
to packed single-precision (32-bit) floating-point elements. - Zeroes extend packed unsigned 8-bit integers in
a
to packed 16-bit integers - Zeroes extend packed unsigned 8-bit integers in
a
to packed 32-bit integers - Zeroes extend packed unsigned 8-bit integers in
a
to packed 64-bit integers - Zeroes extend packed unsigned 16-bit integers in
a
to packed 32-bit integers - Zeroes extend packed unsigned 16-bit integers in
a
to packed 64-bit integers - Zeroes extend packed unsigned 32-bit integers in
a
to packed 64-bit integers - Converts packed double-precision (64-bit) floating-point elements in
a
to packed 32-bit integers. - Converts packed double-precision (64-bit) floating-point elements in
a
to packed single-precision (32-bit) floating-point elements - Converts the 4 x 16-bit half-precision float values in the lowest 64-bit of the 128-bit vector
a
into 4 x 32-bit float values stored in a 128-bit wide vector. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed 32-bit integers. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed double-precision (64-bit) floating-point elements. - Converts the 4 x 32-bit float values in the 128-bit vector
a
into 4 x 16-bit half-precision float values stored in the lowest 64-bit of a 128-bit vector. - Returns the lower double-precision (64-bit) floating-point element of
a
. - Converts the lower double-precision (64-bit) floating-point element in a to a 32-bit integer.
- Converts the lower double-precision (64-bit) floating-point element in
b
to a single-precision (32-bit) floating-point element, store the result in the lower element of the return value, and copies the upper element froma
to the upper element the return value. - Returns
a
with its lower element replaced byb
after converting it to anf64
. - Returns a vector whose lowest element is
a
and all higher elements are0
. - Converts a 32 bit integer to a 32 bit float. The result vector is the input vector
a
with the lowest 32 bit float replaced by the converted integer. - Returns the lowest element of
a
. - Extracts the lowest 32 bit float from the input vector.
- Converts the lower single-precision (32-bit) floating-point element in
b
to a double-precision (64-bit) floating-point element, store the result in the lower element of the return value, and copies the upper element froma
to the upper element the return value. - Converts the lowest 32 bit float in the input vector to a 32 bit integer.
- Alias for
_mm_cvttss_si32
. - Converts packed double-precision (64-bit) floating-point elements in
a
to packed 32-bit integers with truncation. - Converts packed single-precision (32-bit) floating-point elements in
a
to packed 32-bit integers with truncation. - Converts the lower double-precision (64-bit) floating-point element in
a
to a 32-bit integer with truncation. - Converts the lowest 32 bit float in the input vector to a 32 bit integer with truncation.
- Divide packed double-precision (64-bit) floating-point elements in
a
by packed elements inb
. - Divides __m128 vectors.
- Returns a new vector with the low element of
a
replaced by the result of diving the lower element ofa
by the lower element ofb
. - Divides the first component of
b
bya
, the other components are copied froma
. - Returns the dot product of two __m128d vectors.
- Returns the dot product of two __m128 vectors.
- Extracts an 8-bit integer from
a
, selected withIMM8
. Returns a 32-bit integer containing the zero-extended integer data. - Returns the
imm8
element ofa
. - Extracts an 32-bit integer from
a
selected withIMM8
- Extracts a single-precision (32-bit) floating-point element from
a
, selected withIMM8
. The returnedi32
stores the float’s bit-pattern, and may be converted back to a floating point number via casting. - Extracts the bit range specified by
y
from the lower 64 bits ofx
. - Round the packed double-precision (64-bit) floating-point elements in
a
down to an integer value, and stores the results as packed double-precision floating-point elements. - Round the packed single-precision (32-bit) floating-point elements in
a
down to an integer value, and stores the results as packed single-precision floating-point elements. - Round the lower double-precision (64-bit) floating-point element in
b
down to an integer value, store the result as a double-precision floating-point element in the lower element of the intrinsic result, and copies the upper element froma
to the upper element of the intrinsic result. - Round the lower single-precision (32-bit) floating-point element in
b
down to an integer value, store the result as a single-precision floating-point element in the lower element of the intrinsic result, and copies the upper 3 packed elements froma
to the upper elements of the intrinsic result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and add the intermediate result to packed elements inc
. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and add the intermediate result to packed elements inc
. - Multiplies the lower double-precision (64-bit) floating-point elements in
a
andb
, and add the intermediate result to the lower element inc
. Stores the result in the lower element of the returned value, and copy the upper element froma
to the upper elements of the result. - Multiplies the lower single-precision (32-bit) floating-point elements in
a
andb
, and add the intermediate result to the lower element inc
. Stores the result in the lower element of the returned value, and copy the 3 upper elements froma
to the upper elements of the result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and alternatively add and subtract packed elements inc
to/from the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and alternatively add and subtract packed elements inc
to/from the intermediate result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the intermediate result. - Multiplies the lower double-precision (64-bit) floating-point elements in
a
andb
, and subtract the lower element inc
from the intermediate result. Store the result in the lower element of the returned value, and copy the upper element froma
to the upper elements of the result. - Multiplies the lower single-precision (32-bit) floating-point elements in
a
andb
, and subtract the lower element inc
from the intermediate result. Store the result in the lower element of the returned value, and copy the 3 upper elements froma
to the upper elements of the result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and alternatively subtract and add packed elements inc
from/to the intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and alternatively subtract and add packed elements inc
from/to the intermediate result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and add the negated intermediate result to packed elements inc
. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and add the negated intermediate result to packed elements inc
. - Multiplies the lower double-precision (64-bit) floating-point elements in
a
andb
, and add the negated intermediate result to the lower element inc
. Store the result in the lower element of the returned value, and copy the upper element froma
to the upper elements of the result. - Multiplies the lower single-precision (32-bit) floating-point elements in
a
andb
, and add the negated intermediate result to the lower element inc
. Store the result in the lower element of the returned value, and copy the 3 upper elements froma
to the upper elements of the result. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. - Multiplies packed single-precision (32-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. - Multiplies the lower double-precision (64-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. Store the result in the lower element of the returned value, and copy the upper element froma
to the upper elements of the result. - Multiplies the lower single-precision (32-bit) floating-point elements in
a
andb
, and subtract packed elements inc
from the negated intermediate result. Store the result in the lower element of the returned value, and copy the 3 upper elements froma
to the upper elements of the result. - Gets the unsigned 32-bit value of the MXCSR control and status register.
- Horizontally adds the adjacent pairs of values contained in 2 packed 128-bit vectors of
[8 x i16]
. - Horizontally adds the adjacent pairs of values contained in 2 packed 128-bit vectors of
[4 x i32]
. - Horizontally adds adjacent pairs of double-precision (64-bit) floating-point elements in
a
andb
, and pack the results. - Horizontally adds adjacent pairs of single-precision (32-bit) floating-point elements in
a
andb
, and pack the results. - Horizontally adds the adjacent pairs of values contained in 2 packed 128-bit vectors of
[8 x i16]
. Positive sums greater than 7FFFh are saturated to 7FFFh. Negative sums less than 8000h are saturated to 8000h. - Horizontally subtract the adjacent pairs of values contained in 2 packed 128-bit vectors of
[8 x i16]
. - Horizontally subtract the adjacent pairs of values contained in 2 packed 128-bit vectors of
[4 x i32]
. - Horizontally subtract adjacent pairs of double-precision (64-bit) floating-point elements in
a
andb
, and pack the results. - Horizontally adds adjacent pairs of single-precision (32-bit) floating-point elements in
a
andb
, and pack the results. - Horizontally subtract the adjacent pairs of values contained in 2 packed 128-bit vectors of
[8 x i16]
. Positive differences greater than 7FFFh are saturated to 7FFFh. Negative differences less than 8000h are saturated to 8000h. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. - Returns a copy of
a
with the 8-bit integer fromi
inserted at a location specified byIMM8
. - Returns a new vector where the
imm8
element ofa
is replaced withi
. - Returns a copy of
a
with the 32-bit integer fromi
inserted at a location specified byIMM8
. - Select a single value in
a
to store at some position inb
, Then zero elements according toIMM8
. - Inserts the
[length:0]
bits ofy
intox
atindex
. - Loads 128-bits of integer data from unaligned memory. This intrinsic may perform better than
_mm_loadu_si128
when the data crosses a cache line boundary. - Performs a serializing operation on all load-from-memory instructions that were issued prior to this instruction.
- Loads a double-precision (64-bit) floating-point element from memory into both elements of returned vector.
- Construct a
__m128
by duplicating the value read fromp
into all elements. - Loads 128-bits (composed of 2 packed double-precision (64-bit) floating-point elements) from memory into the returned vector.
mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Loads a double-precision (64-bit) floating-point element from memory into both elements of returned vector.
- Loads four
f32
values from aligned memory into a__m128
. If the pointer is not aligned to a 128-bit boundary (16 bytes) a general protection fault will be triggered (fatal program crash). - Alias for
_mm_load1_ps
- Loads a 64-bit double-precision value to the low element of a 128-bit integer vector and clears the upper element.
- Loads 128-bits of integer data from memory into a new vector.
- Construct a
__m128
with the lowest element read fromp
and the other elements set to zero. - Loads a double-precision (64-bit) floating-point element from memory into both elements of return vector.
- Loads a double-precision value into the high-order bits of a 128-bit vector of
[2 x double]
. The low-order bits are copied from the low-order bits of the first operand. - Loads 64-bit integer from memory into first element of returned vector.
- Loads a double-precision value into the low-order bits of a 128-bit vector of
[2 x double]
. The high-order bits are copied from the high-order bits of the first operand. - Loads 2 double-precision (64-bit) floating-point elements from memory into the returned vector in reverse order.
mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Loads four
f32
values from aligned memory into a__m128
in reverse order. - Loads 128-bits (composed of 2 packed double-precision (64-bit) floating-point elements) from memory into the returned vector.
mem_addr
does not need to be aligned on any particular boundary. - Loads four
f32
values from memory into a__m128
. There are no restrictions on memory alignment. For aligned memory_mm_load_ps
may be faster. - Loads unaligned 64-bits of integer data from memory into new vector.
- Loads 128-bits of integer data from memory into a new vector.
- Multiplies and then horizontally add signed 16 bit integers in
a
andb
. - Multiplies corresponding pairs of packed 8-bit unsigned integer values contained in the first source operand and packed 8-bit signed integer values contained in the second source operand, add pairs of contiguous products with signed saturation, and writes the 16-bit sums to the corresponding bits in the destination.
- Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Returns values from
slice
at offsets determined byoffsets * scale
, wherescale
should be 1, 2, 4 or 8. If mask is set, load the value fromsrc
in that position instead. - Loads packed 32-bit integers from memory pointed by
mem_addr
usingmask
(elements are zeroed out when the highest bit is not set in the corresponding element). - Loads packed 64-bit integers from memory pointed by
mem_addr
usingmask
(elements are zeroed out when the highest bit is not set in the corresponding element). - Loads packed double-precision (64-bit) floating-point elements from memory into result using
mask
(elements are zeroed out when the high bit of the corresponding element is not set). - Loads packed single-precision (32-bit) floating-point elements from memory into result using
mask
(elements are zeroed out when the high bit of the corresponding element is not set). - Conditionally store 8-bit integer elements from
a
into memory usingmask
. - Stores packed 32-bit integers from
a
into memory pointed bymem_addr
usingmask
(elements are not stored when the highest bit is not set in the corresponding element). - Stores packed 64-bit integers from
a
into memory pointed bymem_addr
usingmask
(elements are not stored when the highest bit is not set in the corresponding element). - Stores packed double-precision (64-bit) floating-point elements from
a
into memory usingmask
. - Stores packed single-precision (32-bit) floating-point elements from
a
into memory usingmask
. - Compares packed 8-bit integers in
a
andb
and returns packed maximum values in dst. - Compares packed 16-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed 32-bit integers in
a
andb
, and returns packed maximum values. - Compares packed unsigned 8-bit integers in
a
andb
, and returns the packed maximum values. - Compares packed unsigned 16-bit integers in
a
andb
, and returns packed maximum. - Compares packed unsigned 32-bit integers in
a
andb
, and returns packed maximum values. - Returns a new vector with the maximum values from corresponding elements in
a
andb
. - Compares packed single-precision (32-bit) floating-point elements in
a
andb
, and return the corresponding maximum values. - Returns a new vector with the low element of
a
replaced by the maximum of the lower elements ofa
andb
. - Compares the first single-precision (32-bit) floating-point element of
a
andb
, and return the maximum value in the first element of the return value, the other elements are copied froma
. - Performs a serializing operation on all load-from-memory and store-to-memory instructions that were issued prior to this instruction.
- Compares packed 8-bit integers in
a
andb
and returns packed minimum values in dst. - Compares packed 16-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed 32-bit integers in
a
andb
, and returns packed minimum values. - Compares packed unsigned 8-bit integers in
a
andb
, and returns the packed minimum values. - Compares packed unsigned 16-bit integers in
a
andb
, and returns packed minimum. - Compares packed unsigned 32-bit integers in
a
andb
, and returns packed minimum values. - Returns a new vector with the minimum values from corresponding elements in
a
andb
. - Compares packed single-precision (32-bit) floating-point elements in
a
andb
, and return the corresponding minimum values. - Returns a new vector with the low element of
a
replaced by the minimum of the lower elements ofa
andb
. - Compares the first single-precision (32-bit) floating-point element of
a
andb
, and return the minimum value in the first element of the return value, the other elements are copied froma
. - Finds the minimum unsigned 16-bit element in the 128-bit __m128i vector, returning a vector containing its value in its first position, and its index in its second position; all other elements are set to zero.
- Returns a vector where the low element is extracted from
a
and its upper element is zero. - Constructs a 128-bit floating-point vector of
[2 x double]
. The lower 64 bits are set to the lower 64 bits of the second parameter. The upper 64 bits are set to the upper 64 bits of the first parameter. - Returns a
__m128
with the first component fromb
and the remaining components froma
. - Duplicate the low double-precision (64-bit) floating-point element from
a
. - Duplicate odd-indexed single-precision (32-bit) floating-point elements from
a
. - Combine higher half of
a
andb
. The higher half ofb
occupies the lower half of result. - Duplicate even-indexed single-precision (32-bit) floating-point elements from
a
. - Combine lower half of
a
andb
. The lower half ofb
occupies the higher half of result. - Returns a mask of the most significant bit of each element in
a
. - Returns a mask of the most significant bit of each element in
a
. - Returns a mask of the most significant bit of each element in
a
. - Subtracts 8-bit unsigned integer values and computes the absolute values of the differences to the corresponding bits in the destination. Then sums of the absolute differences are returned according to the bit fields in the immediate operand.
- Multiplies the low 32-bit integers from each packed 64-bit element in
a
andb
, and returns the signed 64-bit result. - Multiplies the low unsigned 32-bit integers from each packed 64-bit element in
a
andb
. - Multiplies packed double-precision (64-bit) floating-point elements in
a
andb
. - Multiplies __m128 vectors.
- Returns a new vector with the low element of
a
replaced by multiplying the low elements ofa
andb
. - Multiplies the first component of
a
andb
, the other components are copied froma
. - Multiplies the packed 16-bit integers in
a
andb
. - Multiplies the packed unsigned 16-bit integers in
a
andb
. - Multiplies packed 16-bit signed integer values, truncate the 32-bit product to the 18 most significant bits by right-shifting, round the truncated value by adding 1, and write bits
[16:1]
to the destination. - Multiplies the packed 16-bit integers in
a
andb
. - Multiplies the packed 32-bit integers in
a
andb
, producing intermediate 64-bit integers, and returns the lowest 32-bit, whatever they might be, reinterpreted as a signed integer. Whilepmulld __m128i::splat(2), __m128i::splat(2)
returns the obvious__m128i::splat(4)
, due to wrapping arithmeticpmulld __m128i::splat(i32::MAX), __m128i::splat(2)
would return a negative number. - Computes the bitwise OR of
a
andb
. - Bitwise OR of packed single-precision (32-bit) floating-point elements.
- Computes the bitwise OR of 128 bits (representing integer data) in
a
andb
. - Converts packed 16-bit integers from
a
andb
to packed 8-bit integers using signed saturation. - Converts packed 32-bit integers from
a
andb
to packed 16-bit integers using signed saturation. - Converts packed 16-bit integers from
a
andb
to packed 8-bit integers using unsigned saturation. - Converts packed 32-bit integers from
a
andb
to packed 16-bit integers using unsigned saturation - Provides a hint to the processor that the code sequence is a spin-wait loop.
- Shuffles double-precision (64-bit) floating-point elements in
a
using the control inimm8
. - Shuffles single-precision (32-bit) floating-point elements in
a
using the control inimm8
. - Shuffles double-precision (64-bit) floating-point elements in
a
using the control inb
. - Shuffles single-precision (32-bit) floating-point elements in
a
using the control inb
. - Fetch the cache line that contains address
p
using the givenSTRATEGY
. - Returns the approximate reciprocal of packed single-precision (32-bit) floating-point elements in
a
. - Returns the approximate reciprocal of the first single-precision (32-bit) floating-point element in
a
, the other elements are unchanged. - Round the packed double-precision (64-bit) floating-point elements in
a
using theROUNDING
parameter, and stores the results as packed double-precision floating-point elements. Rounding is done according to the rounding parameter, which can be one of: - Round the packed single-precision (32-bit) floating-point elements in
a
using theROUNDING
parameter, and stores the results as packed single-precision floating-point elements. Rounding is done according to the rounding parameter, which can be one of: - Round the lower double-precision (64-bit) floating-point element in
b
using theROUNDING
parameter, store the result as a double-precision floating-point element in the lower element of the intrinsic result, and copies the upper element froma
to the upper element of the intrinsic result. Rounding is done according to the rounding parameter, which can be one of: - Round the lower single-precision (32-bit) floating-point element in
b
using theROUNDING
parameter, store the result as a single-precision floating-point element in the lower element of the intrinsic result, and copies the upper 3 packed elements froma
to the upper elements of the intrinsic result. Rounding is done according to the rounding parameter, which can be one of: - Returns the approximate reciprocal square root of packed single-precision (32-bit) floating-point elements in
a
. - Returns the approximate reciprocal square root of the first single-precision (32-bit) floating-point element in
a
, the other elements are unchanged. - Sum the absolute differences of packed unsigned 8-bit integers.
- Broadcasts 8-bit integer
a
to all elements. - Broadcasts 16-bit integer
a
to all elements. - Broadcasts 32-bit integer
a
to all elements. - Broadcasts 64-bit integer
a
to all elements. - Broadcasts double-precision (64-bit) floating-point value a to all elements of the return value.
- Construct a
__m128
with all element set toa
. - Sets packed 8-bit integers with the supplied values.
- Sets packed 16-bit integers with the supplied values.
- Sets packed 32-bit integers with the supplied values.
- Sets packed 64-bit integers with the supplied values, from highest to lowest.
- Sets packed double-precision (64-bit) floating-point elements in the return value with the supplied values.
- Broadcasts double-precision (64-bit) floating-point value a to all elements of the return value.
- Construct a
__m128
from four floating point values highest to lowest. - Alias for
_mm_set1_ps
- Copies double-precision (64-bit) floating-point element
a
to the lower element of the packed 64-bit return value. - Construct a
__m128
with the lowest element set toa
and the rest set to zero. - Sets the MXCSR register with the 32-bit unsigned integer value.
- Sets packed 8-bit integers with the supplied values in reverse order.
- Sets packed 16-bit integers with the supplied values in reverse order.
- Sets packed 32-bit integers with the supplied values in reverse order.
- Sets packed double-precision (64-bit) floating-point elements in the return value with the supplied values in reverse order.
- Construct a
__m128
from four floating point values lowest to highest. - Returns packed double-precision (64-bit) floating-point elements with all zeros.
- Construct a
__m128
with all elements initialized to zero. - Returns a vector with all elements set to zero.
- Performs a serializing operation on all store-to-memory instructions that were issued prior to this instruction.
- Performs an intermediate calculation for the next four SHA1 message values (unsigned 32-bit integers) using previous message values from
a
andb
, and returning the result. - Performs the final calculation for the next four SHA1 message values (unsigned 32-bit integers) using the intermediate result in
a
and the previous message values inb
, and returns the result. - Calculate SHA1 state variable E after four rounds of operation from the current SHA1 state variable
a
, add that value to the scheduled values (unsigned 32-bit integers) inb
, and returns the result. - Performs four rounds of SHA1 operation using an initial SHA1 state (A,B,C,D) from
a
and some pre-computed sum of the next 4 round message values (unsigned 32-bit integers), and state variable E fromb
, and return the updated SHA1 state (A,B,C,D).FUNC
contains the logic functions and round constants. - Performs an intermediate calculation for the next four SHA256 message values (unsigned 32-bit integers) using previous message values from
a
andb
, and return the result. - Performs the final calculation for the next four SHA256 message values (unsigned 32-bit integers) using previous message values from
a
andb
, and return the result. - Performs 2 rounds of SHA256 operation using an initial SHA256 state (C,D,G,H) from
a
, an initial SHA256 state (A,B,E,F) fromb
, and a pre-computed sum of the next 2 round message values (unsigned 32-bit integers) and the corresponding round constants fromk
, and store the updated SHA256 state (A,B,E,F) in dst. - Shuffles bytes from
a
according to the content ofb
. - Shuffles 32-bit integers in
a
using the control inIMM8
. - Constructs a 128-bit floating-point vector of
[2 x double]
from two 128-bit vector parameters of[2 x double]
, using the immediate-value parameter as a specifier. - Shuffles packed single-precision (32-bit) floating-point elements in
a
andb
usingMASK
. - Shuffles 16-bit integers in the high 64 bits of
a
using the control inIMM8
. - Shuffles 16-bit integers in the low 64 bits of
a
using the control inIMM8
. - Negates packed 8-bit integers in
a
when the corresponding signed 8-bit integer inb
is negative, and returns the result. Elements in result are zeroed out when the corresponding element inb
is zero. - Negates packed 16-bit integers in
a
when the corresponding signed 16-bit integer inb
is negative, and returns the results. Elements in result are zeroed out when the corresponding element inb
is zero. - Negates packed 32-bit integers in
a
when the corresponding signed 32-bit integer inb
is negative, and returns the results. Element in result are zeroed out when the corresponding element inb
is zero. - Shifts packed 16-bit integers in
a
left bycount
while shifting in zeros. - Shifts packed 32-bit integers in
a
left bycount
while shifting in zeros. - Shifts packed 64-bit integers in
a
left bycount
while shifting in zeros. - Shifts packed 16-bit integers in
a
left byIMM8
while shifting in zeros. - Shifts packed 32-bit integers in
a
left byIMM8
while shifting in zeros. - Shifts packed 64-bit integers in
a
left byIMM8
while shifting in zeros. - Shifts
a
left byIMM8
bytes while shifting in zeros. - Shifts packed 32-bit integers in
a
left by the amount specified by the corresponding element incount
while shifting in zeros, and returns the result. - Shifts packed 64-bit integers in
a
left by the amount specified by the corresponding element incount
while shifting in zeros, and returns the result. - Returns a new vector with the square root of each of the values in
a
. - Returns the square root of packed single-precision (32-bit) floating-point elements in
a
. - Returns a new vector with the low element of
a
replaced by the square root of the lower elementb
. - Returns the square root of the first single-precision (32-bit) floating-point element in
a
, the other elements are unchanged. - Shifts packed 16-bit integers in
a
right bycount
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right bycount
while shifting in sign bits. - Shifts packed 16-bit integers in
a
right byIMM8
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right byIMM8
while shifting in sign bits. - Shifts packed 32-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in sign bits. - Shifts packed 16-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 32-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 64-bit integers in
a
right bycount
while shifting in zeros. - Shifts packed 16-bit integers in
a
right byIMM8
while shifting in zeros. - Shifts packed 32-bit integers in
a
right byIMM8
while shifting in zeros. - Shifts packed 64-bit integers in
a
right byIMM8
while shifting in zeros. - Shifts
a
right byIMM8
bytes while shifting in zeros. - Shifts packed 32-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in zeros, - Shifts packed 64-bit integers in
a
right by the amount specified by the corresponding element incount
while shifting in zeros, - Stores the lower double-precision (64-bit) floating-point element from
a
into 2 contiguous elements in memory.mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Stores the lowest 32 bit float of
a
repeated four times into aligned memory. - Stores 128-bits (composed of 2 packed double-precision (64-bit) floating-point elements) from
a
into memory.mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Stores the lower double-precision (64-bit) floating-point element from
a
into 2 contiguous elements in memory.mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Stores four 32-bit floats into aligned memory.
- Alias for
_mm_store1_ps
- Stores the lower 64 bits of a 128-bit vector of
[2 x double]
to a memory location. - Stores 128-bits of integer data from
a
into memory. - Stores the lowest 32 bit float of
a
into memory. - Stores the upper 64 bits of a 128-bit vector of
[2 x double]
to a memory location. - Stores the lower 64-bit integer
a
to a memory location. - Stores the lower 64 bits of a 128-bit vector of
[2 x double]
to a memory location. - Stores 2 double-precision (64-bit) floating-point elements from
a
into memory in reverse order.mem_addr
must be aligned on a 16-byte boundary or a general-protection exception may be generated. - Stores four 32-bit floats into aligned memory in reverse order.
- Stores 128-bits (composed of 2 packed double-precision (64-bit) floating-point elements) from
a
into memory.mem_addr
does not need to be aligned on any particular boundary. - Stores four 32-bit floats into memory. There are no restrictions on memory alignment. For aligned memory
_mm_store_ps
may be faster. - Stores 128-bits of integer data from
a
into memory. - Stores a 128-bit floating point vector of
[2 x double]
to a 128-bit aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon). - Stores
a
into the memory atmem_addr
using a non-temporal memory hint. - Non-temporal store of
a.0
intop
. - Stores a 32-bit integer value in the specified memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon).
- Stores a 128-bit integer vector to a 128-bit aligned memory location. To minimize caching, the data is flagged as non-temporal (unlikely to be used again soon).
- Non-temporal store of
a.0
intop
. - Subtracts packed 8-bit integers in
b
from packed 8-bit integers ina
. - Subtracts packed 16-bit integers in
b
from packed 16-bit integers ina
. - Subtract packed 32-bit integers in
b
from packed 32-bit integers ina
. - Subtract packed 64-bit integers in
b
from packed 64-bit integers ina
. - Subtract packed double-precision (64-bit) floating-point elements in
b
froma
. - Subtracts __m128 vectors.
- Returns a new vector with the low element of
a
replaced by subtracting the low element byb
from the low element ofa
. - Subtracts the first component of
b
froma
, the other components are copied froma
. - Subtract packed 8-bit integers in
b
from packed 8-bit integers ina
using saturation. - Subtract packed 16-bit integers in
b
from packed 16-bit integers ina
using saturation. - Subtract packed unsigned 8-bit integers in
b
from packed unsigned 8-bit integers ina
using saturation. - Subtract packed unsigned 16-bit integers in
b
from packed unsigned 16-bit integers ina
using saturation. - Tests whether the specified bits in
a
128-bit integer vector are all ones. - Tests whether the specified bits in a 128-bit integer vector are all zeros.
- Tests whether the specified bits in a 128-bit integer vector are neither all zeros nor all ones.
- Computes the bitwise AND of 128 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theCF
value. - Computes the bitwise AND of 128 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theCF
value. - Tests whether the specified bits in a 128-bit integer vector are all ones.
- Computes the bitwise AND of 128 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return 1 if both theZF
andCF
values are zero, otherwise return 0. - Computes the bitwise AND of 128 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return 1 if both theZF
andCF
values are zero, otherwise return 0. - Tests whether the specified bits in a 128-bit integer vector are neither all zeros nor all ones.
- Computes the bitwise AND of 128 bits (representing double-precision (64-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 64-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theZF
value. - Computes the bitwise AND of 128 bits (representing single-precision (32-bit) floating-point elements) in
a
andb
, producing an intermediate 128-bit value, and setZF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setZF
to 0. Compute the bitwise NOT ofa
and then AND withb
, producing an intermediate value, and setCF
to 1 if the sign bit of each 32-bit element in the intermediate value is zero, otherwise setCF
to 0. Return theZF
value. - Tests whether the specified bits in a 128-bit integer vector are all zeros.
- Counts the number of trailing least significant zero bits.
- Compares the lower element of
a
andb
for equality. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if they are equal, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Compares the lower element of
a
andb
for greater-than-or-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is greater than or equal to the one fromb
, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Compares the lower element of
a
andb
for greater-than. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is greater than the one fromb
, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Compares the lower element of
a
andb
for less-than-or-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is less than or equal to the one fromb
, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Compares the lower element of
a
andb
for less-than. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if the value froma
is less than the one fromb
, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Compares the lower element of
a
andb
for not-equal. - Compares two 32-bit floats from the low-order bits of
a
andb
. Returns1
if they are not equal, or0
otherwise. This instruction will not signal an exception if either argument is a quiet NaN. - Returns vector of type __m128d with undefined elements.
- Returns vector of type __m128 with undefined elements.
- Returns vector of type __m128i with undefined elements.
- Unpacks and interleave 8-bit integers from the high half of
a
andb
. - Unpacks and interleave 16-bit integers from the high half of
a
andb
. - Unpacks and interleave 32-bit integers from the high half of
a
andb
. - Unpacks and interleave 64-bit integers from the high half of
a
andb
. - The resulting
__m128d
element is composed by the low-order values of the two__m128d
interleaved input elements, i.e.: - Unpacks and interleave single-precision (32-bit) floating-point elements from the higher half of
a
andb
. - Unpacks and interleave 8-bit integers from the low half of
a
andb
. - Unpacks and interleave 16-bit integers from the low half of
a
andb
. - Unpacks and interleave 32-bit integers from the low half of
a
andb
. - Unpacks and interleave 64-bit integers from the low half of
a
andb
. - The resulting
__m128d
element is composed by the high-order values of the two__m128d
interleaved input elements, i.e.: - Unpacks and interleave single-precision (32-bit) floating-point elements from the lower half of
a
andb
. - Computes the bitwise XOR of
a
andb
. - Bitwise exclusive OR of packed single-precision (32-bit) floating-point elements.
- Computes the bitwise XOR of 128 bits (representing integer data) in
a
andb
. - Unsigned multiply without affecting flags.
- Scatter contiguous low order bits of
a
to the result at the positions specified by themask
. - Gathers the bits of
x
specified by themask
into the contiguous low order bit positions of the result. - Counts the bits that are set.
- Read a hardware generated 16-bit random value and store the result in val. Returns 1 if a random value was generated, and 0 otherwise.
- Read a hardware generated 32-bit random value and store the result in val. Returns 1 if a random value was generated, and 0 otherwise.
- Read a 16-bit NIST SP800-90B and SP800-90C compliant random value and store in val. Return 1 if a random value was generated, and 0 otherwise.
- Read a 32-bit NIST SP800-90B and SP800-90C compliant random value and store in val. Return 1 if a random value was generated, and 0 otherwise.
- Reads the current value of the processor’s time-stamp counter.
- Adds unsigned 32-bit integers
a
andb
with unsigned 8-bit carry-inc_in
(carry or overflow flag), and store the unsigned 32-bit result inout
, and the carry-out is returned (carry or overflow flag). - Clears all bits below the least significant zero of
x
and sets all other bits. - Counts the number of trailing least significant zero bits.
- Sets all bits below the least significant one of
x
and clears all other bits. - Reads the contents of the extended control register
XCR
specified inxcr_no
. - Performs a full or partial restore of the enabled processor states using the state information stored in memory at
mem_addr
. - Performs a full or partial restore of the enabled processor states using the state information stored in memory at
mem_addr
. - Performs a full or partial save of the enabled processor states to memory at
mem_addr
. - Performs a full or partial save of the enabled processor states to memory at
mem_addr
. - Performs a full or partial save of the enabled processor states to memory at
mem_addr
. - Performs a full or partial save of the enabled processor states to memory at
mem_addr
- Copies 64-bits from
val
to the extended control register (XCR
) specified bya
.
Type Definitions
- _MM_CMPINT_ENUMExperimentalThe
_MM_CMPINT_ENUM
type used to specify comparison operations in AVX-512 intrinsics. - _MM_MANTISSA_NORM_ENUMExperimentalThe
MM_MANTISSA_NORM_ENUM
type used to specify mantissa normalized operations in AVX-512 intrinsics. - _MM_MANTISSA_SIGN_ENUMExperimentalThe
MM_MANTISSA_SIGN_ENUM
type used to specify mantissa signed operations in AVX-512 intrinsics. - _MM_PERM_ENUMExperimentalThe
MM_PERM_ENUM
type used to specify shuffle operations in AVX-512 intrinsics. - __mmask8ExperimentalThe
__mmask8
type used in AVX-512 intrinsics, a 8-bit integer - __mmask16ExperimentalThe
__mmask16
type used in AVX-512 intrinsics, a 16-bit integer - __mmask32ExperimentalThe
__mmask32
type used in AVX-512 intrinsics, a 32-bit integer - __mmask64ExperimentalThe
__mmask64
type used in AVX-512 intrinsics, a 64-bit integer