rav1e
The fastest and safest AV1 encoder.
Overview
rav1e is an AV1 video encoder. It is designed to eventually cover all use cases, though in its current form it is most suitable for cases where libaom (the reference encoder) is too slow.
Features
- Intra, inter, and switch frames
- 64x64 superblocks
- 4x4 to 64x64 RDO-selected square and rectangular blocks
- DC, H, V, Paeth, smooth, and all directional prediction modes
- DCT, (FLIP-)ADST and identity transforms (up to 64x64, 16x16 and 32x32 respectively)
- 8-, 10- and 12-bit depth color
- 4:2:0, 4:2:2 and 4:4:4 chroma sampling
- 11 speed settings (0-10, exhaustive to near real-time)
- Constant quantizer and target bitrate (single- and multi-pass) encoding modes
- Still picture mode
Documentation
Find the documentation in doc/
Releases
For the foreseeable future, a weekly pre-release of rav1e will be published every Tuesday.
Building
Toolchain: Rust
rav1e currently requires Rust 1.70.0 or later to build.
Dependency: NASM
Some x86_64
-specific optimizations require NASM 2.14.02
or newer and are enabled by default.
strip
will be used if available to remove the local symbols from the asm objects.
The CI is testing against nasm 2.15.05
, so bugs for other versions might happen. If you find one please open an issue!
ubuntu 20.04 (nasm 2.14.02
)
ubuntu 18.04 (nasm 2.14.02
)
# link nasm into $PATH
fedora 31, 32 (nasm 2.14.02
)
windows (nasm 2.15.05
)
Have a NASM binary in your system PATH.
$NASM_VERSION="2.15.05" # or newer
$LINK="https://www.nasm.us/pub/nasm/releasebuilds/ /win64"
# set path for the current sessions
macOS (nasm 2.15.05
)
Release binary
To build release binary in target/release/rav1e
run:
Unstable features
Experimental API and Features can be enabled by using the unstable
feature.
Current unstable features
- Channel API:
Those Features and API are bound to change and evolve, do not rely on them staying the same over releases.
Target-specific builds
The rust compiler can produce a binary that is about 11%-13% faster if it can use avx2
, bmi1
, bmi2
, fma
, lzcnt
and popcnt
in the general code, you may allow it by issuing:
RUSTFLAGS="-C target-cpu=native"
# or
RUSTFLAGS="-C target-cpu=x86-64-v3"
The resulting binary will not work on cpus that do not sport the same set of extensions enabled.
NOTE : You may use
rustc --print target-cpus
to check if the cpu is supported, if not-C target-cpu=native
would be a no-op.
Building the C-API
rav1e provides a C-compatible set of library, header and pkg-config file.
To build and install it you can use cargo-c:
Please refer to the cargo-c installation instructions.
Usage
Compressing video
Input videos must be in y4m format. The monochrome color format is not supported.
(Find a y4m-file for testing at tests/small_input.y4m
or at http://ultravideo.cs.tut.fi/#testsequences)
Decompressing video
Encoder output should be compatible with any AV1 decoder compliant with the v1.0.0 specification. You can decode using dav1d, which is now packaged .
Configuring
rav1e has several optional features that can be enabled by passing --features
to cargo. Passing --all-features
is discouraged.
Features
Find a full list in feature-table in Cargo.toml
asm
- enabled by default. When enabled, assembly is built for the platforms supporting it.x86_64
: Requiresnasm
.aarch64
- Requires
gas
- Alternative: Use
clang
assembler by settingCC=clang
- Requires
NOTE: SSE2
is always enabled on x86_64
, neon
is always enabled for aarch64, you may set the environment variable RAV1E_CPU_TARGET
to rust
to disable all the assembly-optimized routines at the runtime.
Contributing
Please read our guide to contributing to rav1e.
Getting in Touch
Come chat with us on the IRC channel #daala on Libera.Chat! You can also use a web client to join with a web browser.