![vvc](https://upload.wikimedia.org/wikipedia/en/b/ba/Versatile_Video_Coding_%28logo%29.svg) # Versatile Video Codec binaries Versatile Video Codec binaries has available two tools for you to choose. ## Fraunhofer HHI (vvenc/vvdec) Fraunhofer HHI VVC binaries is just standard easy tool, which allows to encode & decode with arguments and also encodes good quality for slow preset, but it may be slow... * Supports Windows, macOS, Linux, BSD, Android, iOS & WebAssembly. * SIMDE: SCALAR, SSE4.1, SSE4.2, AVX, AVX2, AVX512 (unsupported yet), NEON (arm only) and WASM (Web browsers only). * Faster speeding up for newer computer machine of CPUs. * Preset can be used from faster to slower. * Includes advanced tool of encode (vvencFFapp) * Two-pass control of bitrate is only allowed. * Default encoding pixel format is 10-bit. * For decoding, it can output to YUV, Y4M or pipe. * Lossless encoding (only for vvencFFapp with CostMode argument) ## uvg266 (VVC Scalable encoder tool) uvg266 is only scalable encoder which helps to make it faster for older & newer computers, but still a bit good quality than vvenc, seems okay. * Supports Windows, macOS, Linux, BSD, Android & iOS. * SIMDE: MMX, SSE, SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, NEON & AltiVec (PowerPC only). * Can only encode 8-bit VVC output for rest operating system supported, but for 10-bit needs compiled with definition, this only works for Android users. * Faster encoding scalable of old & new computers than vvenc. * Supports presets from ultrafast to placebo like x264 presets, however it is recommended to use from faster to slower to avoid VVC decoding fail issue. * Lossless encoding, but not recommended due decoding fail. ### Downloads NOTE: uvg266 compiled by same architectures supported of vvenc & vvdec. All compiled builds are compressed files on 7-Zip. | OS | vvenc & vvdec | uvg266 | --- | --- | --- | Windows | [x64/x86](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/WindowsVVC/WindowsVVC.7z) | [Download](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/uvg266/Windows/uvg266-Windows.7z) macOS | [Arm64/x64](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/MacOSVVC/MacOSVVC.7z) | [Download](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/uvg266/macOS/uvg266-macOS.7z) Linux | [x86_64/x86/arm64/armv7a](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/uvg266/Linux/uvg266-Linux.7z) | [Download]() BSD | [x86_64](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/BSDVVC/BSDVVC.7z) | [Download]() Android | [x86_64/x86/arm64/armv7a](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/AndroidVVC/AndroidVVC.7z) | [Download](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/AndroidVVC/AndroidUVG266-8bit.7z) or [10-bit build](https://github.com/MartinEesmaa/VVCEasy/raw/refs/heads/master/AndroidVVC/AndroidUVG266.7z) ## Comparisions between vvenc/vvdec and uvg266 If you're using newer computer or/and you wanted it to encode 10-bit with fast encoding to get good quality, use vvenc recommended. If you're using older computer or/and more faster encoding of 8-bit than vvenc, use uvg266 recommended. Also for decoding, use vvdec and also it is faster decoding for older (possible) & newer computers.