Wiki

Clone wiki

x265_git / Home

x265LogoSmall.png

x265 HEVC Encoder

Release tarballs

Source release zip files can be downloaded from ftp.videolan.org or x265 Downloads page

MD5 (x265_2.9.tar.gz) = 693ee4ce7929a59735f441107310f0bb
MD5 (x265_3.0.tar.gz) = 8ff1780246bb7ac8506239f6129c04ec
MD5 (x265_3.1.tar.gz) = c2c0455ca52772a24e7a37a8da42cd41
MD5 (x265_3.1.1.tar.gz) = 248a4cdbd93e9a493c78ef0c07863b34
MD5 (x265_3.1.2.tar.gz) = a528ab27660d6bcfc46188ae602b3c2e
MD5 (x265_3.2.tar.gz) = 374e6359a00d17fd82195c02c341c861
MD5 (x265_3.2.1.tar.gz) = 94808045a34d88a857e5eaf3f68f4bca
MD5 (x265_3.3.tar.gz) = 0c8c747b59b5411dea8cf557554636c1
MD5 (x265_3.4.tar.gz) = e37b91c1c114f8815a3f46f039fe79b5
MD5 (x265_3.5.tar.gz) = deb5df5cb2ec17bdbae6ac6bbc3b1eef

Building x265

To compile x265 you must first install Git and CMake 2.8.8 or later. To ensure your build of x265 is capable of full performance, install YASM 1.2.0 or newer if you are using x265 v2.6 or older, or NASM 2.13 or newer if you are compiling from the default branch to compile assembly primitives. Then follow these easy steps:

For detailed instructions, consult our build README. Basic instructions are outlined below.

Linux Instructions

# ubuntu packages:
$ sudo apt-get install git-all cmake cmake-curses-gui build-essential yasm
# Note: if the packaged yasm is older than 1.2, you must download yasm (1.3 recommended) and build it
# If you are compiling off the default branch after release of v2.6, you must have nasm (2.13 or newer) installed and added to your path

$ git clone https://bitbucket.org/multicoreware/x265_git.git
$ cd x265/build/linux
$ ./make-Makefiles.bash
$ make

The primary target that we support is x86. x265 can also be built on linux platforms on ARM and POWERPC targets using the same build insructions above (exclude yasm from the list of packages on these targets). Our support for these platforms is growing as our user base on these platforms increase.

We also support cross-compilation for ARM targets from linux platforms on x86 targets by using the g++ arm cross-compiler. This has been tested on Ubuntu linux 14.04 running on an x86 CPU. On other distributions, package names and names of cross compilation tools may differ. This is an experimental feature, and has undergone very limited testing.

$ sudo apt-get install git-all cmake cmake-curses-gui build-essential gcc-arm-linux-gnueabi g++-arm-linux-gnueabi
$ git clone https://bitbucket.org/multicoreware/x265_git.git
$ cd x265/build/arm-linux
$ ./make-Makefiles.bash
$ make

Windows (Visual Studio) Instructions

$ git clone https://bitbucket.org/multicoreware/x265_git.git

Then run make-solutions.bat in the build\ folder that corresponds to your favorite compiler, configure your build options, click 'configure', click 'generate', then close cmake-gui. You will be rewarded with an x265.sln file. Also see cmake documentation.

Mac OS X

The latest Mac OS X 10.8 gcc and clang based compilers can build x265 using the linux instructions above. Xcode 5 with the most recent patches can build, debug, and profile x265.

Intel Compiler Instructions

On Windows, after installing the Intel C-compiler, right-click on the 'Solution x265' inside the solution explorer window, select 'Intel Compiler -> Use Intel C++', and rebuild x265.

On Linux, you can tell cmake to build Makefiles for icpc directly. This requires you to have configured the Intel compiler environment (by sourcing the appropriate shell script). For example:

$ source /opt/intel/composerxe/bin/compilervars.sh intel64
$ cd repos/x265/build/linux
$ export CMAKE_CXX_COMPILER=icpc
$ export CMAKE_CC_COMPILER=icc
$ ./make-Makefiles
$ make

Multilib build instructions

Applications like ffmpeg and the x265 CLI which use our bit-depth introspection API (x265_api_get) instead of the globally exported C interface can select between 8 and 10bit libx265 libraries at runtime. To support this both libraries must be available either as shared libraries or as a pair of static libraries.

For shared libraries, just rename your 10bit libx265 as libx265_main10.[so|dll|dylib] and place it into your library load path.

For static libraries, you must disable the exported C APIs, since they would conflict with each other. For linux/Mac, you can use or adapt the build/linux/multilib.sh script. For Windows, there are similar vc*-x86_64/multilib.bat files that demonstrate how combined static libraries can be built.

See also multilib docs.

Command line interface

The Makefile/solution builds a static encoder.lib library and a standalone x265 executable that aims to be similar to x264 in its command line interface. Running without arguments shows you the command line help. See also the online documentation

Updated