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build_linux.md

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Build OpenVINO™ Runtime for Linux systems

The software was validated on:

  • Ubuntu 18.04 (64-bit) with default GCC 7.5.0
  • Ubuntu 20.04 (64-bit) with default GCC 9.3.0
  • Red Hat Enterprise Linux 8.2 (64-bit) with default GCC 8.5.0

NOTE: To build on CentOS 7 (64-bit), refer to Building OpenVINO on CentOS 7 Guide

Software requirements

  • CMake 3.13 or higher
  • GCC 7.5 or higher to build OpenVINO Runtime
  • Python 3.9 - 3.12 for OpenVINO Runtime Python API
  • (Optional) Install Intel® Graphics Compute Runtime for OpenCL™ Driver package to enable inference on Intel integrated GPUs.

How to build

  1. Clone OpenVINO repository and init submodules:

    git clone https://github.com/openvinotoolkit/openvino.git
    cd openvino
    git submodule update --init --recursive

    (Optional) For users in China, clone submodules via gitee mirrors

    chmod +x scripts/submodule_update_with_gitee.sh
    ./scripts/submodule_update_with_gitee.sh
  2. Install build dependencies using the install_build_dependencies.sh script in the project root folder.

    sudo ./install_build_dependencies.sh
  3. Create a build folder:

      mkdir build && cd build

NOTE: It is recommended to disable the oneAPI environment before compiling OpenVINO from source on Linux, as it may cause build failures.

  1. OpenVINO Runtime uses a CMake-based build system. In the created build directory, run cmake to fetch project dependencies and create Unix makefiles, then run make to build the project:
      cmake -DCMAKE_BUILD_TYPE=Release ..
      cmake --build . --parallel
    The process may take some time to finish. If you are using a system with limited resources, it is recommended to specify a lower number of parallel jobs to avoid overloading your system. This can help maintain system responsiveness and stability during the build process. Use nproc to find the number of available processing units. For example, to use 8 parallel jobs, run the following command:
    cmake --build . --parallel 8

Additional Build Options

You can use the following additional build options:

  • For IA32 operation systems, use ia32.linux.toolchain.cmake CMake toolchain file:

    cmake -DCMAKE_TOOLCHAIN_FILE=<openvino_repo>/cmake/toolchains/ia32.linux.toolchain.cmake ..
  • OpenVINO offers several CMake options that can be used to build a custom OpenVINO runtime, which can speed up compilation. These options allow you to skip compilation of other plugins and frontends by disabling/enabling them. You can find a list of available options here

  • To build the OpenVINO Runtime Python API:

    1. Enable the -DENABLE_PYTHON=ON option in the CMake step above (Step 4). To specify an exact Python version, use the following options (requires cmake 3.16 and higher):
      -DPython3_EXECUTABLE=/usr/bin/python3.9
      
    2. To build a wheel package (.whl), enable the -DENABLE_WHEEL=ON option in the CMake step above (Step 4), and install requirements:
      pip install -r <openvino source tree>/src/bindings/python/wheel/requirements-dev.txt
    3. After the build process finishes, export the newly built Python libraries to the user environment variables:
      export PYTHONPATH=<openvino_repo>/bin/intel64/Release/python:<openvino_repo>/tools/ovc:$PYTHONPATH
      export LD_LIBRARY_PATH=<openvino_repo>/bin/intel64/Release:$LD_LIBRARY_PATH
      export PATH=<openvino_repo>/tools/ovc/openvino/tools/ovc:$PATH
      
      or install the wheel with pip:
      pip install <openvino_repo>/build/wheel/openvino-2022.2.0-000-cp37-cp37-manylinux_2_35_x86_64.whl
      

See also