Raspberry Pi is excited to bring the Khronos OpenVX 1.3 API to our line of single-board computers. Here’s Kiriti Nagesh Gowda, AMD‘s MTS Software Development Engineer, to tell you more.
OpenVX for computer vision
Now with added Raspberry Pi
The Khronos Group and Raspberry Pi have come together to work on an open-source implementation of OpenVX™ 1.3, which passes the conformance on Raspberry Pi. The open-source implementation passes the Vision, Enhanced Vision, & Neural Net conformance profiles specified in OpenVX 1.3 on Raspberry Pi.
Application developers may always freely use Khronos standards when they are available on the target system. To enable companies to test their products for conformance, Khronos has established an Adopters Program for each standard. This helps to ensure that Khronos standards are consistently implemented by multiple vendors to create a reliable platform for developers. Conformant products also enjoy protection from the Khronos IP Framework, ensuring that Khronos members will not assert their IP essential to the specification against the implementation.
OpenVX enables a performance and power-optimized computer vision processing, especially important in embedded and real-time use cases such as face, body, and gesture tracking, smart video surveillance, advanced driver assistance systems (ADAS), object and scene reconstruction, augmented reality, visual inspection, robotics, and more. The developers can take advantage of using this robust API in their application and know that the application is portable across all the conformant hardware.
Below, we will go over how to build and install the open-source OpenVX 1.3 library on Raspberry Pi 4 Model B. We will run the conformance for the Vision, Enhanced Vision, & Neural Net conformance profiles and create a simple computer vision application to get started with OpenVX on Raspberry Pi.
OpenVX 1.3 implementation for Raspberry Pi
The OpenVX 1.3 implementation is available on GitHub. To build and install the library, follow the instructions below.
Build OpenVX 1.3 on Raspberry Pi
Git clone the project with the recursive flag to get submodules:
git clone --recursive https://github.com/KhronosGroup/OpenVX-sample-impl.git
Note: The API Documents and Conformance Test Suite are set as submodules in the sample implementation project.
Use the Build.py script to build and install OpenVX 1.3:
cd OpenVX-sample-impl/ python Build.py --os=Linux --venum --conf=Debug --conf_vision --enh_vision --conf_nn
Build and run the conformance:
export OPENVX_DIR=$(pwd)/install/Linux/x32/Debug export VX_TEST_DATA_PATH=$(pwd)/cts/test_data/ mkdir build-cts cd build-cts cmake -DOPENVX_INCLUDES=$OPENVX_DIR/include -DOPENVX_LIBRARIES=$OPENVX_DIR/bin/libopenvx.so\;$OPENVX_DIR/bin/libvxu.so\;pthread\;dl\;m\;rt -DOPENVX_CONFORMANCE_VISION=ON -DOPENVX_USE_ENHANCED_VISION=ON -DOPENVX_CONFORMANCE_NEURAL_NETWORKS=ON ../cts/ cmake --build . LD_LIBRARY_PATH=./lib ./bin/vx_test_conformance
Use the open-source samples on GitHub to test the installation.