Jetson/Installing OpenCV

Prebuilt OpenCV library versus Building the OpenCV library from source
There are two options for getting the OpenCV library:
 * prebuilt library: The Jetson TK1 Support Page contains .deb packages for the prebuilt OpenCV library that you can simply install onto your device using "sudo dpkg -i ".
 * building the library from source: If you want the latest OpenCV code, or you want to customize the OpenCV library, then follow the instructions below to compile the OpenCV library from source code.

Native vs Cross-development
Just like with the CUDA development guide, you have two options for developing OpenCV applications for Jetson TK1:
 * native compilation (compiling code onboard the Jetson TK1)
 * cross-compilation (compiling code on an x86 desktop in a special way so it can execute on the Jetson TK1 target device).

Native compilation is generally the easiest option, but takes longer to compile, whereas cross-compilation is typically more complex to configure and debug, but for large projects it will be noticeably faster at compiling.

Natively compiling the OpenCV library from source onboard the device
First you should download & install the CUDA Toolkit by following the Installing CUDA instructions.

If you haven't added the "universal" repository to Ubuntu, then do it now: sudo add-apt-repository universe sudo apt-get update Now you need to install many libraries: sudo apt-get install build-essential make cmake cmake-curses-gui g++ sudo apt-get install libavformat-dev libavutil-dev libswscale-dev sudo apt-get install libv4l-dev sudo apt-get install libglew1.6-dev sudo apt-get install libeigen3-dev
 * 1) Some general development libraries
 * 1) libav video input/output development libraries
 * 1) Video4Linux camera development libraries
 * 1) OpenGL development libraries (to allow creating graphical windows)
 * 1) Eigen3 math development libraries

Download the source code of OpenCV for Linux onto the device. eg: Open a web-browser to "www.opencv.org" & click on "OpenCV for Linux/Mac", or from the command-line you can run this on the device: wget http://downloads.sourceforge.net/project/opencvlibrary/opencv-unix/2.4.9/opencv-2.4.9.zip

Install the GTK development package so that OpenCV will be able to create GUI windows (such as if you attac a HDMI screen to your board): sudo apt-get install libgtk2.0-dev

Unzip the OpenCV source code: cd Downloads unzip opencv-2.4.9.zip mv opencv-2.4.9 ~

Configure OpenCV using CMake: cd ~/opencv-2.4.9 mkdir build cd build cmake -DWITH_CUDA=ON -DCUDA_ARCH_BIN="3.2" -DCUDA_ARCH_PTX="" -DBUILD_TESTS=OFF -DBUILD_PERF_TESTS=OFF ..

If you want to customize any more of the build settings such as whether to support Firewire cameras or Qt GUI, it is easiest to use the curses interactive version of CMake from here on: ccmake .. (Change any settings you want, then click Configure and Generate).

Now you should be ready to build OpenCV and then install it. Unfortunately, OpenCV is currently experiencing a problem with CMake where installing the built libraries (that normally takes a few seconds) re-compiles the whole OpenCV (that normally takes close to an hour). So to save time, instead of running "make -j4 ; make install", we will build & install OpenCV using a single command.

To build & install the OpenCV library using all 4 Tegra CPU cores (takes around 40 minutes), copying the OpenCV library to "/usr/local/include" and "/usr/local/lib": sudo make -j4 install

Make sure your system searches the "/usr/local/lib" folder for libraries: echo "# Use OpenCV and other custom-built libraries." >> ~/.bashrc echo "export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/usr/local/lib/" >> ~/.bashrc source ~/.bashrc

Compile & run a few of the OpenCV sample programs. For simple programs you can just link to a few OpenCV libs, but for other programs you might as well link to all the OpenCV libs: cd ~/opencv-2.4.9/samples/cpp g++ edge.cpp -lopencv_core -lopencv_imgproc -lopencv_highgui -o edge ./edge
 * 1) Test a simple OpenCV program. Creates a graphical window, hence you should plug a HDMI monitor in or use a remote viewer such as X Tunneling or VNC or TeamViewer on your desktop.

g++ laplace.cpp -lopencv_core -lopencv_imgproc -lopencv_highgui -lopencv_calib3d -lopencv_contrib -lopencv_features2d -lopencv_flann -lopencv_gpu -lopencv_legacy -lopencv_ml -lopencv_nonfree -lopencv_objdetect -lopencv_photo -lopencv_stitching -lopencv_superres -lopencv_video -lopencv_videostab -o laplace ./laplace
 * 1) If you have a USB webcam plugged in to your board, then test one of the live camera programs.

cd ../gpu g++ houghlines.cpp -lopencv_core -lopencv_imgproc -lopencv_highgui -lopencv_calib3d -lopencv_contrib -lopencv_features2d -lopencv_flann -lopencv_gpu -lopencv_legacy -lopencv_ml -lopencv_nonfree -lopencv_objdetect -lopencv_photo -lopencv_stitching -lopencv_superres -lopencv_video -lopencv_videostab -o houghlines ./houghlines ../cpp/logo_in_clutter.png
 * 1) Test a GPU accelerated OpenCV sample.

If the houghlines GPU sample program worked then you have successfully installed OpenCV and its GPU module!

Getting to know OpenCV
Now you can start building your own projects using OpenCV on CPU and GPU, such as by following the Using OpenCV with gcc and CMake introduction tutorial then following many of the official OpenCV Tutorials, playing with the sample GPU programs in the samples/gpu folder of OpenCV and the many sample CPU programs in the samples/cpp folder. To get offline documentation and tutorials of OpenCV, the easiest way is to download the OpenCV Reference Manual PDF file, or if you want offline HTML docs then try building it: sudo apt-get install python sphinx-common python-sphinx texlive-binaries make html_docs Then open the "doc/_html/index.html" page.

You can learn more about NVIDIA's Tegra hardware acceleration of OpenCV on the OpenCV Performance page.