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Parallel Programming Course

The following parallel programming technologies are considered in practice:

  • MPI
  • OpenMP
  • TBB
  • std::thread

Rules for submissions

  1. You are not supposed to trigger CI jobs by frequent updates of your pull request. First you should test you work locally with all the scripts (code style)
    • Respect others time and don't slow down the job queue
  2. Carefully check if the program can hang

1. Set up your environment

Static analysis of project

  • Windows (MSVC):

Unsupported operating system!

  • Linux (gcc and clang):
sudo apt install cppcheck
  • MacOS (apple clang):
brew install cppcheck

Code style analysis

Please, follow Google C++ Style Guide.

pip install cpplint # (Python3)

Parallel programming technologies

MPI

  • Windows (MSVC):

Installers link. You have to install msmpisdk.msi and msmpisetup.exe.

  • Linux (gcc and clang):
sudo apt install mpich
sudo apt install openmpi-bin
sudo apt install libopenmpi-dev
  • MacOS (apple clang):
brew install open-mpi

OpenMP

OpenMP is included into gcc and msvc, but some components should be installed additionally:

  • Linux (gcc and clang):
sudo apt install libomp-dev
  • MacOS (apple clang): The system is completely unstable thus you are not recommended to use it with OpenMP!
brew install libomp

TBB

  • Windows (MSVC):

CMake installs TBB while you run cmake for that project on Windows.

  • Linux (gcc and clang):
sudo apt-get install libtbb-dev
  • MacOS (apple clang):
brew install tbb

std::thread

  • std::thread is included into STL libraries.

2. Build the project with CMake

Navigate to a source code folder.

  1. Configure the build: Makefile, .sln, etc.
mkdir build && cd build
cmake -D USE_SEQ=ON \
      -D USE_MPI=ON \
      -D USE_OMP=ON \
      -D USE_TBB=ON \
      -D USE_STD=ON \
      -D USE_STYLE_CHECKER=ON ..

Help on CMake keys:

  • -D USE_SEQ=ON enable Sequential labs (based on OpenMP's CMakeLists.txt).
  • -D USE_MPI=ON enable MPI labs.
  • -D USE_OMP=ON enable OpenMP labs.
  • -D USE_TBB=ON enable TBB labs.
  • -D USE_STD=ON enable std::thread labs.
  • -D USE_STYLE_CHECKER=ON enable style check with build project.

A corresponding flag can be omitted if it's not needed.

  1. Build the project:
cmake --build . --config RELEASE
  1. Check the task
  • Run <project's folder>/build/bin

3. How to submit you work

  • There are task_1, task_2, task_3, task_4 folders in modules directory. There are 4 tasks for the semester. Move to a folder of your task. Make a directory named <last name>_<first letter of name>_<short task name>. Example: task1/nesterov_a_vector_sum.

  • Go into the newly created folder and begin you work on the task. There must be only 4 files and 3 of them must be written by you:

    • main.cpp - google tests for the task. The number of tests must be 5 or greater.
    • vector_sum.h - a header file with function prototypes, name it in the same way as <short task name>.
    • vector_sum.cpp - the task implementation, name it in the same way as <short task name>.
    • CMakeLists.txt - a file to configure your project. Examples for each configuration can be found in test_tasks.
  • The number of directories will increase with time. To build only your project, you need to do the following:

    cmake --build . --target <name task's directory>_<name_technology> --config RELEASE
    

    Example:

    cmake --build . --target nesterov_a_vector_sum_mpi --config RELEASE
    
  • Name your pull request in the following way:

    • for tasks:
    <Фамилия Имя>. Задача <Номер задачи>. Вариант <Номер варианта>. <Полное название задачи>.
    Нестеров Александр. Задача 1. Вариант 123. Сумма элементов вектора.
    
  • Provide the full task definition in pull request's description.

    Example pull request is located in repo's pull requests.

  • Work on your fork-repository. Keep your work on a separate branch and NOT on master!!!. Name you branch in the same way as your task's folder. To create a branch run:

    git checkout -b nesterov_a_vector_sum
    

Failing to follow the rules makes the project build red.

And finally,

All information of the course is in wiki page!!!

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  • CMake 64.6%
  • C++ 25.9%
  • Shell 4.5%
  • Python 3.6%
  • Batchfile 1.4%