The following parallel programming technologies are considered in practice:
MPIOpenMPTBBstd::thread
- 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
- Carefully check if the program can hang
git submodule update --init --recursive
- Windows (MSVC):
Unsupported operating system!
- Linux (
gccandclang):
sudo apt install cppcheck
- MacOS (apple clang):
brew install cppcheck
Please, follow Google C++ Style Guide.
pip install cpplint # (Python3)
- Windows (MSVC):
Installers link. You have to install msmpisdk.msi and msmpisetup.exe.
- Linux (
gccandclang):
sudo apt install mpich
sudo apt install openmpi-bin
sudo apt install libopenmpi-dev
- MacOS (apple clang):
brew install open-mpi
OpenMP is included into gcc and msvc, but some components should be installed additionally:
- Linux (
gccandclang):
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
- Windows (
MSVC):
CMake installs TBB while you run cmake for that project on Windows.
- Linux (
gccandclang):
sudo apt-get install libtbb-dev
- MacOS (apple clang):
brew install tbb
std::threadis included into STL libraries.
Navigate to a source code folder.
- 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=ONenableSequentiallabs (based on OpenMP's CMakeLists.txt).-D USE_MPI=ONenableMPIlabs.-D USE_OMP=ONenableOpenMPlabs.-D USE_TBB=ONenableTBBlabs.-D USE_STD=ONenablestd::threadlabs.-D USE_STYLE_CHECKER=ONenable style check with build project.
A corresponding flag can be omitted if it's not needed.
- Build the project:
cmake --build . --config RELEASE
- Check the task
- Run
<project's folder>/build/bin
-
There are
task_1,task_2,task_3,task_4folders inmodulesdirectory. 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 intest_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 RELEASEExample:
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!!!