Get Started with Intel® MPI Library for Intel® oneAPI on Windows* OS
The Intel® MPI Library enables you to create, maintain, and test advanced applications that have performance advantages on high-performance computing (HPC) clusters based on Intel® processors.
The Intel MPI Library is available as a standalone product and as part of the Intel® HPC Toolkit.The Intel MPI Library is a multi-fabric message passing library that implements the Message Passing Interface, version 3.1 (MPI-3.1) specification. Use the library to develop applications that can run on multiple cluster interconnects.
The Intel MPI Library has the following features:
- Low overhead enables analysis of large amounts of data
- MPI tuning utility for accelerating your applications
- Interconnect independence and flexible runtime fabric selection
The product consists of the following main components:
- Compilation tools, including compiler drivers such as mpiicc and mpifort
- Include files and modules
- Dynamic (.dll) libraries, debug libraries, interface libraries, and program database(.pdb) files
- Process Manager and tools to run programs
- Test code
- Documentation provided as a separate package or available from the Intel Developer Zone
Intel MPI Library also includes Intel® MPI Benchmarks, which enable you to measure MPI operations on various cluster architectures and MPI implementations. For details, see the Intel® MPI Benchmarks User Guide. Source code is available in the GitHub repository.
Key Features
The Intel MPI Library has the following major features:
- MPI-1, MPI-2.2 and MPI-3.1 specification conformance
- Interconnect independence
Supported Languages:
- For GNU* compilers: C, C++, Fortran 77, Fortran 95
- For Intel® compilers: C, C++, Fortran 77, Fortran 90, Fortran 95
Building and Running MPI Programs
Compiling an MPI Program
1. Run the setvars.bat script to set the environment variables for the Intel MPI Library. The script is located in the installation directory (by default, C:\Program Files (x86)\Intel\oneAPI).
2. Make sure you have the desired compiler installed and configured properly. For example, for the Intel® C++ Compiler, run:
> icl
If the command is not recognized, add the compiler to your PATH. For the Intel® compilers, you can run the vars.bat script from corresponding directory.
3. Compile your program using the appropriate compiler driver. For example, for a test C program:
> mpiicc -o test.exe <install-dir>\test\test.c
For detailed system requirements, see Intel® MPI Library System Requirements.
Running an MPI Program
Execute the program using the mpiexec command. For example, for the test program:
> mpiexec -n <# of processes> test.exe
To specify the hosts to run the program on, use the -hosts option:
> mpiexec -n <# of processes> -ppn <# of processes per node> -hosts <host1>,<host2>,...,<hostN> test.exe
Troubleshooting
If you encounter problems when using Intel MPI Library, go through the following general procedures to troubleshoot them:
- Check known issues and limitations in the Release Notes.
- Check hosts accessibility. Run a simple non-MPI application (for example, hostname utility) on the problem hosts with mpiexec. This check helps you reveal an environmental problem , or connectivity problem (for example, unreachable hosts).
- Run the MPI application with debug information enabled. To enable the debug information, set the environment variable I_MPI_DEBUG=6. You can also set a different debug level to get more detailed information. This action helps you find the problem component.
See more details in the “Troubleshooting” section of the Developer Guide.
More Resources
- Release Notes: Up-to-date information about the product including: what's new, key features, and known limitations.
- Online Documentation: Links to all available Intel MPI Library documents.
- Support: Find links to the HPC Toolkit Community Forum, Support requests, and more.
- Intel DevCloud: Develop, test, and run your workloads for free on a cluster of the latest Intel® hardware and software.