Parallel Jobs with MPI

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To compile a program load the module for the desired MPI library (or a toolchain that includes such library). E.g:

module load intel/2016b

for Intel MPI (this is in fact the Intel toolchain, so also includes Intel MKL), or

module load OpenMPI/2.0.2-GCC-5.4.0

for OpenMPI (built with GCC/5.4.0, which is loaded automatically).

Once the module is loaded you can compile your MPI program in the usual way. For example, the program mpi_heat2D.c can be compiled with:

mpicc mpi_heat2D.c -o mpi_heat2D_icc

Note that the executable will only work for the MPI library it has been compiled with (and therefore the appedices _icc and _gcc are used in the examples below to avoid confusion).

Requesting Resources

The resources for a parallel job are requested as always. The number of parallel MPI-processes is typically equal to the number of requested tasks. The number of tasks can be requested directly:

#SBATCH --ntasks=72

which will distribute the tasks as resources are available while trying to minimize the number of nodes. For more control you can use

#SBATCH --nodes=6

which will distribute the tasks on the requested number of nodes, but not necessarily evenly. To get that use --nodes together with

#SBATCH --ntasks-per-node=12

which requests the total number of tasks as the product of nodes and tasks per node. Note that --ntasks and --ntasks-per-node are mutually exclusive (or at least should not contradict each other).

If you would like to use all requested nodes exclusively for your job you can simply request as max tasks per node as cores are available. If that is not possible add

#SBATCH --exclusive

to your job script.

Regarding memory, it is probably best to use e.g.

#SBATCH --mem-per-cpu=4G

to request the memory on a per task basis. If you requesting complete nodes (all cores) with --ntasks-per-node you could even omit the memory request as you would get all node's memory allocated per default. This is not the case with --exclusive=true when using less than the maximum number of cores per node.

Note that using

#SBATCH --cpus-per-task

will not work for MPI-parallel programs unless each MPI-process is creating a number of threads, e.g. if you have a hyprid-MPI/OpenMP program.

Running MPI-parallel programs

There are several ways of running an MPI-parallel program and the details depend on the MPI library used. Details are explained here. Make sure that the module for the correct MPI library is loaded. All MPI libraries are SLURM-aware meaning they know about the number of tasks and the allocated nodes.

Intel MPI

Within the job script you can use mpirun (oder mpiexec.hydra) to start your MPI application:

mpirun [-bootstrap slurm] [-n <num_procs>] ./mpi_heat2d_icc

Note that the [...] indicate optional command-line arguments.

Alternatively, you could also use srun with

export I_MPI_PMI_LIBRARY=/cm/shared/apps/slurm/current/lib64/
srun [-n <num_procs> ./mpi_heat2D_icc

Note, that setting the environment variable I_MPI_PMI_LIBRARY prevents the use of mpirun.


Likewise to Intel MPI, you can use either mpirun or srun, e.g.

mpirun [-n <num_procs>] ./mpi_heat2d_gcc

where again you can omit the optional argument to set the number of processes (note, that OpenMPI does not provide a bootstrap option).

Using srun:

srun [-n <num_procs>] ./mpi_heat2d_gcc

srun vs. mpirun

There is no clear recommendation to use srun or mpirun.