How-to Submit a MPI Job
General Principles
Jobs that run on multiple nodes generally use a parallel programming API called MPI (Message Passing Interface), which allows processes on multiple nodes to communicate with high throughput and low latency (especially over Talapas' InfiniBand network). MPI is a standard and has multiple implementations—several are available on Talapas, notably Intel MPI and MPICH.
The Slurm scheduler has built-in support for MPI jobs. Jobs can be run in a generic way, or if needed, you can use extra parameters to carefully control how MPI processes are mapped to the hardware.
Most parts of job setup are the same for all MPI flavors. Notably, you'll want to decide how many simultaneous tasks (processes) you want to run your job across.
Specifying Node and Task Counts
You can simply specify the number of tasks and let Slurm place them on available nodes as it sees fit, for example:
#SBATCH --partition=compute
#SBATCH --ntasks=500
#SBATCH --ntasks-per-core=1
#SBATCH --mem-per-cpu=500m
#SBATCH --constraint=7713
With this approach the job will probably be scheduled sooner since Slurm is free to use any available cores. It’s recommended to keep the job tied to cores of the same type through use of Slurm’s --constraint
flag.
Another method is to specify the number nodes you want the job to run on and how many tasks to run on each node.
#SBATCH --partition=compute_intel
#SBATCH --nodes=3
#SBATCH --ntasks-per-node=28
#SBATCH --mem-per-cpu=500m
#SBATCH --constraint=intel,e5-2690
This will result in an MPI job with 84 processes (28 processes on each of the 3 nodes). In this case, we've specified 28 tasks per node with the knowledge that our constraint of ‘intel,e5-2690’ will allocate only nodes which have 28 CPU cores to the job.Â
See sinfo -o "%10R %8D %25N %8c %10m %40f %35G"
for a complete list of nodes properties and features relative to their partitions.
Also see /packages/racs/bin/slurm-show-features
Memory
For single-node jobs use the Slurm --mem
flag to specify the amount of memory to allocate to the job.Â
For multi-node jobs use the Slurm --mem-per-cpu
flag to specify the amount of memory available to allocate to each task.
Slurm Invocation
Slurm provides two slightly different ways to invoke your MPI program.Â
The preferred way is to invoke it directly with the
srun
command within yoursbatch
script.ÂAn alternative is to invoke it using the
mpirun/mpiexec
program within yoursbatch
script.Â
See the Slurm MPI guide for more information.
MPI compilers
Intel
To access Intel OneAPI MPI compilers,
module load intel-oneapi-compilers/2023.1.0
module load intel-oneapi-mpi/2021.9.0
mpiicc helloworld_mpi.c -o helloworld_mpi.x
Batch script example useingsrun
:
MPICH
GNU + MPICH
To access MPICH MPI compilers,
Pitfalls
Choosing parameters for MPI job submission can unfortunately be rather complicated. One pitfall you may encounter is failing to make use of all requested CPU cores, leading to needlessly long job times and wasted resources. To verify that all is well, check that you are getting significant speedups with increasing process count. If your jobs don't run faster when you add cores, something is probably wrong. You can also log into the compute nodes while your job is running to observe the processes and check that compute-bound processes are using 100% CPU; the htop
command is useful here.
One combination that we've seen work quite poorly is specifying --nodes
and --ntasks
(with no --ntasks-per-node
). This seems to sometimes lead to the above wasted-resource problem.
If you have concerns, please reach out to us—we'd be happy to check for problems and make recommendations.
Also see sbatch script parameters for more information.
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