Access
Priority access only after confirmation from the PI except for users from Institute Lorentz which get access automatically
Priority access to the partition can be requested via e-mail to the ALICE Helpdesk and with confirmation from the PI.
Users who belong to the group of E. Rossi need to be a member of the group
cpu_lorentz
and have access to the accountcpu_lorentz
you can check whether you a member of the group by running the command
id
on the command lineyou can check whether you have access to the account by running
sacctmgr show associations user=<username>
where<username>
should be replaced by your ALICE user name.
Other STRW LION users also do not have access through their STRW group and accountto the partition by default
Partition Settings
Partition settings can be changed to adjust the need of the group. Requests for changes can be done either by the PI or by a group member with confirmation from the PI and should be send to the ALICE Helpdesk.
Job submission
Members of the group of E. Rossi should
user should use their account
cpu_lorentz
for running jobs. This is necessary so that usage of this account does not impact the fairshare of other strw users.In your batch script, you have to add:
#SBATCH --account=cpu_lorentz
For other jobs on ALICE, your regular ALICE account is sufficient and you do not need to set this
should use the qos of their PI
You can check this with the following command (where
<username>
should be replaced by your ALICE username):
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sacctmgr show association user=<username> |
cpu_lorentz
without any specific settings.Software
AMD-specific software stack
Because this node uses AMD CPUs, it is recommended to use the AMD software stack if you want to make use of the modules available on ALICE.
The main ALICE software stack was compiled with Intel CPUs. It is possible that modules from the Intel software stack work on this node, but it is recommended to try the AMD software stack
New software can be added to the AMD software stack by contacting the ALICE Helpdesk.
To get a list of currently available modules in the AMD software stack when you are on a login node, use
module load ALICE/AMD
and thenmodule avail
If you want to go back to the Intel software stack, use
module load ALICE/Intel
For a Slurm batch script that you submit to
cpu_lorentz
, you can also usemodule load ALICE/default
which will load the correct software stack based on the CPU architecture of the node.You can include
module load ALICE/default
in all your batch scripts if you like
Your own scripts/programmes
Because a separate software stack is necessary for an AMD machine, you should not compile jobs with GNU-compilers or the likes on the login nodes which are Intel based
This is also the case for installing conda and Python virtual environment.
If you plan to make use of both the Intel and the AMD nodes, it might be necessary to setup two versions. Of course, you can always try out if only one version is necessary
You should always compile such scripts/software as part of a batch or interactive job
One way to do this is to create a short slurm batch job specifically for compiling your software, setting up your conda/Python environments, etc. If you only need to do this once, then there is no need to make this part of your production batch job.
Another option is to compile the first time you run your programme as part of a job. In this first job, you copy the compiled program back to your shared storage or home directory. For the next job, you use the already compiled version (see example below).
You can still use the login nodes for testing/debugging. In this case, you need to compile on the login nodes, run your test and for your job, compile on the compute node again.
Example
Here is an example of how a Slurm batch script could look like for using the node, including a HelloWorld OpenMP program to demonstrate the compiling and use of the local scratch storage.
If you are new to HPC, ALICE or Slurm, have a look at the https://pubappslu.atlassian.net/wiki/spaces/HPCWIKI/pages/5963809 first.
Batch script
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#!/bin/bash #SBATCH --partition=cpu_lorentz #SBATCH --account=cpu_lorentz #SBATCH --job-name=test_job #SBATCH --time=0-00:02:00 #SBATCH --output=%x_%j.out #SBATCH --nodes=1 #SBATCH --ntasks=5 #SBATCH --cpus-per-task=3 #SBATCH --mem=10G #SBATCH --mail-user="your-email-address" #SBATCH --mail-type="ALL" module load ALICE/default module load OpenMPI/4.0.5-GCC-9.3.0 echo "#### Test started" # return the name of the node echo "## Which node is this: $HOSTNAME" # check the number of cores (ntasks*cpus-per-task) echo "How many cores do I have access to: ${SLURM_CPUS_ON_NODE}" # Just to check that the AMD software stack is loaded echo "Am I loading the from the right module path" echo ${MODULEPATH%%:*} # get the current working directory CWD=$(pwd) echo "## Where am I: ${CWD}" # check out the nodes local scratch echo "## My local scratch space on the node is: ${SCRATCH}" cd $SCRATCH echo "## Let us go there: $(pwd)" # In case the file has already been compiled # and stored in $CWD, the following six lines # are not necessary echo "## Let us copy the C script to it" cp $CWD/omp_hello.c $SCRATCH/ echo "## Is the file there?" ls -la omp_hello.c echo "## Now we compile it on the node" gcc -o omp_hello_amd -fopenmp omp_hello.c # In case the file is already compiled # the next four lines would copy it # and check that it is there: #echo "## Let us copy the compiled C programme to it" #cp $CWD/omp_hello_amd $SCRATCH/ #echo "## Is the file there?" #ls -la omp_hello_amd echo "## Let us run it" export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASKS srun ./omp_hello_amd # Copy those files back to shared scratch or home # that should be kept for later. # Here, it is just the compiled C programme. # It does not need to be copied back of course # if it came from shared scratch or home. echo "## Saving files that should be saved." cp $SCRATCH/omp_hello_amd $CWD/ echo "## Now that this is done, I want to go home" cd $CWD echo "## Good to be back $(pwd)" echo "#### Test finished" |
OpenMP script
Here is the content of the file omp_hello.c from https://computing.llnl.gov/tutorials/openMP/samples/C/omp_hello.c
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/****************************************************************************** * * FILE: omp_hello.c * * DESCRIPTION: * * OpenMP Example - Hello World - C/C++ Version * * In this simple example, the master thread forks a parallel region. * * All threads in the team obtain their unique thread number and print it. * * The master thread only prints the total number of threads. Two OpenMP * * library routines are used to obtain the number of threads and each * * thread's number. * * AUTHOR: Blaise Barney 5/99 * * LAST REVISED: 04/06/05 * ******************************************************************************/ #include <omp.h> #include <stdio.h> #include <stdlib.h> int main (int argc, char *argv[]) { int nthreads, tid; /* Fork a team of threads giving them their own copies of variables */ #pragma omp parallel private(nthreads, tid) { /* Obtain thread number */ tid = omp_get_thread_num(); printf("Hello World from thread = %d\n", tid); /* Only master thread does this */ if (tid == 0) { nthreads = omp_get_num_threads(); printf("Number of threads = %d\n", nthreads); } } /* All threads join master thread and disband */ } |