start:working_on_mogon:io_odds_and_ends:slurm_localscratch

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start:working_on_mogon:io_odds_and_ends:slurm_localscratch [2020/10/19 13:51]
meesters [Copy files via job script]
start:working_on_mogon:io_odds_and_ends:slurm_localscratch [2021/06/10 17:21]
meesters
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 ====== Local Scratch Space ====== ====== Local Scratch Space ======
  
-On every node, there is local scratch space available to your running jobs that you should use if possible.+On every node, there is local scratch space available to your running jobs that you should use if required by your jobs IO-pattern.
 Every job can therefore use a directory called ''/localscratch/${SLURM_JOB_ID}/'' on the local disk. If a job array starts then this directory also called ''/localscratch/${SLURM_JOB_ID}/'', where the variable ''SLURM_ARRAY_TASK_ID'' is an index of a subjob in the job array and unrelated to ''$SLURM_JOB_ID'' Every job can therefore use a directory called ''/localscratch/${SLURM_JOB_ID}/'' on the local disk. If a job array starts then this directory also called ''/localscratch/${SLURM_JOB_ID}/'', where the variable ''SLURM_ARRAY_TASK_ID'' is an index of a subjob in the job array and unrelated to ''$SLURM_JOB_ID''
  
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 </callout> </callout>
  
-**Attention:** This is //not// a shared filesystem!\\ 
 If your job runs on multiple nodes, you cannot use the local scratch space on one node from the other nodes.\\ If your job runs on multiple nodes, you cannot use the local scratch space on one node from the other nodes.\\
 If you need your input data on every node, please refer to the section [[slurm_localscratch#Copy_files_via_job_script|"Copy files to multiple nodes via job script"]]. If you need your input data on every node, please refer to the section [[slurm_localscratch#Copy_files_via_job_script|"Copy files to multiple nodes via job script"]].
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 Assume you would normally start the program in the current working directory where it will read and write its data like this: Assume you would normally start the program in the current working directory where it will read and write its data like this:
 <code bash> <code bash>
-$ sbatch -N1 -p nodeshort ./my_program # mogonI +$ sbatch -N1 -p parallel ./my_program
-+
-$ sbatch -N1 -p parallel ./my_program # mogonII +
 </code> </code>
 Now to get the performance of local disk access, you want to use the aforementioned local scratch space on the compute node. Now to get the performance of local disk access, you want to use the aforementioned local scratch space on the compute node.
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 </code> </code>
  
-withing a submission script to signal the batch-job (instead of all the children of but not the batch job itselft). The reason is: If using a submission script like the one above, you trap the signal within the script, not the application. In case an application accepts a specific signal and you want to use this functionality, you can send the signal from within the script: +withing a submission script to signal the batch-job (instead of all the children of but not the batch job itselft). The reason is: If using a submission script like the one above, you trap the signal within the script, not the application. 
- +
-<code bash> +
-# list of process IDs (PIDs) to signal +
-QUEUE="" +
- +
-function queue { +
-  QUEUE="$QUEUE $1" +
-+
- +
-function forward_signal() { +
-  # this function might fulfill additional purposes, like +
-  # forwarding the signal, waiting a checkpoint to be written +
-  # and then copying the last checkpoint back to the parallel file system +
-   +
-  # just send the desired signal, e.g. SIGUSR2 +
-  kill -s SIGUSR2 $1 +
-+
- +
-# trap the signal within the bash script +
-# it is possible to connect several functions with a signal +
-trap 'forward_signal' SIGUSR2 +
- +
-# start the desired application(s) - note the & +
-eval "my command and its parameters &" +
-# store the PID of the desired application(s) +
-queue $!  +
-# The sequence above needs to be carried out for every application instance +
-# you want to be signalled. +
-</code>+
  
 </callout> </callout>
- 
- 
 ===== Copy files to multiple nodes via job script ===== ===== Copy files to multiple nodes via job script =====
  
 The following script can be used to ensure that input files are present in the job directory on **all** nodes.\\ The following script can be used to ensure that input files are present in the job directory on **all** nodes.\\
-This is required for e.g. [[software:namd2|NAMD2]], which in some cases reads input data on other nodes than the starting node. 
- 
-This script is very verbose, you might want to delete or comment out the ''echo'' lines. 
  
-Also, this script copies data from **all** nodes back into separate directories named ''${SAVEDPWD}/${SLURM_JOB_NODELIST}/${host}''+The demonstrated ''sbcast'' command can also be used for the one-node example above.
-\\If your application //only// needs to read on every node but does not write on every node, you want to use the cleanup function from the script posted above. The demonstrated ''sbcast'' command can also be used for the one-node example above.+
  
 <file bash job_multinode.sh> <file bash job_multinode.sh>
 #!/bin/bash #!/bin/bash
  
-#SBATCH -N 2 # assuming mogon I 'bulldozer' := 64 cores +#SBATCH -N 2  
-#SBATCH -J 'namd2_128' +use other parameterization as appropriate
-#SBATCH -p nodeshort +
-#SBATCH -mem 1800M+
  
 JOBDIR="/localscratch/${SLURM_JOB_ID}" JOBDIR="/localscratch/${SLURM_JOB_ID}"
-HOSTLIST=$(scontrol show hostname $SLURM_JOB_NODELIST | paste -d, -s | tr ',' ' ') 
-echo $HOSTLIST 
  
-# Store working directory to be safe 
-SAVEDPWD=$(pwd) 
-  
-# We define a bash function to do the cleaning when the signal is caught 
-cleanup() { 
-     sbcast ${JOBDIR}/resultfile ${SAVEDPWD}/${SLURM_JOB_ID}/resultfile 
-     exit 0 
-} 
-  
-# Register the cleanup function when SIGUSR2 is sent, 
-# ten minutes before the job gets killed 
-trap 'cleanup' SIGUSR2 
  
 # copy the input file on all nodes # copy the input file on all nodes
-sbcast ${HOME}/NAMD_2.9/apoa1.namd $JOBDIR/apoa1.namd +sbcast <somefile> $JOBDIR/<somefile>
-# some applications only need the file on the 'master' node +
-# in this case you can restrict yourself to: +
-cp ${HOME}/NAMD_2.9/apoa1.namd $JOBDIR/apoa1.namd+
  
-Go to jobdir and start the program +NOTE: Unlike 'cp' which accepts a directory and would assume that  
-cd "${JOBDIR}" +#       the destination file carries the same name, 'sbcast' 
-  +#       requires that a filename is given for the destination.
-$@ "${JOBDIR}/apoa1.namd"+
  
-# Call the cleanup function when everything went fine 
-cleanup 
 </file> </file>
  
-This script is used as follows: 
  
-<code bash> 
-$ chmod +x ./job_multinode.sh 
-$ namd2 # after loading the appropriate module 
-</code> 
  
  • start/working_on_mogon/io_odds_and_ends/slurm_localscratch.txt
  • Last modified: 2022/06/20 18:05
  • by meesters