Running Jobs on Sapelo2

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Note: This page is for using new queueing system on the Sapelo2 cluster. This page is still under development as of June 4, 2020.

If you are current Sapelo2 users, please refer to Running Jobs on Sapelo2 for instructions on how to run jobs on Sapelo2.


Using the Queueing System

The login node for the Sapelo2 cluster should be used for text editing, and job submissions. No jobs should be run directly on the login node. Processes that use too much CPU or RAM on the login node may be terminated by GACRC staff, or automatically, in order to keep the cluster running properly. Jobs should be run using the Slurm queueing system. The queueing system should be used to run both interactive and batch jobs.


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Batch Queues defined on the Sapelo2

There are different queues defined on Sapelo2. The SLURM queueing system refers to queues as partition. Users are required to specify, in the job submission script or as job submission command line arguments, the queue and the resources needed by the job in order for it to be assigned to compute node(s) that have enough available resources (such as number of cores, amount of memory, GPU cards, etc).

The table below summarizes the partitions (queues) defined and the compute nodes that they target:

Queue Name Node Type Node Number Description Notes
batch Intel 37 12-core, 48GB RAM, Intel Xeon Regular nodes.
batch Intel 2 8-core, 48GB RAM, Intel Xeon Regular nodes.
highmem AMD 2 48-core, 128GB RAM, AMD Opteron For high memory jobs.
highmem Intel 3 8-core, 192GB RAM, Intel Xeon For high memory jobs.
gpu GPU, M2070 1 12-core, 48GB RAM, Intel Xeon, 8 NVIDIA M2070 GPUs For GPU-enabled jobs.
interq AMD 3 32-core, 64GB RAM, AMD Opteron For interactive jobs.

You can check all partitions (queues) defined in the cluster with the command

sinfo

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Job submission Scripts

Users are required to specify the number of cores, the amount of memory, the queue name, and the maximum wallclock time needed by the job.

Header lines

Basic job submission script

At a minimum, the job submission script needs to have the following header lines:

#!/bin/bash
#SBATCH --partition=batch
#SBATCH --job-name=test
#SBATCH --ntasks=1
#SBATCH --time=2:00:00
#SBATCH --mem=2gb

Commands to run your application should be added after these header lines.

Header lines explained

  • #!/bin/bash : used to specify using /bin/bash shell
  • #SBATCH --partition=batch : used to specify the partition (queue) name, e.g. batch
  • #SBATCH --job-name=test : used to specify the name of the job, e.g. test
  • #SBATCH --ntasks=1 : used to specify the number of tasks (e.g. 1).
  • #SBATCH --time=2:00:00 : used to specify the maximum allowed wall clock time in dd:hh:mm:ss format for the job (e.g 2h).
  • #SBATCH --mem=2gb : used to specify the maximum memory allowed for the job (e.g. 2GB)


Below are some of the most commonly used queueing system options to configure the job.

Options to request resources for the job

  • -t, --time=time
   Set a limit on the total run time. Acceptable formats include  "minutes", "minutes:seconds",  "hours:minutes:seconds",  "days-hours", "days-hours:minutes" and "days-hours:minutes:seconds"
  • --mem=MB
   Maximum memory per node the job will need in MegaBytes
  • --mem-per-cpu=MB
   Memory required per allocated CPU in MegaBytes
  • -N, --nodes=num
   Number of nodes are required. Default is 1 node
  • -n, --ntasks=num
   Maximum number tasks will be launched. Default is one task per node
  • --ntasks-per-node=ntasks
   Request that ntasks be invoked on each node
  • -c, --cpus-per-task=ncpus
   Require ncpus number of CPU cores per task. Without this option, allocate one core per task

Please try to request resources for your job as accurately as possible, because this allows your job to be dispatched to run at the earliest opportunity and it helps the system allocate resources efficiently to start as many jobs as possible, benefiting all users.


Options to manage job notification and output

  • -J, --job-name jobname
   Give the job a name. The default is the filename of the job script. Within the job, $SBATCH_JOB_NAME expands to the job name
  • -o, --output=path/for/stdout
   Send stdout to path/for/stdout. The default filename is slurm-${SLURM_JOB_ID}.out, e.g. slurm-12345.out, in the directory from which the job was submitted 
  • -e, --error=path/for/stderr
   Send stderr to path/for/stderr.
  • --mail-user=username@uga.edu
   Send email notification to the address you specified when certain events occur.
  • --mail-type=type
   The value of type can be set to NONE, BEGIN, END, FAIL, ALL.

Options to set Array Jobs

If you wish to run an application binary or script using e.g. different input files, then you might find it convenient to use an array job. To create an array job with e.g. 10 elements, use

#SBATCH -t 0-9

or

#SBATCH --array=0-9

The ID of each element in an array job is stored in the variable SLURM_ARRAY_TASK_ID. The variable SLURM_ARRAY_JOB_ID will be expanded into the jobid of the array job. Each array job element runs as an independent job, so multiple array elements can run concurrently, if resources are available.

Option to set job dependency

You can set job dependency with the option -d or --dependency=dependency-list. For example, if you want to specify that one job only starts after job with jobid 1234 finishes, you can add the following header line in the job submission script of the job:

#SBATCH --dependency=afterok:1234

Having this header line in the job submission script will ensure that the job is only dispatched to run after job 1234 has completed successfully.

Other content of the script

Following the header lines, users can include commands to change to the working directory, to load the modules needed to run the application, and to invoke the application. For example, to use the directory from which the job is submitted as the working directory (where to find input files or binaries), add the line

cd $SLURM_SUBMIT_DIR

You can then load the needed modules. For example, if you are running an R program, then include the line

module load R/3.4.4-foss-2016b-X11-20160819-GACRC

Then invoke your application. For example, if you are running an R program called add.R which is in your job submission directory, use

R CMD BATCH add.R


Environment Variables exported by batch jobs

When a batch job is started, a number of variables are introduced into the job's environment that can be used by the batch script in making decisions, creating output files, and so forth. Some of these variables are listed in the following table:

Variable Description
SLURM_ARRAY_JOB_ID Job id of an array job
SLURM_ARRAY_TASK_ID Value of job array index for this job
SLURM_CPUS_ON_NODE Number of CPUS on the allocated node.
SLURM_CPUS_PER_TASK Number of cpus requested per task. Only set if the --cpus-per-task option is specified.
SLURM_JOB_ID Unique pbs job id
SLURM_JOB_NAME User specified jobname
SLURM_JOB_CPUS_PER_NODE Count of processors available to the job on this node.
SLURM_JOB_NAME Name of the job.
SLURM_JOB_NODELIST List of nodes allocated to the job.
SLURM_JOB_NUM_NODES Total number of nodes in the job's resource allocation.
SLURM_JOB_PARTITION Name of the partition (i.e. queue) in which the job is running.
SLURM_NTASKS Same as -n, --ntasks
SLURM_NTASKS_PER_NODE Number of tasks requested per node. Only set if the --ntasks-per-node option is specified.
SLURM_SUBMIT_DIR The directory from which sbatch was invoked.
SLURM_TASKS_PER_NODE Number of tasks to be initiated on each node.



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Sample job submission scripts

Serial (single-processor) Job

Sample job submission script (sub.sh) to run an R program called add.R using a single core:

#!/bin/bash
#SBATCH --job-name=testserial         # Job name
#SBATCH --partition=batch             # Partition (queue) name
#SBATCH --mail-type=END,FAIL          # Mail events (NONE, BEGIN, END, FAIL, ALL)
#SBATCH --mail-user=username@uga.edu  # Where to send mail	
#SBATCH --ntasks=1                    # Run on a single CPU
#SBATCH --mem=1gb                     # Job memory request
#SBATCH --time=02:00:00               # Time limit hrs:min:sec
#SBATCH --output=testserial.%j.out    # Standard output log
#SBATCH --error=testserial.%j.err    # Standard error log


cd $SLURM_SUBMIT_DIR

module load R/3.4.4-foss-2016b-X11-20160819-GACRC

R CMD BATCH add.R

In this sample script, the standard output and error of the job will be saved into a file called testserial.o%j, where %j will be automatically replaced by the job id of the job.

MPI Job

Sample job submission script (sub.sh) to run an OpenMPI application. In this example the job requests 16 cores and further specifies that these 16 cores need to be divided equally on 2 nodes (8 cores per node) and the binary is called mympi.exe:

#!/bin/bash
#SBATCH --job-name=mpitest      # Job name
#SBATCH --partition=batch             # Partition (queue) name
#SBATCH --mail-type=END,FAIL         # Mail events (NONE, BEGIN, END, FAIL, ALL)
#SBATCH --mail-user=username@uga.edu    # Where to send mail	
#SBATCH --ntasks=16                  # Number of MPI ranks
#SBATCH --cpus-per-task=1            # Number of cores per MPI rank 
#SBATCH --nodes=2                    # Number of nodes
#SBATCH --ntasks-per-node=8          # How many tasks on each node
#SBATCH --mem-per-cpu=600mb          # Memory per processor
#SBATCH --time=02:00:00              # Time limit hrs:min:sec
#SBATCH --output=mpitest.%j.out         # Standard output log
#SBATCH --error=mpitest.%j.err         # Standard error log


cd $SLURM_SUBMIT_DIR

module load OpenMPI/1.10.3-GCC-5.4.0-2.26

mpirun ./mympi.exe


OpenMP (Multi-Thread) Job

Sample job submission script (sub.sh) to run a program that uses OpenMP with 6 threads. Please set --ntasks=1 and set --cpus-per-task to the number of threads you wish to use. The name of the binary in this example is a.out.

#!/bin/bash
#SBATCH --job-name=mctest      # Job name
#SBATCH --partition=batch             # Partition (queue) name
#SBATCH --mail-type=END,FAIL         # Mail events (NONE, BEGIN, END, FAIL, ALL)
#SBATCH --mail-user=username@uga.edu    # Where to send mail	
#SBATCH --ntasks=1                   # Run a single task	
#SBATCH --cpus-per-task=6            # Number of CPU cores per task
#SBATCH --mem=4gb                    # Job memory request
#SBATCH --time=02:00:00              # Time limit hrs:min:sec
#SBATCH --output=mctest.%j.out          # Standard output log
#SBATCH --error=mctest.%j.err          # Standard error log

cd $SLURM_SUBMIT_DIR

export OMP_NUM_THREADS=6  

module load foss/2016b  # load the appropriate module file, e.g. foss/2016b

time ./a.out


High Memory Job

Sample job submission script (sub.sh) to run a velvet application that needs to use 50GB of memory and 4 threads:

#!/bin/bash
#SBATCH --job-name=highmemtest      # Job name
#SBATCH --partition=highmem            # Partition (queue) name
#SBATCH --mail-type=END,FAIL         # Mail events (NONE, BEGIN, END, FAIL, ALL)
#SBATCH --mail-user=username@uga.edu    # Where to send mail	
#SBATCH --ntasks=1                   # Run a single task	
#SBATCH --cpus-per-task=4          # Number of CPU cores per task
#SBATCH --mem=50gb                    # Job memory request
#SBATCH --time=02:00:00              # Time limit hrs:min:sec
#SBATCH --output=highmemtest.%j.out     # Standard output log
#SBATCH --error=highmemtest.%j.err     # Standard error log

cd $SLURM_SUBMIT_DIR

export OMP_NUM_THREADS=4

module load Velvet

velvetg [options]


Hybrid MPI/shared-memory using OpenMPI

Sample job submission script (sub.sh) to run a parallel job that uses 4 MPI processes with OpenMPI and each MPI process runs with 3 threads:

#!/bin/bash
#SBATCH --job-name=hybridtest
#SBATCH --partition=batch             # Partition (queue) name
#SBATCH --mail-type=END,FAIL   # Mail events (NONE, BEGIN, END, FAIL, ALL)
#SBATCH --mail-user=username@uga.edu # Where to send mail	
#SBATCH --nodes=2              # Number of nodes
#SBATCH --ntasks=4             # Number of MPI ranks
#SBATCH --ntasks-per-node=2    # Number of MPI ranks per node
#SBATCH --cpus-per-task=3      # Number of OpenMP threads for each MPI process/rank
#SBATCH --mem-per-cpu=2000mb   # Per processor memory request
#SBATCH --time=2-00:00:00      # Walltime in hh:mm:ss or d-hh:mm:ss (2 days in the example)
#SBATCH --output=hybridtest.%j.out  # Standard output log
#SBATCH --error=hybridtest.%j.err   # Standard error log
 
cd $SLURM_SUBMIT_DIR
 
export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK

mpirun ./myhybridprog.exe


Array job

Sample job submission script (sub.sh) to submit an array job with 10 elements. In this example, each array job element will run the a.out binary using an input file called input_0, input_1, ..., input_9.

#!/bin/bash
#SBATCH --job-name=arrayjobtest   # Job name
#SBATCH --partition=batch             # Partition (queue) name
#SBATCH --ntasks=1                  # Run a single task
#SBATCH --mem=1gb                   # Job Memory
#SBATCH --time=10:00:00             # Time limit hrs:min:sec
#SBATCH --output=array_%A-%a.out    # Standard output log
#SBATCH --error=array_%A-%a.err    # Standard error log
#SBATCH --array=0-9                 # Array range

cd $SLURM_SUBMIT_DIR

module load foss/2016b # load any needed module files, e.g. foss/2016b

time ./a.out < input_$SLURM_ARRAY_TASK_ID


GPU/CUDA

To be added.


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How to submit a job to the batch queue

With the resource requirements specified in the job submission script (sub.sh), submit your job with

sbatch <scriptname>

For example

sbatch sub.sh

Once the job is submitted, the Job ID of the job (e.g. 12345) will be printed on the screen.


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Discovering if a partition (queue) is busy

The nodes allocated to each partition (queue) and their state can be view with the command

sinfo

Sample output of the sinfo command:

PARTITION AVAIL  TIMELIMIT  NODES  STATE NODELIST
highmem      up 7-00:00:00      5   idle c1-[36-37,40],c2-[9-10]
gpu          up 1-00:00:00      1   idle c2-2
interq       up 1-00:00:00      3   idle c2-[4-6]
batch        up 3-00:00:00      3    mix c1-38,c2-[11-12]
batch        up 3-00:00:00      1  alloc c1-1
batch        up 3-00:00:00     36   idle c1-[2-35,39]

where some common values of STATE are:

  • STATE=idle indicates that those nodes are completely free.
  • STATE=mix indicates that some cores on those nodes are in use (and some are free).
  • STATE=alloc indicates that all cores on those nodes are in use.

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How to open an interactive session

An interactive session on a compute node can be started with the command

qlogin

This command will start an interactive session with one core on one of the interactive nodes, and allocate 2GB of memory for a maximum walltime of 12h.

The qlogin command is an alias for

srun --pty -p interq --time=12:00:00 --mem=2gb  bash



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How to run an interactive job with Graphical User Interface capabilities

If you want to run an application as an interactive job and have its graphical user interface displayed on the terminal of your local machine, you need to enable X-forwarding when you ssh into the login node. For information on how to do this, please see questions 10 and 11 in the Frequently Asked Questions page.

On the teaching cluster, X-forwarding does not work from any of the compute nodes, including the interactive nodes. Please feel free to run X windows applications directly on the teaching cluster login node.


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How to check on running or pending jobs

To list all running and pending jobs (by all users), use the command

squeue

or

squeue -l


For detailed information on how to monitor your jobs, please see Monitoring Jobs on the teaching cluster.


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How to delete a running or pending job

To delete one of your running or pending job, use the command

scancel <jobid>

For example, to delete a job with Job ID 12345 use

scancel 12345

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How to check resource utilization of a running or finished job

The following command can be used to show resource utilization by a running job or a job that has already completed:

sacct

This command can be used with many options. We have configured one option that shows some quantities that are commonly of interest, including the amount of memory used and the cputime used by the jobs:

sacct_zh

For detailed information on how to monitor your jobs, please see Monitoring Jobs on the teaching cluster.


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