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Overview

Slurm is the basis of which all jobs are to be submitted, this includes batch and interactive jobs. Slurm consists of several user facing user commands, all of which have appropriate Unix man pages associated with them and should be consulted. On this page, users will find detailed information about running and submitting jobs, nodes, view available partitions, basic Slurm commands, troubleshooting and steps to configuring configure Slurm for investments. Contents

Table of Contents

Glossary

Required Inputs and Default Values and Limits

There are some default limits set for Slurm jobs. By default the following is are required for submission:

  1. Walltime limit

...

  1. : --time=[days-hours:mins:secs]

  2. Project account: --account=account

Default Values

Additionally, the default submission has the following characteristics:

  1. nodes is for one node (-N 1, --nodes=1)

  2. task count one tasks (-n 1, --ntasks-per-node=1)

  3. memory amount 1000 MB RAM / CPU (--mem-per-cpu=1000).

These can be changed by requesting different allocation schemes by modifying the appropriate flags. Please reference our Slurm documentation.

Default Limits

On Mount Moranhistoric ARCC HPC resources, the default limits were specifically represented by concurrently used cores by each project account. Investors received an increase in concurrent core usage capability. To facilitate more flexible scheduling for all research groups, ARCC is looking at implementing limits based on concurrent usage of cores, memory, and walltime of jobs. This will be defined in the near future and will be subject to the FAC review.

Commands

sacct

  • Query detailed information about the job that has completed. Use this utility to get information about running or completed jobs

salloc

  • Request in an interactive job for debugging and/or interactive computing. ARCC configures the salloc command to launch an interactive shell on individual compute nodes with your current environment carried over from the current session (except in the dgx partition where the environment is reinitialized for Ubuntu). This command requires specifying a project account (-A or --account=) and walltime (-t or --time=).

sbatch

  • Submit a batch job consisting of a single job or job array. Several methods can be used to submit batch jobs. A script file can be used and provided as an argument on the command line. Alternatively, and rarer, the use of standard input can be used and the batch job can be created interactively. We recommend writing the batch job in a script so that it may be referenced at a later time.

...

Info

There are some additional commands, however, they'll not be mentioned here because they're not that useful on our system for general users. It's important to note that reading the man pages on the Slurm commands can be highly beneficial and if you have questions, ARCC encourages you to request information on submitting jobs to arcc-help@uwyo.edu.

Batch Jobs

Batch jobs are jobs that are submitted via job script or commands that are input into the sbatch command interactively which will then enter the queueing system and prepare for the execution, then execute when possible. The execution could start immediately if the queue is not completely full, start after a short time period if preemption opted for, or after extensive time if the queue is full or running limits are already reached.

...

The two '#SBATCH' directives above are required for all job submissions, whether interactive or batch. The values to account should be changed to the appropriate project account and the time should be changed to an appropriate walltime limit. This is a walltime limit, not CPU time. These values could also be supplied when submitting jobs by providing them directly on the command line when submitting. Slurm will default jobs to use one node, one task per node, and once one cpu per node.

Submitting Jobs

Code Block
 $ sbatch hello.sh 

...

Code Block
 $ sbatch --account=arcc --time=24:00:00 test.sh 

Single Node, Multi-Core Jobs

Slurm creates allocations of resources, and resources can vary depending on the work needing to be done with the cluster. A batch job that requires multiple cores can have a few different layouts depending on what is intending to be run. If the job is a multi-threaded application such as OpenMP or utilizes pthreads, it's best to set the number of tasks to 1. The below script will request that a single node with 4 cores available. The job script, assuming OpenMP, sets the number of threads to the job provided environment variable SLURM_CPUS_PER_TASK.

Code Block
#!/bin/bash

#SBATCH --account=arcc
#SBATCH --time=24:00:00
#SBATCH --nodes=1
#SBATCH --ntasks-per-node=1
#SBATCH --cpus-per-task=4

export $OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK
srun ./application

Single Node, Multi-Tasks

This could be a multi-tasked job where the application has it's own parallel processing engine or uses MPI, but experiences poor scaling over multiple nodes.

Code Block
#!/bin/bash

#SBATCH --account=arcc
#SBATCH --time=24:00:00
#SBATCH --nodes=1
#SBATCH --ntasks-per-node=4
#SBATCH --cpus-per-task=1

### Assuming MPI application
srun ./application

Multi-Node, Non-Multithreaded

An application that strictly uses MPI often can use multiple nodes. However, there is often a chance that MPI type programs do not implement multithreading capability. Therefore, the number of cpus per task should be set to a value of 1.

Code Block
#!/bin/bash

#SBATCH --account=arcc
#SBATCH --time=24:00:00
#SBATCH --nodes=4
#SBATCH --ntasks-per-node=4
#SBATCH --cpus-per-task=1

### Assuming 'application' is on your $PATH environment variable
srun application

Multi-Node, Multithreaded

Some applications have been developed to take advantage of both distributed memory parallelism and shared memory parallelism such that they're capable of using MPI and threading together. This often requires the user to find the right balance based on additional resources required such as memory per task, network bandwidth, and node core count. The below example request that 4 nodes be allocated, each supporting 4 MPI ranks and each MPI rank supporting 4 threads. The total CPU request count aggregates to 64 (i.e., 4 x 4 x 4).

Code Block
#!/bin/bash

#SBATCH --account=arcc
#SBATCH --time=24:00:00
#SBATCH --nodes=4
#SBATCH --ntasks-per-node=4
#SBATCH --cpus-per-task=4

export OMP_NUM_THREADS=$SLURM_CPUS_PER_TASK

srun application -arg1 -arg2

Checking Status and Canceling

You can use the squeue command to display the status of all your jobs:

...

Code Block
$ scancel <jobid>

Viewing the Results

Once your job has completed, you should see two files in the directory from which you submitted the job. By default, these will be named <jobname>.oXXXXX and <jobname>.eXXXXX (where the <jobname> is replaced by the name of the SLURM script and the X's are replaced by the numerical portion of the job identifier returned by sbatch). In the Hello World example, any output from the job sent to "standard output" will be written to the hello.oXXXXX file and any output sent to "standard error" will be written to the hello.eXXXXX file.

Interactive Jobs

Interactive jobs are jobs that allow shell access to computing nodes where applications can be run interactively, heavy processing of files, or compiling large applications. They can be requested with similar arguments to batch jobs. ARCC has configured the clusters such that Slurm interactive allocations will give shell access on the compute nodes themselves rather than keeping the shell on the login node. The salloc command is appropriate to launch interactive jobs.

...

The value of interactive jobs is to allow users to work interactively with the CLI or interactive use of debuggers (ddt, gdb) , profilers (map, gprof), or language interpreters such as Python, R, or Julia.

Special Hardware / Configuration Requests

Slurm is a flexible and powerful workload manager. It has been configured to allow very good expressiveness to allocate certain features of nodes and specialized hardware. Certain features are requested by the use of Generic Resource or GRES while others are requested through the constraints option.

GPU Requests

Request that 16 cpus 2 GPUs be requested for an interactive session:

Code Block
 $ salloc -A arcc --time=40:00 -N 1 --ntasks-per-node=1 --cpus-per-task=16 --gres=gpu:2 

Request 16 cpus, 1 GPU of type P100 in a batch script:

Code Block
#!/bin/bash

#SBATCH --account=arcc
#SBATCH --time=1-00:00:00
#SBATCH --nodes=1
#SBATCH --ntasks-per-node=1
#SBATCH --cpus-per-tasks=16
#SBATCH --gres:P100:1

srun gpu_application

Long Job QOS Configuration

To allow projects to temporarily run jobs for 14 days ARCC has established a special QOS (long-jobs-14) with the following limits:

14-day wall clock time limit
10 max running jobs
As needed ARCC can create other QOS's as needed with different limits.

QOS Creation

To create the QOS for this feature with the issue the following commands as root on tmgt1.

Code Block
sacctmgr add qos <QOS name> set Flags=PartitionTimeLimit MaxWall=14-0 MaxJobsPA=10

As an example to create a 14 day wall time and max 10 running jobs

Code Block
sacctmgr add qos long-jobs-14 set Flags=PartitionTimeLimit MaxWall=14-0 MaxJobsPA=10

Allow Access to the QOS

Once the QOS with the proper limits has been created you need to apply it to the project.

Code Block
sacctmgr modify account <project name> where cluster=teton set qos+=long-jobs-14

Now that you have enabled the long-job-14 QOS on a project inform the users to add:

Code Block
--qos=long-jobs-14

to there salloc, sbatch or srun command.

Remove Access to the QOS

Once the requirement for the project to run longer jobs is no longer required to remove access for the project to the QOS.

Code Block
sacctmgr modify account <project name> where cluster=teton set qos-=long-jobs-14

Examples

Example 1

In the following example, we use the ARCC as our project example. We want to give ARCC access to run longer jobs. We assume that the "long-jobs-14" QOS has been previously been created.

  • We run the command "assoc" which return the following definition for ARCC from the slurm database:

Code Block
            Account       User   Def QOS                  QOS 
-------------------- ---------- --------- --------------------

inv-arcc                            arcc          arcc,normal 
 arcc                               arcc          arcc,normal
  arcc                awillou2      arcc          arcc,normal 
  arcc                dperkin6      arcc          arcc,normal 
  arcc                 jbaker2      arcc          arcc,normal 
  arcc                  jrlang      arcc          arcc,normal 
  arcc                mkillean      arcc          arcc,normal 
  arcc                powerman      arcc          arcc,normal 
  arcc                salexan5      arcc          arcc,normal

This shows the default configuration for the QOS setup, "arcc" being the default QOS all arcc jobs run under. While :arcc: project users have access to either the "normal" or "arcc" QOS.

  • We want to give the "arcc" project access to the 14-day job runtime feature, we do this by adding the proper QOS to the ARCC project

Code Block
sacctmgr modify account arcc where cluster=teton set qos+=long-jobs-14
  • To verify the QOS has been added to the "arcc" project we run the "assoc" command as root

Code Block
            Account       User   Def QOS                  QOS 
-------------------- ---------- --------- --------------------

inv-arcc                            arcc            arcc,normal 
 arcc                               arcc arcc,long-job-14,norm+ 
  arcc                awillou2      arcc arcc,long-job-14,norm+
  arcc                dperkin6      arcc arcc,long-job-14,norm+
  arcc                 jbaker2      arcc arcc,long-job-14,norm+
  arcc                  jrlang      arcc arcc,long-job-14,norm+
  arcc                mkillean      arcc arcc,long-job-14,norm+
  arcc                powerman      arcc arcc,long-job-14,norm+
  arcc                salexan5      arcc arcc,long-job-14,norm+

Notes

  • Do we advertise this?

Code Block
 Keep it under wraps for now since this will be allowed on a per request basis.
  • How do we stop people from abusing it?

Code Block
 There are a couple of things in place to keep from abusing this:

We allow only a maximum of 10 jobs running under this QOS ARCC must enable access to the long-job-14 QOS.

By default, we don't attach this QOS to projects. Once the requirement for the project to run long jobs is over we will remove the QOS from the project.

Trouble Shooting

  • Node won't come online

If a node won't come online for some reason check the node information for a slurm reason. run

Code Block
scontrol show node=XXX

The command output should include a reason for why slurm won't bring the node online. As an example:

Code Block
root@tmgt1:/apps/s/lenovo/dsa# scontrol show node=mtest2
NodeName=mtest2 Arch=x86_64 CoresPerSocket=10 
   CPUAlloc=0 CPUTot=20 CPULoad=0.02
   AvailableFeatures=ib,dau,haswell,arcc
   ActiveFeatures=ib,dau,haswell,arcc
   Gres=(null)
   NodeAddr=mtest2 NodeHostName=mtest2 Version=18.08
   OS=Linux 3.10.0-693.21.1.el7.x86_64 #1 SMP Fri Feb 23 18:54:16 UTC 2018 
   RealMemory=64000 AllocMem=0 FreeMem=55805 Sockets=2 Boards=1
   State=IDLE+DRAIN ThreadsPerCore=1 TmpDisk=0 Weight=1 Owner=N/A MCS_label=N/A
   Partitions=arcc 
   BootTime=06.08-11:44:57 SlurmdStartTime=06.08-11:47:35
   CfgTRES=cpu=20,mem=62.50G,billing=20
   AllocTRES=
   CapWatts=n/a
   CurrentWatts=0 LowestJoules=0 ConsumedJoules=0
   ExtSensorsJoules=n/s ExtSensorsWatts=0 ExtSensorsTemp=n/s
   Reason=Low RealMemory [slurm@06.10-10:00:27]

This indicates that the memory definition for the node and what Slurm actually found are different. You can use

Code Block
free -m

to see what the system thinks it has in terms of memory.

The node definition should have a memory definition less or equal to the total showed by the "free" command. You should verify that the settings are correct for the memory the node should have. If not, investigate and determine why the discrepancy.

Configuring Slurm for Investments

The Teton cluster is the University of Wyoming's Condo cluster which provides computing resources to the general UW research community. Being a condo cluster researchers can invest funds into the cluster in order to expand its functionality. As an investor, a researcher is afforded special privileges specifically first access to the nodes their funds purchased.

To establish an investment within Slurm follow the following steps:

  1. First, define an investor partition that refers to the purchased nodes. Create the partition definition, edit /apps/s/slurm/latest/etc/partitions-invest.conf. Add

Code Block
# Comment describing the investment
PartitionName=inv-<investment-name> AllowQos=<investment-name> \
  Default=No \
  Priority=10 \
  State=UP \
  Nodes=<nodelist> \
  PreemptMode=off \
  TRESBillingWeights="CPU=1.0,Mem=.00025"

Where:
  • investment-name is the name you wish to call the new investment

  • nodelist is the list of nodes to be included in the investment definition, i.e. t[305-315],t317

  • Adjust the TRESBillingWeights accordingly based on the node specifications

Code Block
Note: The nodes should also be added to the general partition list, i.e. teton
  1. Once you have checked and re-checked your work for correctness configure slurm with the new partition definition:

Code Block
scontrol reconfigure

For the following you will need access to two ARCC created commands:

  • add_slurm_inv

  • add_project_to_inv

  1. Now that you have the investor partition setup you need to create the associated Slurm DB entries. First, run

Code Block
/root/bin/idm_scripts/add_slurm_inv inv-<investment-name>

This will create the investor umbrella account that ties the investment to projects.

  1. Now add the investor project to the investor umbrella account.

...