Frequently Asked Questions

For Management

For Users

For Administrators

For Management

Why should I use Slurm or other Free Open Source Software (FOSS)?
Free Open Source Software (FOSS) does not mean that it is without cost. It does mean that the you have access to the code so that you are free to use it, study it, and/or enhance it. These reasons contribute to Slurm (and FOSS in general) being subject to active research and development worldwide, displacing proprietary software in many environments. If the software is large and complex, like Slurm or the Linux kernel, then while there is no license fee, its use is not without cost.

If your work is important, you'll want the leading Slurm experts at your disposal to keep your systems operating at peak efficiency. While Slurm has a global development community incorporating leading edge technology, SchedMD personnel have developed most of the code and can provide competitively priced commercial support. SchedMD works with various organizations to provide a range of support options ranging from remote level-3 support to 24x7 on-site personnel. Customers switching from commercial workload mangers to Slurm typically report higher scalability, better performance and lower costs.

For Users

Why is my job/node in a COMPLETING state?
When a job is terminating, both the job and its nodes enter the COMPLETING state. As the Slurm daemon on each node determines that all processes associated with the job have terminated, that node changes state to IDLE or some other appropriate state for use by other jobs. When every node allocated to a job has determined that all processes associated with it have terminated, the job changes state to COMPLETED or some other appropriate state (e.g. FAILED). Normally, this happens within a second. However, if the job has processes that cannot be terminated with a SIGKILL signal, the job and one or more nodes can remain in the COMPLETING state for an extended period of time. This may be indicative of processes hung waiting for a core file to complete I/O or operating system failure. If this state persists, the system administrator should check for processes associated with the job that cannot be terminated then use the scontrol command to change the node's state to DOWN (e.g. "scontrol update NodeName=name State=DOWN Reason=hung_completing"), reboot the node, then reset the node's state to IDLE (e.g. "scontrol update NodeName=name State=RESUME"). Note that setting the node DOWN will terminate all running or suspended jobs associated with that node. An alternative is to set the node's state to DRAIN until all jobs associated with it terminate before setting it DOWN and re-booting.

Note that Slurm has two configuration parameters that may be used to automate some of this process. UnkillableStepProgram specifies a program to execute when non-killable processes are identified. UnkillableStepTimeout specifies how long to wait for processes to terminate. See the "man slurm.conf" for more information about these parameters.

Why are my resource limits not propagated?
When the srun command executes, it captures the resource limits in effect at submit time on the node where srun executes. These limits are propagated to the allocated nodes before initiating the user's job. The Slurm daemons running on the allocated nodes then try to establish identical resource limits for the job being initiated. There are several possible reasons for not being able to establish those resource limits.

  • The hard resource limits applied to Slurm's slurmd daemon are lower than the user's soft resources limits on the submit host. Typically the slurmd daemon is initiated by the init daemon with the operating system default limits. This may be addressed either through use of the ulimit command in the /etc/sysconfig/slurm file or enabling PAM in Slurm.
  • The user's hard resource limits on the allocated node are lower than the same user's soft hard resource limits on the node from which the job was submitted. It is recommended that the system administrator establish uniform hard resource limits for users on all nodes within a cluster to prevent this from occurring.
  • PropagateResourceLimits or PropagateResourceLimitsExcept parameters are configured in slurm.conf and avoid propagation of specified limits.

NOTE: This may produce the error message "Can't propagate RLIMIT_...". The error message is printed only if the user explicitly specifies that the resource limit should be propagated or the srun command is running with verbose logging of actions from the slurmd daemon (e.g. "srun -d6 ...").

Why is my job not running?
The answer to this question depends on a lot of factors. The main one is which scheduler is used by Slurm. Executing the command

scontrol show config | grep SchedulerType

will supply this information. If the scheduler type is builtin, then jobs will be executed in the order of submission for a given partition. Even if resources are available to initiate your job immediately, it will be deferred until no previously submitted job is pending. If the scheduler type is backfill, then jobs will generally be executed in the order of submission for a given partition with one exception: later submitted jobs will be initiated early if doing so does not delay the expected execution time of an earlier submitted job. In order for backfill scheduling to be effective, users' jobs should specify reasonable time limits. If jobs do not specify time limits, then all jobs will receive the same time limit (that associated with the partition), and the ability to backfill schedule jobs will be limited. The backfill scheduler does not alter job specifications of required or excluded nodes, so jobs which specify nodes will substantially reduce the effectiveness of backfill scheduling. See the backfill section for more details. For any scheduler, you can check priorities of jobs using the command scontrol show job. Other reasons can include waiting for resources, memory, qos, reservations, etc. As a guideline, issue an scontrol show job <jobid> and look at the field State and Reason to investigate the cause.

Why does the srun --overcommit option not permit multiple jobs to run on nodes?
The --overcommit option is a means of indicating that a job or job step is willing to execute more than one task per processor in the job's allocation. For example, consider a cluster of two processor nodes. The srun execute line may be something of this sort

srun --ntasks=4 --nodes=1 a.out

This will result in not one, but two nodes being allocated so that each of the four tasks is given its own processor. Note that the srun --nodes option specifies a minimum node count and optionally a maximum node count. A command line of

srun --ntasks=4 --nodes=1-1 a.out

would result in the request being rejected. If the --overcommit option is added to either command line, then only one node will be allocated for all four tasks to use.

More than one job can execute simultaneously on the same compute resource (e.g. CPU) through the use of srun's --oversubscribe option in conjunction with the OverSubscribe parameter in Slurm's partition configuration. See the man pages for srun and slurm.conf for more information.

Why is my job killed prematurely?
Slurm has a job purging mechanism to remove inactive jobs (resource allocations) before reaching its time limit, which could be infinite. This inactivity time limit is configurable by the system administrator. You can check its value with the command

scontrol show config | grep InactiveLimit

The value of InactiveLimit is in seconds. A zero value indicates that job purging is disabled. A job is considered inactive if it has no active job steps or if the srun command creating the job is not responding. In the case of a batch job, the srun command terminates after the job script is submitted. Therefore batch job pre- and post-processing is limited to the InactiveLimit. Contact your system administrator if you believe the InactiveLimit value should be changed.

Why are my srun options ignored?
Everything after the command srun is examined to determine if it is a valid option for srun. The first token that is not a valid option for srun is considered the command to execute and everything after that is treated as an option to the command. For example:

srun -N2 hostname -pdebug

srun processes "-N2" as an option to itself. "hostname" is the command to execute and "-pdebug" is treated as an option to the hostname command. This will change the name of the computer on which Slurm executes the command - Very bad, Don't run this command as user root!

Why is the Slurm backfill scheduler not starting my job?
The most common problem is failing to set job time limits. If all jobs have the same time limit (for example the partition's time limit), then backfill will not be effective. Note that partitions can have both default and maximum time limits, which can be helpful in configuring a system for effective backfill scheduling.

In addition, there are a multitude of backfill scheduling parameters which can impact which jobs are considered for backfill scheduling, such as the maximum number of jobs tested per user. For more information see the slurm.conf man page and check the configuration of SchedulingParameters on your system.

How can I run multiple jobs from within a single script?
A Slurm job is just a resource allocation. You can execute many job steps within that allocation, either in parallel or sequentially. Some jobs actually launch thousands of job steps this way. The job steps will be allocated nodes that are not already allocated to other job steps. This essentially provides a second level of resource management within the job for the job steps.

How can I run a job within an existing job allocation?
There is an srun option --jobid that can be used to specify a job's ID. For a batch job or within an existing resource allocation, the environment variable SLURM_JOB_ID has already been defined, so all job steps will run within that job allocation unless otherwise specified. The one exception to this is when submitting batch jobs. When a batch job is submitted from within an existing batch job, it is treated as a new job allocation request and will get a new job ID unless explicitly set with the --jobid option. If you specify that a batch job should use an existing allocation, that job allocation will be released upon the termination of that batch job.

How does Slurm establish the environment for my job?
Slurm processes are not run under a shell, but directly exec'ed by the slurmd daemon (assuming srun is used to launch the processes). The environment variables in effect at the time the srun command is executed are propagated to the spawned processes. The ~/.profile and ~/.bashrc scripts are not executed as part of the process launch. You can also look at the --export option of srun and sbatch. See man pages for details.

How can I get shell prompts in interactive mode?
srun --pty bash -i
Srun's --pty option runs task zero in pseudo terminal mode. Bash's -i option tells it to run in interactive mode (with prompts).
You can also configure SallocDefaultCommand in slurm.conf to automatically launch a shell, e.g.: 

SallocDefaultCommand="srun -n1 -N1 --mem-per-cpu=0 --pty --preserve-env --cpu-bind=no --mpi=none $SHELL"

And then run salloc directly which will provide you an allocation with an interactive shell console.

How can I get the task ID in the output or error file name for a batch job?
If you want separate output by task, you will need to build a script containing this specification. For example:

$ cat test
#!/bin/sh
echo begin_test
srun -o out_%j_%t hostname

$ sbatch -n7 -o out_%j test
sbatch: Submitted batch job 65541

$ ls -l out*
-rw-rw-r--  1 jette jette 11 Jun 15 09:15 out_65541
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_0
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_1
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_2
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_3
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_4
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_5
-rw-rw-r--  1 jette jette  6 Jun 15 09:15 out_65541_6

$ cat out_65541
begin_test

$ cat out_65541_2
tdev2

Can the make command utilize the resources allocated to a Slurm job?
Yes. There is a patch available for GNU make version 3.81 available as part of the Slurm distribution in the file contribs/make-3.81.slurm.patch. For GNU make version 4.0 you can use the patch in the file contribs/make-4.0.slurm.patch. This patch will use Slurm to launch tasks across a job's current resource allocation. Depending upon the size of modules to be compiled, this may or may not improve performance. If most modules are thousands of lines long, the use of additional resources should more than compensate for the overhead of Slurm's task launch. Use with make's -j option within an existing Slurm allocation. Outside of a Slurm allocation, make's behavior will be unchanged.

Can tasks be launched with a remote (pseudo) terminal?
You have several ways to do so, the recommended ones are the following:
The simplest method is to make use of srun's --pty option, (e.g. srun --pty bash -i). Srun's --pty option runs task zero in pseudo terminal mode. Bash's -i option instructs it to run in interactive mode (with prompts).
In addition to that method you have the option to define the SallocDefaultCommand to run a task in pseudo terminal mode directly, so you get the prompt just invoking salloc: 

SallocDefaultCommand="srun -n1 -N1 --mem-per-cpu=0 --pty --preserve-env --cpu-bind=no --mpi=none $SHELL"

Finally you can make use of X11 feature and run a graphical terminal. (e.g. srun xterm).

What does "srun: Force Terminated job" indicate?
The srun command normally terminates when the standard output and error I/O from the spawned tasks end. This does not necessarily happen at the same time that a job step is terminated. For example, a file system problem could render a spawned task non-killable at the same time that I/O to srun is pending. Alternately a network problem could prevent the I/O from being transmitted to srun. In any event, the srun command is notified when a job step is terminated, either upon reaching its time limit or being explicitly killed. If the srun has not already terminated, the message "srun: Force Terminated job" is printed. If the job step's I/O does not terminate in a timely fashion thereafter, pending I/O is abandoned and the srun command exits.

What does this mean: "srun: First task exited 30s ago" followed by "srun Job Failed"?
The srun command monitors when tasks exit. By default, 30 seconds after the first task exists, the job is killed. This typically indicates some type of job failure and continuing to execute a parallel job when one of the tasks has exited is not normally productive. This behavior can be changed using srun's --wait=<time> option to either change the timeout period or disable the timeout altogether. See srun's man page for details.

Why is my MPI job failing due to the locked memory (memlock) limit being too low?
By default, Slurm propagates all of your resource limits at the time of job submission to the spawned tasks. This can be disabled by specifically excluding the propagation of specific limits in the slurm.conf file. For example PropagateResourceLimitsExcept=MEMLOCK might be used to prevent the propagation of a user's locked memory limit from a login node to a dedicated node used for his parallel job. If the user's resource limit is not propagated, the limit in effect for the slurmd daemon will be used for the spawned job. A simple way to control this is to ensure that user root has a sufficiently large resource limit and ensuring that slurmd takes full advantage of this limit. For example, you can set user root's locked memory limit ulimit to be unlimited on the compute nodes (see "man limits.conf") and ensuring that slurmd takes full advantage of this limit (e.g. by adding "LimitMEMLOCK=infinity" to your systemd's slurmd.service file). It may also be desirable to lock the slurmd daemon's memory to help ensure that it keeps responding if memory swapping begins. A sample /etc/sysconfig/slurm which can be read from systemd is shown below. Related information about PAM is also available.

#
# Example /etc/sysconfig/slurm
#
# Memlocks the slurmd process's memory so that if a node
# starts swapping, the slurmd will continue to respond
SLURMD_OPTIONS="-M"

Why is my batch job that launches no job steps being killed?
Slurm has a configuration parameter InactiveLimit intended to kill jobs that do not spawn any job steps for a configurable period of time. Your system administrator may modify the InactiveLimit to satisfy your needs. Alternately, you can just spawn a job step at the beginning of your script to execute in the background. It will be purged when your script exits or your job otherwise terminates. A line of this sort near the beginning of your script should suffice:
srun -N1 -n1 sleep 999999 &

How do I run specific tasks on certain nodes in my allocation?
One of the distribution methods for srun '-m or --distribution' is 'arbitrary'. This means you can tell Slurm to layout your tasks in any fashion you want. For instance if I had an allocation of 2 nodes and wanted to run 4 tasks on the first node and 1 task on the second and my nodes allocated from SLURM_JOB_NODELIST where tux[0-1] my srun line would look like this:

srun -n5 -m arbitrary -w tux[0,0,0,0,1] hostname

If I wanted something similar but wanted the third task to be on tux 1 I could run this:

srun -n5 -m arbitrary -w tux[0,0,1,0,0] hostname

Here is a simple Perl script named arbitrary.pl that can be ran to easily lay out tasks on nodes as they are in SLURM_JOB_NODELIST.

#!/usr/bin/perl
my @tasks = split(',', $ARGV[0]);
my @nodes = `scontrol show hostnames $SLURM_JOB_NODELIST`;
my $node_cnt = $#nodes + 1;
my $task_cnt = $#tasks + 1;

if ($node_cnt < $task_cnt) {
	print STDERR "ERROR: You only have $node_cnt nodes, but requested layout on $task_cnt nodes.\n";
	$task_cnt = $node_cnt;
}

my $cnt = 0;
my $layout;
foreach my $task (@tasks) {
	my $node = $nodes[$cnt];
	last if !$node;
	chomp($node);
	for(my $i=0; $i < $task; $i++) {
		$layout .= "," if $layout;
		$layout .= "$node";
	}
	$cnt++;
}
print $layout;

We can now use this script in our srun line in this fashion.

srun -m arbitrary -n5 -w `arbitrary.pl 4,1` -l hostname

This will layout 4 tasks on the first node in the allocation and 1 task on the second node.

How can I temporarily prevent a job from running (e.g. place it into a hold state)?
The easiest way to do this is to change a job's earliest begin time (optionally set at job submit time using the --begin option). The example below places a job into hold state (preventing its initiation for 30 days) and later permitting it to start now.

$ scontrol update JobId=1234 StartTime=now+30days
... later ...
$ scontrol update JobId=1234 StartTime=now

Why are jobs not getting the appropriate memory limit?
This is probably a variation on the locked memory limit problem described above. Use the same solution for the AS (Address Space), RSS (Resident Set Size), or other limits as needed.

Is an archive available of messages posted to the slurm-users mailing list?
Yes, it is at http://groups.google.com/group/slurm-users

Can I change my job's size after it has started running?
Slurm supports the ability to both increase and decrease the size of jobs. While the size of a pending job may be changed with few restrictions, several significant restrictions apply to changing the size of a running job, as noted below:

  1. Requesting fewer hardware resources, and changing partition, qos, reservation, licenses, etc. is only allowed for pending jobs.
  2. Job(s) changing size must not be in a suspended state, including jobs suspended for gang scheduling. The jobs must be in a state of pending or running.
  3. Job expansion for running jobs is disabled by default. Site administrators can enable this capability by setting SchedulerParameters=permit_job_expansion in slurm.conf

Use the scontrol command to change a job's size either by specifying a new node count (NumNodes=) for the job or identify the specific nodes (NodeList=) that you want the job to retain. Any job steps running on the nodes which are relinquished by the job will be killed unless initiated with the --no-kill option. After the job size is changed, some environment variables created by Slurm containing information about the job's environment will no longer be valid and should either be removed or altered (e.g. SLURM_JOB_NODES, SLURM_JOB_NODELIST and SLURM_NTASKS). The scontrol command will generate a script that can be executed to reset local environment variables. You must retain the SLURM_JOB_ID environment variable in order for the srun command to gather information about the job's current state and specify the desired node and/or task count in subsequent srun invocations. A new accounting record is generated when a job is resized, showing the job to have been resubmitted and restarted at the new size. An example is shown below.

#!/bin/bash
srun my_big_job
scontrol update JobId=$SLURM_JOB_ID NumNodes=2
. slurm_job_${SLURM_JOB_ID}_resize.sh
srun -N2 my_small_job
rm slurm_job_${SLURM_JOB_ID}_resize.*

Increasing a job's size
Directly increasing the size of a running job would adversely affect the scheduling of pending jobs. For the sake of fairness in job scheduling, expanding a running job requires the user to submit a new job, but specify the option --dependency=expand:<jobid>. This option tells Slurm that the job, when scheduled, can be used to expand the specified jobid. Other job options would be used to identify the required resources (e.g. task count, node count, node features, etc.). This new job's time limit will be automatically set to reflect the end time of the job being expanded. This new job's generic resources specification will be automatically set equal to that of the job being merged to. This is due to the current Slurm restriction of all nodes associated with a job needing to have the same generic resource specification (i.e. a job can not have one GPU on one node and two GPUs on another node), although this restriction may be removed in the future. This restriction can pose some problems when both jobs can be allocated resources on the same node, in which case the generic resources allocated to the new job will be released. If the jobs are allocated resources on different nodes, the generic resources associated with the resulting job allocation after the merge will be consistent as expected. Any licenses associated with the new job will be added to those available in the job being merged to. Note that partition and Quality Of Service (QOS) limits will be applied independently to the new job allocation so the expanded job may exceed size limits configured for an individual job.

After the new job is allocated resources, merge that job's allocation into that of the original job by executing:
scontrol update jobid=<jobid> NumNodes=0
The jobid above is that of the job to relinquish its resources. To provide more control over when the job expansion occurs, the resources are not merged into the original job until explicitly requested. These resources will be transferred to the original job and the scontrol command will generate a script to reset variables in the second job's environment to reflect its modified resource allocation (which would be no resources). One would normally exit this second job at this point, since it has no associated resources. In order to generate a script to modify the environment variables for the expanded job, execute:
scontrol update jobid=<jobid> NumNodes=ALL
Then execute the script generated. Note that this command does not change the original job's size, but only generates the script to change its environment variables. Until the environment variables are modified (e.g. the job's node count, CPU count, hostlist, etc.), any srun command will only consider the resources in the original resource allocation. Note that the original job may have active job steps at the time of its expansion, but they will not be affected by the change. An example of the procedure is shown below in which the original job allocation waits until the second resource allocation request can be satisfied. The job requesting additional resources could also use the sbatch command and permit the original job to continue execution at its initial size. Note that the development of additional user tools to manage Slurm resource allocations is planned in the future to make this process both simpler and more flexible.

$ salloc -N4 -C haswell bash
salloc: Granted job allocation 65542
$ srun hostname
icrm1
icrm2
icrm3
icrm4

$ salloc -N4 -C knl,snc4,flat --dependency=expand:$SLURM_JOB_ID bash
salloc: Granted job allocation 65543
$ scontrol update jobid=$SLURM_JOB_ID NumNodes=0
To reset Slurm environment variables, execute
  For bash or sh shells:  . ./slurm_job_65543_resize.sh
  For csh shells:         source ./slurm_job_65543_resize.csh
$ exit
exit
salloc: Relinquishing job allocation 65543

$ scontrol update jobid=$SLURM_JOB_ID NumNodes=ALL
To reset Slurm environment variables, execute
  For bash or sh shells:  . ./slurm_job_65542_resize.sh
  For csh shells:         source ./slurm_job_65542_resize.csh
$ . ./slurm_job_${SLURM_JOB_ID}_resize.sh

$ srun hostname
icrm1
icrm2
icrm3
icrm4
icrm5
icrm6
icrm7
icrm8
$ exit
exit
salloc: Relinquishing job allocation 65542

Why is my MPICH2 or MVAPICH2 job not running with Slurm? Why does the DAKOTA program not run with Slurm?
The Slurm library used to support MPICH2 or MVAPICH2 references a variety of symbols. If those symbols resolve to functions or variables in your program rather than the appropriate library, the application will fail. For example DAKOTA, versions 5.1 and older, contains a function named regcomp, which will get used rather than the POSIX regex functions. Rename DAKOTA's function and references from regcomp to something else to make it work properly.

Why does squeue (and "scontrol show jobid") sometimes not display a job's estimated start time?
When the backfill scheduler is configured, it provides an estimated start time for jobs that are candidates for backfill. Pending jobs with dependencies will not have an estimate as it is difficult to predict what resources will be available when the jobs they are dependent on terminate. Also note that the estimate is better for jobs expected to start soon, as most running jobs end before their estimated time. There are other restrictions on backfill that may apply. See the backfill section for more details.

How can I run an Ansys program with Slurm?
If you are talking about an interactive run of the Ansys app, then you can use this simple script (it is for Ansys Fluent):

$ cat ./fluent-srun.sh
#!/usr/bin/env bash
HOSTSFILE=.hostlist-job$SLURM_JOB_ID
if [ "$SLURM_PROCID" == "0" ]; then
   srun hostname -f > $HOSTSFILE
   fluent -t $SLURM_NTASKS -cnf=$HOSTSFILE -ssh 3d
   rm -f $HOSTSFILE
fi
exit 0

To run an interactive session, use srun like this:

$ srun -n <tasks> ./fluent-srun.sh

How can a job in a complete or failed state be requeued?

Slurm supports requeueing jobs in a done or failed state. Use the command:

scontrol requeue job_id

The job will then be requeued back in the PENDING state and scheduled again. See man(1) scontrol.

Consider a simple job like this:

$cat zoppo
#!/bin/sh
echo "hello, world"
exit 10

$sbatch -o here ./zoppo
Submitted batch job 10

The job finishes in FAILED state because it exits with a non zero value. We can requeue the job back to the PENDING state and the job will be dispatched again. 

$ scontrol requeue 10
$ squeue
     JOBID PARTITION  NAME     USER   ST   TIME  NODES NODELIST(REASON)
      10      mira    zoppo    david  PD   0:00    1   (NonZeroExitCode)
$ squeue
    JOBID PARTITION   NAME     USER ST     TIME  NODES NODELIST(REASON)
      10      mira    zoppo    david  R    0:03    1      alanz1

Slurm supports requeuing jobs in a hold state with the command:

'scontrol requeuehold job_id'

The job can be in state RUNNING, SUSPENDED, COMPLETED or FAILED before being requeued.

$ scontrol requeuehold 10
$ squeue
    JOBID PARTITION  NAME     USER ST       TIME  NODES NODELIST(REASON)
    10      mira    zoppo    david PD       0:00      1 (JobHeldUser)

Slurm documentation refers to CPUs, cores and threads. What exactly is considered a CPU?
If your nodes are configured with hyperthreading, then a CPU is equivalent to a hyperthread. Otherwise a CPU is equivalent to a core. You can determine if your nodes have more than one thread per core using the command "scontrol show node" and looking at the values of "ThreadsPerCore".

Note that even on systems with hyperthreading enabled, the resources will generally be allocated to jobs at the level of a core (see NOTE below). Two different jobs will not share a core except through the use of a partition OverSubscribe configuration parameter. For example, a job requesting resources for three tasks on a node with ThreadsPerCore=2 will be allocated two full cores. Note that Slurm commands contain a multitude of options to control resource allocation with respect to base boards, sockets, cores and threads.

(NOTE: An exception to this would be if the system administrator configured SelectTypeParameters=CR_CPU and each node's CPU count without its socket/core/thread specification. In that case, each thread would be independently scheduled as a CPU. This is not a typical configuration.)

What is the difference between the sbatch and srun commands?
The srun command has two different modes of operation. First, if not run within an existing job (i.e. not within a Slurm job allocation created by salloc or sbatch), then it will create a job allocation and spawn an application. If run within an existing allocation, the srun command only spawns the application. For this question, we will only address the first mode of operation and compare creating a job allocation using the sbatch and srun commands.

The srun command is designed for interactive use, with someone monitoring the output. The output of the application is seen as output of the srun command, typically at the user's terminal. The sbatch command is designed to submit a script for later execution and its output is written to a file. Command options used in the job allocation are almost identical. The most noticeable difference in options is that the sbatch command supports the concept of job arrays, while srun does not. Another significant difference is in fault tolerance. Failures involving sbatch jobs typically result in the job being requeued and executed again, while failures involving srun typically result in an error message being generated with the expectation that the user will respond in an appropriate fashion.

Can squeue output be color coded?
The squeue command output is not color coded, but other tools can be used to add color. One such tool is ColorWrapper (https://github.com/rrthomas/cw). A sample ColorWrapper configuration file and output are shown below.

path /bin:/usr/bin:/sbin:/usr/sbin:<env>
usepty
base green+
match red:default (Resources)
match black:default (null)
match black:cyan N/A
regex cyan:default  PD .*$
regex red:default ^\d*\s*C .*$
regex red:default ^\d*\s*CG .*$
regex red:default ^\d*\s*NF .*$
regex white:default ^JOBID.*

Can Slurm export an X11 display on an allocated compute node?
You can use the X11 builtin feature starting at version 17.11. It is enabled by setting PrologFlags=x11 in slurm.conf. Other X11 plugins must be deactivated.
Run it as shown: 

$ ssh -X user@login1
$ srun -n1 --pty --x11 xclock

An alternative for older versions is to build and install an optional SPANK plugin for that functionality. Instructions to build and install the plugin follow. This SPANK plugin will not work if used in combination with native X11 support so you must disable it compiling Slurm with --disable-x11. This plugin relies on openssh library and it provides features such as GSSAPI support.
Update the Slurm installation path as needed:

# It may be obvious, but don't forget the -X on ssh
$ ssh -X alex@testserver.com

# Get the plugin
$ mkdir git
$ cd git
$ git clone https://github.com/hautreux/slurm-spank-x11.git
$ cd slurm-spank-x11

# Manually edit the X11_LIBEXEC_PROG macro definition
$ vi slurm-spank-x11.c
$ vi slurm-spank-x11-plug.c
$ grep "define X11_" slurm-spank-x11.c
#define X11_LIBEXEC_PROG "/opt/slurm/17.02/libexec/slurm-spank-x11"
$ grep "define X11_LIBEXEC_PROG" slurm-spank-x11-plug.c
#define X11_LIBEXEC_PROG "/opt/slurm/17.02/libexec/slurm-spank-x11"


# Compile
$ gcc -g -o slurm-spank-x11 slurm-spank-x11.c
$ gcc -g -I/opt/slurm/17.02/include -shared -fPIC -o x11.so slurm-spank-x11-plug.c

# Install
$ mkdir -p /opt/slurm/17.02/libexec
$ install -m 755 slurm-spank-x11 /opt/slurm/17.02/libexec
$ install -m 755 x11.so /opt/slurm/17.02/lib/slurm

# Configure
$ echo -e "optional x11.so" >> /opt/slurm/17.02/etc/plugstack.conf
$ cd ~/tests

# Run
$ srun -n1 --pty --x11 xclock
alex@node1's password:

Why is the srun --u/--unbuffered option adding a carriage character return to my output?
The libc library used by many programs internally buffers output rather than writing it immediately. This is done for performance reasons. The only way to disable this internal buffering is to configure the program to write to a pseudo terminal (PTY) rather than to a regular file. This configuration causes some implementations of libc to prepend the carriage return character before all line feed characters. Removing the carriage return character would result in desired formatting in some instances, while causing bad formatting in other cases. In any case, Slurm is not adding the carriage return character, but displaying the actual program's output.

Why is sview not coloring/highlighting nodes properly?
sview color-coding is affected by the GTK theme. The node status grid is made up of button widgets and certain GTK themes don't show the color setting as desired. Changing GTK themes can restore proper color-coding.

For Administrators

How is job suspend/resume useful?
Job suspend/resume is most useful to get particularly large jobs initiated in a timely fashion with minimal overhead. Say you want to get a full-system job initiated. Normally you would need to either cancel all running jobs or wait for them to terminate. Canceling jobs results in the loss of their work to that point from their beginning. Waiting for the jobs to terminate can take hours, depending upon your system configuration. A more attractive alternative is to suspend the running jobs, run the full-system job, then resume the suspended jobs. This can easily be accomplished by configuring a special queue for full-system jobs and using a script to control the process. The script would stop the other partitions, suspend running jobs in those partitions, and start the full-system partition. The process can be reversed when desired. One can effectively gang schedule (time-slice) multiple jobs using this mechanism, although the algorithms to do so can get quite complex. Suspending and resuming a job makes use of the SIGSTOP and SIGCONT signals respectively, so swap and disk space should be sufficient to accommodate all jobs allocated to a node, either running or suspended.

Why is a node shown in state DOWN when the node has registered for service?
The configuration parameter ReturnToService in slurm.conf controls how DOWN nodes are handled. Set its value to one in order for DOWN nodes to automatically be returned to service once the slurmd daemon registers with a valid node configuration. A value of zero is the default and results in a node staying DOWN until an administrator explicitly returns it to service using the command "scontrol update NodeName=whatever State=RESUME". See "man slurm.conf" and "man scontrol" for more details.

What happens when a node crashes?
A node is set DOWN when the slurmd daemon on it stops responding for SlurmdTimeout as defined in slurm.conf. The node can also be set DOWN when certain errors occur or the node's configuration is inconsistent with that defined in slurm.conf. Any active job on that node will be killed unless it was submitted with the srun option --no-kill. Any active job step on that node will be killed. See the slurm.conf and srun man pages for more information.

How can I control the execution of multiple jobs per node?
There are two mechanisms to control this. If you want to allocate individual processors on a node to jobs, configure SelectType=select/cons_res. See Consumable Resources in Slurm for details about this configuration. If you want to allocate whole nodes to jobs, configure configure SelectType=select/linear. Each partition also has a configuration parameter OverSubscribe that enables more than one job to execute on each node. See man slurm.conf for more information about these configuration parameters.

When the Slurm daemon starts, it prints "cannot resolve X plugin operations" and exits. What does this mean?
This means that symbols expected in the plugin were not found by the daemon. This typically happens when the plugin was built or installed improperly or the configuration file is telling the plugin to use an old plugin (say from the previous version of Slurm). Restart the daemon in verbose mode for more information (e.g. "slurmctld -Dvvvvv").

How can I exclude some users from pam_slurm?
CAUTION: Please test this on a test machine/VM before you actually do this on your Slurm computers.

Step 1. Make sure pam_listfile.so exists on your system. The following command is an example on Redhat 6:

ls -la /lib64/security/pam_listfile.so

Step 2. Create user list (e.g. /etc/ssh/allowed_users):

# /etc/ssh/allowed_users
root
myadmin

And, change file mode to keep it secret from regular users(Optional):

chmod 600 /etc/ssh/allowed_users

NOTE: root is not necessarily listed on the allowed_users, but I feel somewhat safe if it's on the list.

Step 3. On /etc/pam.d/sshd, add pam_listfile.so with sufficient flag before pam_slurm.so (e.g. my /etc/pam.d/sshd looks like this):

#%PAM-1.0
auth       required     pam_sepermit.so
auth       include      password-auth
account    sufficient   pam_listfile.so item=user sense=allow file=/etc/ssh/allowed_users onerr=fail
account    required     pam_slurm.so
account    required     pam_nologin.so
account    include      password-auth
password   include      password-auth
# pam_selinux.so close should be the first session rule
session    required     pam_selinux.so close
session    required     pam_loginuid.so
# pam_selinux.so open should only be followed by sessions to be executed in the user context
session    required     pam_selinux.so open env_params
session    optional     pam_keyinit.so force revoke
session    include      password-auth

(Information courtesy of Koji Tanaka, Indiana University)

How can I dry up the workload for a maintenance period?
Create a resource reservation as described b. Slurm's Resource Reservation Guide.

How can PAM be used to control a user's limits on or access to compute nodes?
To control a user's limits on a compute node:

First, enable Slurm's use of PAM by setting UsePAM=1 in slurm.conf.

Second, establish PAM configuration file(s) for Slurm in /etc/pam.conf or the appropriate files in the /etc/pam.d directory (e.g. /etc/pam.d/sshd by adding the line "account required pam_slurm.so". A basic configuration you might use is:

account  required  pam_unix.so
account  required  pam_slurm.so
auth     required  pam_localuser.so
session  required  pam_limits.so

Third, set the desired limits in /etc/security/limits.conf. For example, to set the locked memory limit to unlimited for all users:

*   hard   memlock   unlimited
*   soft   memlock   unlimited

Finally, you need to disable Slurm's forwarding of the limits from the session from which the srun initiating the job ran. By default all resource limits are propagated from that session. For example, adding the following line to slurm.conf will prevent the locked memory limit from being propagated:PropagateResourceLimitsExcept=MEMLOCK.

To control a user's access to a compute node:

The pam_slurm_adopt and pam_slurm modules prevent users from logging into nodes that they have not been allocated (except for user root, which can always login). They are both included with the Slurm distribution.

The pam_slurm_adopt module is highly recommended for most installations, and is documented in its own guide.

pam_slurm is older and less functional. These modules are built by default for RPM packages, but can be disabled using the .rpmmacros option "%_without_pam 1" or by entering the command line option "--without pam" when the configure program is executed. Their source code is in the "contribs/pam" and "contribs/pam_slurm_adopt" directories respectively.

The use of either pam_slurm_adopt or pam_slurm does not require UsePAM being set. The two uses of PAM are independent.

Why are jobs allocated nodes and then unable to initiate programs on some nodes?
This typically indicates that the time on some nodes is not consistent with the node on which the slurmctld daemon executes. In order to initiate a job step (or batch job), the slurmctld daemon generates a credential containing a time stamp. If the slurmd daemon receives a credential containing a time stamp later than the current time or more than a few minutes in the past, it will be rejected. If you check in the SlurmdLogFile on the nodes of interest, you will likely see messages of this sort: "Invalid job credential from <some IP address>: Job credential expired." Make the times consistent across all of the nodes and all should be well.

Why does slurmctld log that some nodes are not responding even if they are not in any partition?
The slurmctld daemon periodically pings the slurmd daemon on every configured node, even if not associated with any partition. You can control the frequency of this ping with the SlurmdTimeout configuration parameter in slurm.conf.

How should I relocate the primary or backup controller?
If the cluster's computers used for the primary or backup controller will be out of service for an extended period of time, it may be desirable to relocate them. In order to do so, follow this procedure:

  1. Stop all Slurm daemons
  2. Modify the SlurmctldHost values in the slurm.conf file
  3. Distribute the updated slurm.conf file to all nodes
  4. Copy the StateSaveLocation directory to the new host and make sure the permissions allow the SlurmUser to read and write it.
  5. Restart all Slurm daemons

There should be no loss of any running or pending jobs. Ensure that any nodes added to the cluster have a current slurm.conf file installed. CAUTION: If two nodes are simultaneously configured as the primary controller (two nodes on which SlurmctldHost specify the local host and the slurmctld daemon is executing on each), system behavior will be destructive. If a compute node has an incorrect SlurmctldHost parameter, that node may be rendered unusable, but no other harm will result.

Can multiple Slurm systems be run in parallel for testing purposes?
Yes, this is a great way to test new versions of Slurm. Just install the test version in a different location with a different slurm.conf. The test system's slurm.conf should specify different pathnames and port numbers to avoid conflicts. The only problem is if more than one version of Slurm is configured with burst_buffer/* plugins or others that may interact with external system APIs. In that case, there can be conflicting API requests from the different Slurm systems. This can be avoided by configuring the test system with burst_buffer/none.

Can Slurm emulate a larger cluster?
Yes, this can be useful for testing purposes. It has also been used to partition "fat" nodes into multiple Slurm nodes. There are two ways to do this. The best method for most conditions is to run one slurmd daemon per emulated node in the cluster as follows.

  1. When executing the configure program, use the option --enable-multiple-slurmd (or add that option to your ~/.rpmmacros file).
  2. Build and install Slurm in the usual manner.
  3. In slurm.conf define the desired node names (arbitrary names used only by Slurm) as NodeName along with the actual address of the physical node in NodeHostname. Multiple NodeName values can be mapped to a single NodeHostname. Note that each NodeName on a single physical node needs to be configured to use a different port number (set Port to a unique value on each line for each node). You will also want to use the "%n" symbol in slurmd related path options in slurm.conf (SlurmdLogFile and SlurmdPidFile).
  4. When starting the slurmd daemon, include the NodeName of the node that it is supposed to serve on the execute line (e.g. "slurmd -N hostname").
  5. This is an example of the slurm.conf file with the emulated nodes and ports configuration. Any valid value for the CPUs, memory or other valid node resources can be specified.
NodeName=dummy26[1-100] NodeHostName=achille Port=[6001-6100] NodeAddr=127.0.0.1 CPUs=4 RealMemory=6000
PartitionName=mira Default=yes Nodes=dummy26[1-100]

See the Programmers Guide for more details about configuring multiple slurmd support.

In order to emulate a really large cluster, it can be more convenient to use a single slurmd daemon. That daemon will not be able to launch many tasks, but can suffice for developing or testing scheduling software. Do not run job steps with more than a couple of tasks each or execute more than a few jobs at any given time. Doing so may result in the slurmd daemon exhausting its memory and failing. Use this method with caution.

  1. Execute the configure program with your normal options plus --enable-front-end (this will define HAVE_FRONT_END in the resulting config.h file.
  2. Build and install Slurm in the usual manner.
  3. In slurm.conf define the desired node names (arbitrary names used only by Slurm) as NodeName along with the actual name and address of the one physical node in NodeHostName and NodeAddr. Up to 64k nodes can be configured in this virtual cluster.
  4. Start your slurmctld and one slurmd daemon. It is advisable to use the "-c" option to start the daemons without trying to preserve any state files from previous executions. Be sure to use the "-c" option when switching from this mode too.
  5. Create job allocations as desired, but do not run job steps with more than a couple of tasks.
$ ./configure --enable-debug --enable-front-end --prefix=... --sysconfdir=...
$ make install
$ grep NodeHostName slurm.conf
NodeName=dummy[1-1200] NodeHostName=localhost NodeAddr=127.0.0.1
$ slurmctld -c
$ slurmd -c
$ sinfo
PARTITION AVAIL  TIMELIMIT NODES  STATE NODELIST
pdebug*      up      30:00  1200   idle dummy[1-1200]
$ cat tmp
#!/bin/bash
sleep 30
$ srun -N200 -b tmp
srun: jobid 65537 submitted
$ srun -N200 -b tmp
srun: jobid 65538 submitted
$ srun -N800 -b tmp
srun: jobid 65539 submitted
$ squeue
JOBID PARTITION  NAME   USER  ST  TIME  NODES NODELIST(REASON)
65537    pdebug   tmp  jette   R  0:03    200 dummy[1-200]
65538    pdebug   tmp  jette   R  0:03    200 dummy[201-400]
65539    pdebug   tmp  jette   R  0:02    800 dummy[401-1200]

Can Slurm emulate nodes with more resources than physically exist on the node?
Yes. In the slurm.conf file, configure SlurmdParameters=config_overrides and specify any desired node resource specifications (CPUs, Sockets, CoresPerSocket, ThreadsPerCore, and/or TmpDisk). Slurm will use the resource specification for each node that is given in slurm.conf and will not check these specifications against those actually found on the node. The system would best be configured with TaskPlugin=task/none, so that launched tasks can run on any available CPU under operating system control.

What does a "credential replayed" error in the SlurmdLogFile indicate?
This error is indicative of the slurmd daemon not being able to respond to job initiation requests from the srun command in a timely fashion (a few seconds). Srun responds by resending the job initiation request. When the slurmd daemon finally starts to respond, it processes both requests. The second request is rejected and the event is logged with the "credential replayed" error. If you check the SlurmdLogFile and SlurmctldLogFile, you should see signs of the slurmd daemon's non-responsiveness. A variety of factors can be responsible for this problem including

  • Diskless nodes encountering network problems
  • Very slow Network Information Service (NIS)
  • The Prolog script taking a long time to complete

Configure MessageTimeout in slurm.conf to a value higher than the default 5 seconds.

What does "Warning: Note very large processing time" in the SlurmctldLogFile indicate?
This error is indicative of some operation taking an unexpectedly long time to complete, over one second to be specific. Setting the value of the SlurmctldDebug configuration parameter to debug2 or higher should identify which operation(s) are experiencing long delays. This message typically indicates long delays in file system access (writing state information or getting user information). Another possibility is that the node on which the slurmctld daemon executes has exhausted memory and is paging. Try running the program top to check for this possibility.

Is resource limit propagation useful on a homogeneous cluster?
Resource limit propagation permits a user to modify resource limits and submit a job with those limits. By default, Slurm automatically propagates all resource limits in effect at the time of job submission to the tasks spawned as part of that job. System administrators can utilize the PropagateResourceLimits and PropagateResourceLimitsExcept configuration parameters to change this behavior. Users can override defaults using the srun --propagate option. See "man slurm.conf" and "man srun" for more information about these options.

Do I need to maintain synchronized clocks on the cluster?
In general, yes. Having inconsistent clocks may cause nodes to be unusable. Slurm log files should contain references to expired credentials. For example: 

error: Munge decode failed: Expired credential
ENCODED: Wed May 12 12:34:56 2008
DECODED: Wed May 12 12:01:12 2008

Why are "Invalid job credential" errors generated?
This error is indicative of Slurm's job credential files being inconsistent across the cluster. All nodes in the cluster must have the matching public and private keys as defined by JobCredPrivateKey and JobCredPublicKey in the Slurm configuration file slurm.conf.

Why are "Task launch failed on node ... Job credential replayed" errors generated?
This error indicates that a job credential generated by the slurmctld daemon corresponds to a job that the slurmd daemon has already revoked. The slurmctld daemon selects job ID values based upon the configured value of FirstJobId (the default value is 1) and each job gets a value one larger than the previous job. On job termination, the slurmctld daemon notifies the slurmd on each allocated node that all processes associated with that job should be terminated. The slurmd daemon maintains a list of the jobs which have already been terminated to avoid replay of task launch requests. If the slurmctld daemon is cold-started (with the "-c" option or "/etc/init.d/slurm startclean"), it starts job ID values over based upon FirstJobId. If the slurmd is not also cold-started, it will reject job launch requests for jobs that it considers terminated. This solution to this problem is to cold-start all slurmd daemons whenever the slurmctld daemon is cold-started.

Can Slurm be used with Globus?
Yes. Build and install Slurm's Torque/PBS command wrappers along with the Perl APIs from Slurm's contribs directory and configure Globus to use those PBS commands. Note there are RPMs available for both of these packages, named torque and perlapi respectively.

What causes the error "Unable to accept new connection: Too many open files"?
The srun command automatically increases its open file limit to the hard limit in order to process all of the standard input and output connections to the launched tasks. It is recommended that you set the open file hard limit to 8192 across the cluster.

Why does the setting of SlurmdDebug fail to log job step information at the appropriate level?
There are two programs involved here. One is slurmd, which is a persistent daemon running at the desired debug level. The second program is slurmstepd, which executes the user job and its debug level is controlled by the user. Submitting the job with an option of --debug=# will result in the desired level of detail being logged in the SlurmdLogFile plus the output of the program.

Why aren't pam_slurm.so, auth_none.so, or other components in a Slurm RPM?
It is possible that at build time the required dependencies for building the library are missing. If you want to build the library then install pam-devel and compile again. See the file slurm.spec in the Slurm distribution for a list of other options that you can specify at compile time with rpmbuild flags and your rpmmacros file. The auth_none plugin is in a separate RPM and not built by default. Using the auth_none plugin means that Slurm communications are not authenticated, so you probably do not want to run in this mode of operation except for testing purposes. If you want to build the auth_none RPM then add --with auth_none on the rpmbuild command line or add %_with_auth_none to your ~/rpmmacros file. See the file slurm.spec in the Slurm distribution for a list of other options.

Why should I use the slurmdbd instead of the regular database plugins?
While the normal storage plugins will work fine without the added layer of the slurmdbd there are some great benefits to using the slurmdbd.

  1. Added security. Using the slurmdbd you can have an authenticated connection to the database.
  2. Offloading processing from the controller. With the slurmdbd there is no slowdown to the controller due to a slow or overloaded database.
  3. Keeping enterprise wide accounting from all Slurm clusters in one database. The slurmdbd is multi-threaded and designed to handle all the accounting for the entire enterprise.
  4. With the database plugins you can query with sacct accounting stats from any node Slurm is installed on. With the slurmdbd you can also query any cluster using the slurmdbd from any other cluster's nodes. Other tools like sreport are also available.

How can I build Slurm with debugging symbols?
When configuring, run the configure script with --enable-developer option. That will provide asserts, debug messages and the -Werror flag, that will in turn activate --enable-debug.
With the --enable-debug flag, the code will be compiled with -ggdb3 and -g -O1 -fno-strict-aliasing flags that will produce extra debugging information. Another possible option to use is --disable-optimizations that will set -O0. See also auxdir/x_ac_debug.m4 for more details.

How can I easily preserve drained node information between major Slurm updates?
Major Slurm updates generally have changes in the state save files and communication protocols, so a cold-start (without state) is generally required. If you have nodes in a DRAIN state and want to preserve that information, you can easily build a script to preserve that information using the sinfo command. The following command line will report the Reason field for every node in a DRAIN state and write the output in a form that can be executed later to restore state. 

sinfo -t drain -h -o "scontrol update nodename='%N' state=drain reason='%E'"

Why doesn't the HealthCheckProgram execute on DOWN nodes?
Hierarchical communications are used for sending this message. If there are DOWN nodes in the communications hierarchy, messages will need to be re-routed. This limits Slurm's ability to tightly synchronize the execution of the HealthCheckProgram across the cluster, which could adversely impact performance of parallel applications. The use of CRON or node startup scripts may be better suited to ensure that HealthCheckProgram gets executed on nodes that are DOWN in Slurm.

What is the meaning of the error "Batch JobId=# missing from batch node <node> (not found BatchStartTime after startup)"?
A shell is launched on node zero of a job's allocation to execute the submitted program. The slurmd daemon executing on each compute node will periodically report to the slurmctld what programs it is executing. If a batch program is expected to be running on some node (i.e. node zero of the job's allocation) and is not found, the message above will be logged and the job canceled. This typically is associated with exhausting memory on the node or some other critical failure that cannot be recovered from.

What does the message "srun: error: Unable to accept connection: Resources temporarily unavailable" indicate?
This has been reported on some larger clusters running SUSE Linux when a user's resource limits are reached. You may need to increase limits for locked memory and stack size to resolve this problem.

How could I automatically print a job's Slurm job ID to its standard output?
The configured TaskProlog is the only thing that can write to the job's standard output or set extra environment variables for a job or job step. To write to the job's standard output, precede the message with "print ". To export environment variables, output a line of this form "export name=value". The example below will print a job's Slurm job ID and allocated hosts for a batch job only. 

#!/bin/sh
#
# Sample TaskProlog script that will print a batch job's
# job ID and node list to the job's stdout
#

if [ X"$SLURM_STEP_ID" = "X" -a X"$SLURM_PROCID" = "X"0 ]
then
  echo "print =========================================="
  echo "print SLURM_JOB_ID = $SLURM_JOB_ID"
  echo "print SLURM_JOB_NODELIST = $SLURM_JOB_NODELIST"
  echo "print =========================================="
fi

Why are user processes and srun running even though the job is supposed to be completed?
Slurm relies upon a configurable process tracking plugin to determine when all of the processes associated with a job or job step have completed. Those plugins relying upon a kernel patch can reliably identify every process. Those plugins dependent upon process group IDs or parent process IDs are not reliable. See the ProctrackType description in the slurm.conf man page for details. We rely upon the cgroup plugin for most systems.

How can I prevent the slurmd and slurmstepd daemons from being killed when a node's memory is exhausted?
You can set the value in the /proc/self/oom_adj for slurmd and slurmstepd by initiating the slurmd daemon with the SLURMD_OOM_ADJ and/or SLURMSTEPD_OOM_ADJ environment variables set to the desired values. A value of -17 typically will disable killing.

I see the host of my calling node as 127.0.1.1 instead of the correct IP address. Why is that?
Some systems by default will put your host in the /etc/hosts file as something like

127.0.1.1	snowflake.llnl.gov	snowflake

This will cause srun and Slurm commands to use the 127.0.1.1 address instead of the correct address and prevent communications between nodes. The solution is to either remove this line or configure a different NodeAddr that is known by your other nodes.

The CommunicationParameters=NoInAddrAny configuration parameter is subject to this same problem, which can also be addressed by removing the actual node name from the "127.0.1.1" as well as the "127.0.0.1" addresses in the /etc/hosts file. It is ok if they point to localhost, but not the actual name of the node.

How can I stop Slurm from scheduling jobs?
You can stop Slurm from scheduling jobs on a per partition basis by setting that partition's state to DOWN. Set its state UP to resume scheduling. For example: 

$ scontrol update PartitionName=foo State=DOWN
$ scontrol update PartitionName=bar State=UP

Can I update multiple jobs with a single scontrol command?
No, but you can probably use squeue to build the script taking advantage of its filtering and formatting options. For example: 

$ squeue -tpd -h -o "scontrol update jobid=%i priority=1000" >my.script

Can Slurm be used to run jobs on Amazon's EC2?
Yes, here is a description of Slurm use with Amazon's EC2 courtesy of Ashley Pittman:

I do this regularly and have no problem with it, the approach I take is to start as many instances as I want and have a wrapper around ec2-describe-instances that builds a /etc/hosts file with fixed hostnames and the actual IP addresses that have been allocated. The only other step then is to generate a slurm.conf based on how many node you've chosen to boot that day. I run this wrapper script on my laptop and it generates the files and they rsyncs them to all the instances automatically.

One thing I found is that Slurm refuses to start if any nodes specified in the slurm.conf file aren't resolvable, I initially tried to specify cloud[0-15] in slurm.conf, but then if I configure less than 16 nodes in /etc/hosts this doesn't work so I dynamically generate the slurm.conf as well as the hosts file.

As a comment about EC2 I run just run generic AMIs and have a persistent EBS storage device which I attach to the first instance when I start up. This contains a /usr/local which has my software like Slurm, pdsh and MPI installed which I then copy over the /usr/local on the first instance and NFS export to all other instances. This way I have persistent home directories and a very simple first-login script that configures the virtual cluster for me.

If a Slurm daemon core dumps, where can I find the core file?
If slurmctld is started with the -D option, then the core file will be written to the current working directory. If SlurmctldLogFile is an absolute path, the core file will be written to this directory. Otherwise the core file will be written to the StateSaveLocation, or "/var/tmp/" as a last resort.
SlurmUser must have write permission on the directories. If none of the above directories have write permission for SlurmUser, no core file will be produced. For testing purposes the command "scontrol abort" can be used to abort the slurmctld daemon and generate a core file.

If slurmd is started with the -D option, then the core file will also be written to the current working directory. If SlurmdLogFile is an absolute path, the core file will be written to the this directory. Otherwise the core file will be written to the SlurmdSpoolDir, or "/var/tmp/" as a last resort.
If none of the above directories can be written, no core file will be produced.

For slurmstepd, the core file will depend upon when the failure occurs. If it is running in a privileged phase, it will be in the same location as that described above for the slurmd daemon. If it is running in an unprivileged phase, it will be in the spawned job's working directory.

Nevertheless, in some operating systems this can vary:

  • I.e. in RHEL the event may be captured by abrt daemon and generated in the defined abrt configured dump location (i.e. /var/spool/abrt).
  • In Cray XC ATP (Abnormal Termination Processing) daemon acts the same way, if it is enabled.

Normally, distributions need some more tweaking in order to allow the core files to be generated correctly.

slurmstepd uses the setuid() (set user ID) function to escalate privileges. It is possible that in certain systems and for security policies, this causes the core files not to be generated.
To allow the generation in such systems you usually must enable the suid_dumpable kernel parameter:

Set:
/proc/sys/fs/suid_dumpable to 2
or
sysctl fs.suid_dumpable=2

or set it permanently in sysctl.conf
fs.suid_dumpable = 2

The value of 2, "suidsafe", makes any binary which normally not be dumped is dumped readable by root only.
This allows the end user to remove such a dump but not access it directly. For security reasons core dumps in this mode will not overwrite one another or other files.
This mode is appropriate when administrators are attempting to debug problems in a normal environment.

Then you must also set the core pattern to an absolute pathname:

sysctl kernel.core_pattern=/tmp/core.%e.%p

We recommend reading your distribution's documentation about the configuration of these parameters.

It is also usually needed to configure the system core limits, since it can be set to 0.

$ grep core /etc/security/limits.conf
#        - core - limits the core file size (KB)
*               hard    core            unlimited
*               soft    core            unlimited

In some systems it is not enough to set a hard limit, you must set also a soft limit.

Also, for generating the limits in userspace, the PropagateResourceLimits=CORE parameter in slurm.conf could be needed.

Be also sure to give SlurmUser the appropriate permissions to write in the core location directories.

NOTE: On a diskless node depending on the core_pattern or if /var/spool/abrt is pointing to an in-memory filespace like tmpfs, if the job caused an OOM, then the generation of the core may fill up your machine's memory and hang it. It is encouraged then to make coredumps go to a persistent storage. Be careful of multiple nodes writting a core dump to a shared filesystem since it may significantly impact it.

Other exceptions:

On Centos 6, also set "ProcessUnpackaged = yes" in the file /etc/abrt/abrt-action-save-package-data.conf.

On RHEL6, also set "DAEMON_COREFILE_LIMIT=unlimited" in the file rc.d/init.d/functions.

On a SELinux enabled system, or on a distribution with similar security system, get sure it is allowing to dump cores:

$ getsebool allow_daemons_dump_core

coredumpctl can also give valuable information:

$ coredumpctl info

How can TotalView be configured to operate with Slurm?
The following lines should also be added to the global .tvdrc file for TotalView to operate with Slurm: 

# Enable debug server bulk launch: Checked
dset -set_as_default TV::bulk_launch_enabled true

# Command:
# Beginning with TV 7X.1, TV supports Slurm and %J.
# Specify --mem-per-cpu=0 in case Slurm configured with default memory
# value and we want TotalView to share the job's memory limit without
# consuming any of the job's memory so as to block other job steps.
dset -set_as_default TV::bulk_launch_string {srun --mem-per-cpu=0 -N%N -n%N -w`awk -F. 'BEGIN {ORS=","} {if (NR==%N) ORS=""; print $1}' %t1` -l --input=none %B/tvdsvr%K -callback_host %H -callback_ports %L -set_pws %P -verbosity %V -working_directory %D %F}

# Temp File 1 Prototype:
# Host Lines:
# Slurm NodeNames need to be unadorned hostnames. In case %R returns
# fully qualified hostnames, list the hostnames in %t1 here, and use
# awk in the launch string above to strip away domain name suffixes.
dset -set_as_default TV::bulk_launch_tmpfile1_host_lines {%R}

How can a patch file be generated from a Slurm commit in GitHub?
Find and open the commit in GitHub then append ".patch" to the URL and save the resulting file. For an example, see: https://github.com/SchedMD/slurm/commit/91e543d433bed11e0df13ce0499be641774c99a3.patch

Why are the resource limits set in the database not being enforced?
In order to enforce resource limits, set the value of AccountingStorageEnforce in each cluster's slurm.conf configuration file appropriately. If AccountingStorageEnforce does not contains an option of "limits", then resource limits will not be enforced on that cluster. See Resource Limits for more information.

After manually setting a job priority value, how can its priority value be returned to being managed by the priority/multifactor plugin?
Hold and then release the job as shown below.

$ scontrol hold <jobid>
$ scontrol release <jobid>

Does anyone have an example node health check script for Slurm?
Probably the most comprehensive and lightweight health check tool out there is Node Health Check. It has integration with Slurm as well as Torque resource managers.

What process should I follow to add nodes to Slurm?
The slurmctld daemon has a multitude of bitmaps to track state of nodes and cores in the system. Adding nodes to a running system would require the slurmctld daemon to rebuild all of those bitmaps, which the developers feel would be safer to do by restarting the daemon. Communications from the slurmd daemons on the compute nodes to the slurmctld daemon include a configuration file checksum, so you probably also want to maintain a common slurm.conf file on all nodes. The following procedure is recommended:

  1. Stop the slurmctld daemon (e.g. "systemctl stop slurmctld" on the head node)
  2. Update the slurm.conf file on all nodes in the cluster
  3. Restart the slurmd daemons on all nodes (e.g. "systemctl restart slurmd" on all nodes)
  4. Restart the slurmctld daemon (e.g. "systemctl start slurmctld" on the head node)

NOTE: Jobs submitted with srun, and that are waiting for an allocation, prior to new nodes being added to the slurm.conf can fail if the job is allocated one of the new nodes.

Can Slurm be configured to manage licenses?
Slurm is not currently integrated with FlexLM, but it does provide for the allocation of global resources called licenses. Use the Licenses configuration parameter in your slurm.conf file (e.g. "Licenses=foo:10,bar:20"). Jobs can request licenses and be granted exclusive use of those resources (e.g. "sbatch --licenses=foo:2,bar:1 ..."). It is not currently possible to change the total number of licenses on a system without restarting the slurmctld daemon, but it is possible to dynamically reserve licenses and remove them from being available to jobs on the system (e.g. "scontrol update reservation=licenses_held licenses=foo:5,bar:2").

Can the salloc command be configured to launch a shell on a node in the job's allocation?
Yes, just use the SallocDefaultCommand configuration parameter in your slurm.conf file as shown below.

SallocDefaultCommand="srun -n1 -N1 --mem-per-cpu=0 --pty --preserve-env --cpu-bind=no --mpi=none $SHELL"

For Cray systems, add --gres=craynetwork:0 to the options. 

SallocDefaultCommand="srun -n1 -N1 --mem-per-cpu=0 --gres=craynetwork:0 --pty --preserve-env --mpi=none $SHELL"

What should I be aware of when upgrading Slurm?
See the Quick Start Administrator Guide Upgrade section for details.

How easy is it to switch from PBS or Torque to Slurm?
A lot of users don't even notice the difference. Slurm has wrappers available for the mpiexec, pbsnodes, qdel, qhold, qrls, qstat, and qsub commands (see contribs/torque in the distribution and the "slurm-torque" RPM). There is also a wrapper for the showq command at https://github.com/pedmon/slurm_showq.

Slurm recognizes and translates the "#PBS" options in batch scripts. Most, but not all options are supported.

Slurm also includes a SPANK plugin that will set all of the PBS environment variables based upon the Slurm environment (e.g. PBS_JOBID, PBS_JOBNAME, PBS_WORKDIR, etc.). One environment not set by PBS_ENVIRONMENT, which if set would result in the failure of some MPI implementations. The plugin will be installed in
<install_directory>/lib/slurm/spank_pbs.so
See the SPANK man page for configuration details.

How can I get SSSD to work with Slurm?
SSSD or System Security Services Deamon does not allow enumeration of group members by default. Note that enabling enumeration in large environments might not be feasible. However, Slurm does not need enumeration except for some specific quirky configurations (multiple groups with the same GID), so it's probably safe to leave enumeration disabled. SSSD is also case sensitive by default for some configurations, which could possibly raise other issues. Add the following lines to /etc/sssd/sssd.conf on your head node to address these issues:

enumerate = True
case_sensitive = False

How critical is configuring high availability for my database?

  • Consider if you really need a high-availability MySQL setup. A short outage of slurmdbd is not a problem, because slurmctld will store all data in memory and send it to slurmdbd when it resumes operations. The slurmctld daemon will also cache all user limits and fair share information.
  • You cannot use NDB, since SlurmDBD's MySQL implementation uses keys on BLOB values (and potentially other features on the incompatibility list).
  • You can set up "classical" Linux HA, with heartbeat/corosync to migrate IP between primary/backup mysql servers and:
    • Configure one way replication of mysql, and change primary/backup roles on failure
    • Use shared storage for primary/backup mysql servers database, and start backup on primary mysql failure.

How can I use double quotes in MySQL queries?
Execute: 

SET session sql_mode='ANSI_QUOTES';

This will allow double quotes in queries like this:

show columns from "tux_assoc_table" where Field='is_def';

Why is a compute node down with the reason set to "Node unexpectedly rebooted"?
This is indicative of the slurmctld daemon running on the cluster's head node as well as the slurmd daemon on the compute node when the compute node reboots. If you want to prevent this condition from setting the node into a DOWN state then configure ReturnToService to 2. See the slurm.conf man page for details. Otherwise use scontrol or sview to manually return the node to service.

How can a job which has exited with a specific exit code be requeued?
Slurm supports requeue in hold with a SPECIAL_EXIT state using the command:

scontrol requeuehold State=SpecialExit job_id

This is useful when users want to requeue and flag a job which has exited with a specific error case. See man scontrol(1) for more details.

$ scontrol requeuehold State=SpecialExit 10
$ squeue
   JOBID PARTITION  NAME     USER  ST       TIME  NODES NODELIST(REASON)
    10      mira    zoppo    david SE       0:00      1 (JobHeldUser)

The job can be later released and run again.

The requeueing of jobs which exit with a specific exit code can be automated using an EpilogSlurmctld, see man(5) slurm.conf. This is an example of a script which exit code depends on the existence of a file. 

$ cat exitme
#!/bin/sh
#
echo "hi! `date`"
if [ ! -e "/tmp/myfile" ]; then
  echo "going out with 8"
  exit 8
fi
rm /tmp/myfile
echo "going out with 0"
exit 0

This is an example of an EpilogSlurmctld that checks the job exit value looking at the SLURM_JOB_EXIT2 environment variable and requeues a job if it exited with value 8. The SLURM_JOB_EXIT2 has the format "exit:sig", the first number is the exit code, typically as set by the exit() function. The second number of the signal that caused the process to terminate if it was terminated by a signal. 

$ cat slurmctldepilog
#!/bin/sh

export PATH=/bin:/home/slurm/linux/bin
LOG=/home/slurm/linux/log/logslurmepilog

echo "Start `date`" >> $LOG 2>&1
echo "Job $SLURM_JOB_ID exitcode $SLURM_JOB_EXIT_CODE2" >> $LOG 2>&1
exitcode=`echo $SLURM_JOB_EXIT_CODE2|awk '{split($0, a, ":"); print a[1]}'` >> $LOG 2>&1
if [ "$exitcode" == "8" ]; then
   echo "Found REQUEUE_EXIT_CODE: $REQUEUE_EXIT_CODE" >> $LOG 2>&1
   scontrol requeuehold state=SpecialExit $SLURM_JOB_ID >> $LOG 2>&1
   echo $? >> $LOG 2>&1
else
   echo "Job $SLURM_JOB_ID exit all right" >> $LOG 2>&1
fi
echo "Done `date`" >> $LOG 2>&1

exit 0

Using the exitme script as an example, we have it exit with a value of 8 on the first run, then when it gets requeued in hold with SpecialExit state we touch the file /tmp/myfile, then release the job which will finish in a COMPLETE state.

Can a user's account be changed in the database?
A user's account can not be changed directly. A new association needs to be created for the user with the new account. Then the association with the old account can be deleted.

# Assume user "adam" is initially in account "physics"
sacctmgr create user name=adam cluster=tux account=physics
sacctmgr delete user name=adam cluster=tux account=chemistry

What might account for MPI performance being below the expected level?
Starting the slurmd daemons with limited locked memory can account for this. Adding the line "ulimit -l unlimited" to the /etc/sysconfig/slurm file can fix this.

How could some jobs submitted immediately before the slurmctld daemon crashed be lost?
Any time the slurmctld daemon or hardware fails before state information reaches disk can result in lost state. Slurmctld writes state frequently (every five seconds by default), but with large numbers of jobs, the formatting and writing of records can take seconds and recent changes might not be written to disk. Another example is if the state information is written to file, but that information is cached in memory rather than written to disk when the node fails. The interval between state saves being written to disk can be configured at build time by defining SAVE_MAX_WAIT to a different value than five.

How do I safely remove partitions?
Partitions should be removed using the "scontrol delete PartitionName=<partition>" command. This is because scontrol will prevent any partitions from being removed that are in use. Partitions need to be removed from the slurm.conf after being removed using scontrol or they will return after a restart. An existing job's partition(s) can be updated with the "scontrol update JobId=<jobid> Partition=<partition(s)>" command. Removing a partition from the slurm.conf and restarting will cancel any existing jobs that reference the removed partitions.

Why is Slurm unable to set the CPU frequency for jobs?
First check that Slurm is configured to bind jobs to specific CPUs by making sure that TaskPlugin is configured to either affinity or cgroup. Next check that that your processor is configured to permit frequency control by examining the values in the file /sys/devices/system/cpu/cpu0/cpufreq where "cpu0" represents a CPU ID 0. Of particular interest is the file scaling_available_governors, which identifies the CPU governors available. If "userspace" is not an available CPU governor, this may well be due to the intel_pstate driver being installed. Information about disabling the intel_pstate driver is available from
https://bugzilla.kernel.org/show_bug.cgi?id=57141 and
http://unix.stackexchange.com/questions/121410/setting-cpu-governor-to-on-demand-or-conservative.

When adding a new cluster, how can the Slurm cluster configuration be copied from an existing cluster to the new cluster?
Accounts need to be configured for the cluster. An easy way to copy information from an existing cluster is to use the sacctmgr command to dump that cluster's information, modify it using some editor, the load the new information using the sacctmgr command. See the sacctmgr man page for details, including an example.

How can I update Slurm on a Cray DVS file system without rebooting the nodes?
The problem with DVS caching is related to the fact that the dereferenced value of /opt/slurm/default symlink is cached in the DVS attribute cache, and that cache is not dropped when the rest of the VM caches are.

The Cray Native Slurm installation manual indicates that Slurm should have a "default" symlink run through /etc/alternatives. As an alternative to that:

  1. Institute a policy that all changes to files which could be open persistently (i.e., .so files) are always modified by creating a new access path. I.e., installations go to a new directory.
  2. Dump the /etc/alternatives stuff, just use a regular symlink, e.g., default points to 15.8.0-1.
  3. Add a new mountpoint on all the compute nodes for /dsl/opt/slurm where the attrcache_timeout attribute is reduced from 14440s to 60s (or 15s -- whatever):
    mount -t dvs /opt/slurm /dsl/opt/slurm -o
    path=/dsl/opt/slurm,nodename=c0-0c0s0n0,loadbalance,cache,ro,attrcache_timeout=15
    In the example above, c0-0c0s0n0 is the single DVS server for the system.

Using this strategy avoids the caching problems, making upgrades simple. One just has to wait for about 20 seconds after changing the default symlinks before starting the slurmds again.

(Information courtesy of Douglas Jacobsen, NERSC, Lawrence Berkeley National Laboratory)

How can I rebuild the database hierarchy?
If you see errors of this sort:

error: Can't find parent id 3358 for assoc 1504, this should never happen.

in the slurmctld log file, this is indicative that the database hierarchy information has been corrupted, typically due to a hardware failure or administrator error in directly modifying the database. In order to rebuild the database information, start the slurmdbd daemon with the "-R" option followed by an optional comma separated list of cluster names to operate on.

How can a routing queue be configured?
A job submit plugin is designed to have access to a job request from a user, plus information about all of the available system partitions/queue. An administrator can write a C plugin or LUA script to set an incoming job's partition based upon its size, time limit, etc. See the Job Submit Plugin API guide for more information. Also see the available job submit plugins distributed with Slurm for examples (look in the "src/plugins/job_submit" directory).

How can I suspend, resume, hold or release all of the jobs belonging to a specific user, partition, etc?
There isn't any filtering by user, partition, etc. available in the scontrol command; however the squeue command can be used to perform the filtering and build a script which you can then execute. For example: 

$ squeue -u adam -h -o "scontrol hold %i" >hold_script

I had to change a user's UID and now they cannot submit jobs. How do I get the new UID to take effect?
When changing UIDs, you will also need to restart the slurmctld for the changes to take effect. Normally, when adding a new user to the system, the UID is filled in automatically and immediately. If the user isn't known on the system yet, there is a thread that runs every hour that fills in those UIDs when they become known, but it doesn't recognize UID changes of preexisting users. But you can simply restart the slurmctld for those changes to be recognized.

Slurmdbd is failing to start with a 'Duplicate entry' error in the database. How do I fix that?
This problem has been rarely observed with MySQL, but not MariaDB. The root cause of the failure seems to be reaching the upper limit on the auto increment field. Upgrading to MariaDB is recommended. If that is not possible then: backup the database, remove the duplicate record(s), and restart the slurmdbd daemon as shown below.

$ slurmdbd -Dvv
...
slurmdbd: debug:  Table "cray_job_table" has changed.  Updating...
slurmdbd: error: mysql_query failed: 1062 Duplicate entry '2711-1478734628' for key 'id_job'
...

$ mysqldump --single-transaction -u<user> -p<user> slurm_acct_db >/tmp/slurm_db_backup.sql

$ mysql
mysql> use slurm_acct_db;
mysql> delete from cray_job_table where id_job='2711-1478734628';
mysql> quit;
Bye

If necessary, you can edit the database dump and recreate the database as shown below.

$ mysql
mysql> drop database slurm_acct_db;
mysql> create database slurm_acct_db;
mysql> quit;
Bye

$ mysql -u<user> -p<user> </tmp/slurm_db_backup.sql

Why are applications on my Cray system failing with SIGBUS (bus error)?
By default, Slurm flushes Lustre file system and kernel caches upon completion of each job step. If multiple applications are run simultaneously on compute nodes (either multiple applications from a single Slurm job or multiple jobs) the result can be significant performance degradation and even bus errors. Failures occur more frequently when more applications are executed at the same time on individual compute nodes. Failures are also more common when Lustre file systems are used.

Two approaches exist to address this issue. One is to disable the flushing of caches, which can be accomplished by adding "LaunchParameters=lustre_no_flush" to your Slurm configuration file "slurm.conf". A second approach is to modify the Cray file system as described below in order to prevent Slurm-specific files needing to be re-resolved over DFS. This second approach does not address files used by applications, only those used directly by Slurm.

On Cray CLE6.0, by default, nodes get the operating system, including the Slurm installation and all of its plugins, via a DVS mount of "/". Really "/" is an overlay filesystem where the lower portion is a loop-mounted squashfs layer and the upper layer is tmpfs. When buffer caches are flushed during a dlopen (used by Slurm to load its plugins), a timeout may result from waiting to re-resolve a Slurm plugin over DVS.

The NERSC solution is to localize all files related to Slurm or involved in slurmstepd launch into that tmpfs layer at boot time. This is possible by creating a new netroot preload file:

# cat compute-preload.nersc
/usr/lib64/libslurm*so*
/usr/lib64/slurm/*.so
/usr/sbin/slurmd
/usr/sbin/slurmstepd
/usr/bin/sbatch
/usr/bin/srun
/usr/bin/sbcast
/usr/bin/numactl
/usr/lib64/libnuma*so*
/lib64/ast/libast.so*
/lib64/ast/libcmd.so*
/lib64/ast/libdll.so*
/lib64/ast/libshell.so*
/lib64/libacl.so*
/lib64/libattr.so*
/lib64/libc.so*
/lib64/libcap.so*
/lib64/libdl.so*
/lib64/libgcc_s.so*
...

NERSC generates its preload file by including everything installed by Slurm RPMs plus files identified as being used by Slurm's slurmd daemon on the compute node by running the "strace -f" command while the slurmd daemon is launching a job step.

Once the netroot preload file is generated, it needs to then be included in the cray_netroot_preload_worksheet CLE configuration. For example:

cray_netroot_preload.settings.load.data.label.compute: null
cray_netroot_preload.settings.load.data.compute.targets: []
cray_netroot_preload.settings.load.data.compute.content_lists:
- dist/compute-preload.cray
- dist/compute-preload.nersc
cray_netroot_preload.settings.load.data.compute.size_limit: 0

This is a generally useful technique for preventing remote lookups of commonly accessed files within jobs.

How do I configure Slurm to work with System V IPC enabled applications?
Slurm is generally agnostic to System V IPC (a.k.a. "sysv ipc" in the Linux kernel). Memory accounting of processes using sysv ipc changes depending on the value of sysctl kernel.shm_rmid_forced (added in Linux kernel 3.1):

  • shm_rmid_forced = 1
    • Forces all shared memory usage of processes to be accounted and reported by the kernel to Slurm. This breaks the separate namespace of sysv ipc and may cause unexpected application issues without careful planning. Processes that share the same sysv ipc namespaces across jobs may end up getting OOM killed when another job ends and their allocation percentage increases.
  • shm_rmid_forced = 0 (default in most Linux distributions)
    • System V memory usage will not be reported by Slurm for jobs. It is generally suggested to configure the sysctl kernel.shmmax parameter. The value of kernel.shmmax times the maximum number of job processes should be deducted from each node's configured RealMemory in your slurm.conf. Most Linux distributions set the default to what is effectively unlimited, which can cause the OOM killer to activate for unrelated new jobs or even for the slurmd process. If any processes use sysv memory mechanisms, the Linux kernel OOM killer will never be able to free the used memory. A Slurm job epilog script will be needed to free any of the user memory. Setting kernel.shmmax=0 will disable sysv ipc memory allocations but may cause application issues.

Last modified 17 July 2020