srun

Langue: en

Version: 312284 (ubuntu - 07/07/09)

Section: 1 (Commandes utilisateur)

NAME

srun - run parallel jobs

SYNOPSIS

srun [OPTIONS...] executable [args...]

DESCRIPTION

Run a parallel job on cluster managed by SLURM. If necessary, srun will first create a resource allocation in which to run the parallel job.

OPTIONS

--acctg-freq=seconds
Define the job accounting sampling interval. This can be used to override the JobAcctGatherFrequency parameter in SLURM's configuration file, slurm.conf. A value of zero disables real the periodic job sampling and provides accounting information only on job termination (reducing SLURM interference with the job).
-B --extra-node-info=sockets[:cores[:threads]]
Request a specific allocation of resources with details as to the number and type of computational resources within a cluster: number of sockets (or physical processors) per node, cores per socket, and threads per core. The total amount of resources being requested is the product of all of the terms. As with --nodes, each value can be a single number or a range (e.g. min-max). An asterisk (*) can be used as a placeholder indicating that all available resources of that type are to be utilized. As with nodes, the individual levels can also be specified in separate options if desired:
     --sockets-per-node=sockets
     --cores-per-socket=cores
     --threads-per-core=threads
 
When the task/affinity plugin is enabled, specifying an allocation in this manner also instructs SLURM to use a CPU affinity mask to guarantee the request is filled as specified. NOTE: Support for these options are configuration dependent. The task/affinity plugin must be configured. In addition either select/linear or select/cons_res plugin must be configured. If select/cons_res is configured, it must have a parameter of CR_Core, CR_Core_Memory, CR_Socket, or CR_Socket_Memory.
--begin=time
Defer initiation of this job until the specified time. It accepts times of the form HH:MM:SS to run a job at a specific time of day (seconds are optional). (If that time is already past, the next day is assumed.) You may also specify midnight, noon, or teatime (4pm) and you can have a time-of-day suffixed with AM or PM for running in the morning or the evening. You can also say what day the job will be run, by specifying a date of the form MMDDYY or MM/DD/YY or MM.DD.YY. You can also give times like now + count time-units, where the time-units can be seconds (default), minutes, hours, days, or weeks and you can tell SLURM to run the job today with the keyword today and to run the job tomorrow with the keyword tomorrow. The value may be changed after job submission using the scontrol command. For example:
    --begin=16:00
    --begin=now+1hour
    --begin=now+60           (seconds by default)
    --begin=02/22/08-12:34:67
 
--checkpoint=time
Specifies the interval between creating checkpoints of the job step. By default, the job step will no checkpoints created. Acceptable time formats include "minutes", "minutes:seconds", "hours:minutes:seconds", "days-hours", "days-hours:minutes" and "days-hours:minutes:seconds".
--checkpoint-path=directory
Specifies the directory into which the job step's checkpoint should be written (used by the checkpoint/xlch plugin only).
-C, --constraint[=]<list>
Specify a list of constraints. The constraints are features that have been assigned to the nodes by the slurm administrator. The list of constraints may include multiple features separated by ampersand (AND) and/or vertical bar (OR) operators. For example: --constraint="opteron&video" or --constraint="fast|faster". In the first example, only nodes having both the feature "opteron" AND the feature "video" will be used. There is no mechanism to specify that you want one node with feature "opteron" and another node with feature "video" in that case that no node has both features. If only one of a set of possible options should be used for all allocated nodes, then use the OR operator and enclose the options within square brackets. For example: "--constraint="[rack1|rack2|rack3|rack4]" might be used to specify that all nodes must be allocated on a single rack of the cluster, but any of those four racks can be used. A request can also specify the number of nodes needed with some feature by appending an asterisk and count after the feature name. For example "srun --nodes=16 --constraint=graphics*4 ..." indicates that the job requires 16 nodes at that at least four of those nodes must have the feature "graphics." Constraints with node counts may only be combined with AND operators. If no nodes have the requested features, then the job will be rejected by the slurm job manager.
--cpu_bind=[{quiet,verbose},]type
Bind tasks to CPUs. Used only when the task/affinity plugin is enabled. NOTE: To have SLURM always report on the selected CPU binding for all commands executed in a shell, you can enable verbose mode by setting the SLURM_CPU_BIND environment variable value to "verbose".

Note that the SLURM_CPU_BIND environment variable will propagate into the tasks' environment in order to perform binding in batch submissions. If you do not wish to propagate --cpu_bind to successive srun commands, simply clear the variable in the task's script before executing srun:

         unsetenv SLURM_CPU_BIND
 

In addition, to SLURM_CPU_BIND, the following informational environment variables are also set when SLURM_CPU_BIND is in use:

         SLURM_CPU_BIND_VERBOSE
         SLURM_CPU_BIND_TYPE
         SLURM_CPU_BIND_LIST
 

See the ENVIRONMENT VARIABLE section for a more detailed description of the individual SLURM_CPU_BIND* variables.

When using --cpus-per-task to run multithreaded tasks, be aware that CPU binding is inherited from the parent of the process. This means that the multithreaded task should either specify or clear the CPU binding itself to avoid having all threads of the multithreaded task use the same mask/CPU as the parent. Alternatively, fat masks (masks which specify more than one allowed CPU) could be used for the tasks in order to provide multiple CPUs for the multithreaded tasks.

Supported options include:

q[uiet]
quietly bind before task runs (default)
v[erbose]
verbosely report binding before task runs
no[ne]
don't bind tasks to CPUs (default)
rank
bind by task rank
map_cpu:<list>
bind by mapping CPU IDs to tasks as specified where <list> is <cpuid1>,<cpuid2>,...<cpuidN>. CPU IDs are interpreted as decimal values unless they are preceded with '0x' in which case they interpreted as hexadecimal values.
mask_cpu:<list>
bind by setting CPU masks on tasks as specified where <list> is <mask1>,<mask2>,...<maskN>. CPU masks are always interpreted as hexadecimal values but can be preceded with an optional '0x'.
sockets
auto-generated masks bind to sockets
cores
auto-generated masks bind to cores
threads
auto-generated masks bind to threads
help
show this help message
-c, --cpus-per-task=ncpus
Request that ncpus be allocated per process. This may be useful if the job is multithreaded and requires more than one CPU per task for optimal performance. The default is one CPU per process. If -c is specified without -n, as many tasks will be allocated per node as possible while satisfying the -c restriction. For instance on a cluster with 8 CPUs per node, a job request for 4 nodes and 3 CPUs per task may be allocated 3 or 6 CPUs per node (1 or 2 tasks per node) depending upon resource consumption by other jobs. Such a job may be unable to execute more than a total of 4 tasks. This option may also be useful to spawn tasks without allocating resources to the job step from the job's allocation when running multiple job steps with the --exclusive option.
--comment=<string>
An arbitrary comment.
--contiguous
Demand a contiguous range of nodes. The default is "yes". Specify --contiguous=no if a contiguous range of nodes is not a constraint.
--core=type
Adjust corefile format for parallel job. If possible, srun will set up the environment for the job such that a corefile format other than full core dumps is enabled. If run with type = "list", srun will print a list of supported corefile format types to stdout and exit.
--ctrl-comm-ifhn=addr
Specify the address or hostname to be used for PMI communications only (task communication and synchronization primitives for MPCIH2). Defaults to hostname (response from getnodename function). Use of this is required if a DNS lookup can not be performed on the hostname or if that address is blocked from the compute nodes.
-D, --chdir=path
have the remote processes do a chdir to path before beginning execution. The default is to chdir to the current working directory of the srun process.
-d, --slurmd-debug=level
Specify a debug level for slurmd(8). level may be an integer value between 0 [quiet, only errors are displayed] and 4 [verbose operation]. The slurmd debug information is copied onto the stderr of the job. By default only errors are displayed.
-e, --error=mode
Specify how stderr is to be redirected. By default in interactive mode, srun redirects stderr to the same file as stdout, if one is specified. The --error option is provided to allow stdout and stderr to be redirected to different locations. See IO Redirection below for more options. If the specified file already exists, it will be overwritten.
--epilog=executable
srun will run executable just after the job step completes. The command line arguments for executable will be the command and arguments of the job step. If executable is "none", then no epilog will be run. This parameter overrides the SrunEpilog parameter in slurm.conf.
--exclusive
When used to initiate a job, the job allocation cannot share nodes with other running jobs. This is the oposite of --share, whichever option is seen last on the command line will win. (The default shared/exclusive behaviour depends on system configuration.)

This option can also be used when initiating more than job step within an existing resource allocation and you want separate processors to be dedicated to each job step. If sufficient processors are not available to initiate the job step, it will be deferred. This can be thought of as providing resource management for the job within it's allocation. Since resource management is provided by processor, the --ntasks option must be specified, but the following options should NOT be specified --nodes, --relative, --relative=arbitrary. See EXAMPLE below.

--gid=group
If srun is run as root, and the --gid option is used, submit the job with group's group access permissions. group may be the group name or the numerical group ID.
--help
Display verbose help message and exit.
--hint=type
Bind tasks according to application hints
compute_bound
Select settings for compute bound applications: use all cores in each physical CPU
memory_bound
Select settings for memory bound applications: use only one core in each physical CPU
[no]multithread
[don't] use extra threads with in-core multi-threading which can benefit communication intensive applications
help
show this help message
-I, --immediate
exit if resources are not immediately available. By default, --immediate is off, and srun will block until resources become available.
-i, --input=mode
Specify how stdin is to redirected. By default, srun redirects stdin from the terminal all tasks. See IO Redirection below for more options. For OS X, the poll() function does not support stdin, so input from a terminal is not possible.
-J, --job-name=jobname
Specify a name for the job. The specified name will appear along with the job id number when querying running jobs on the system. The default is the supplied executable program's name.
--jobid=id
Initiate a job step under an already allocated job with job id id. Using this option will cause srun to behave exactly as if the SLURM_JOBID environment variable was set.
-K, --kill-on-bad-exit
Terminate a job if any task exits with a non-zero exit code.
-k, --no-kill
Do not automatically terminate a job of one of the nodes it has been allocated fails. This option is only recognized on a job allocation, not for the submission of individual job steps. The job will assume all responsibilities for fault-tolerance. The active job step (MPI job) will almost certainly suffer a fatal error, but subsequent job steps may be run if this option is specified. The default action is to terminate job upon node failure.
-l, --label
prepend task number to lines of stdout/err. Normally, stdout and stderr from remote tasks is line-buffered directly to the stdout and stderr of srun. The --label option will prepend lines of output with the remote task id.
-L, --licenses=
Specification of licenses (or other resources available on all nodes of the cluster) which must be allocated to this job. License names can be followed by an asterisk and count (the default count is one). Multiple license names should be comma separated (e.g. "--licenses=foo*4,bar").
-m, --relative
(block|cyclic|arbitrary|plane=<options>) Specify an alternate distribution method for remote processes.
block
The block method of distribution will allocate processes in-order to the cpus on a node. If the number of processes exceeds the number of cpus on all of the nodes in the allocation then all nodes will be utilized. For example, consider an allocation of three nodes each with two cpus. A four-process block distribution request will distribute those processes to the nodes with processes one and two on the first node, process three on the second node, and process four on the third node. Block distribution is the default behavior if the number of tasks exceeds the number of nodes requested.
cyclic
The cyclic method distributes processes in a round-robin fashion across the allocated nodes. That is, process one will be allocated to the first node, process two to the second, and so on. This is the default behavior if the number of tasks is no larger than the number of nodes requested.
plane
The tasks are distributed in blocks of a specified size. The options include a number representing the size of the task block. This is followed by an optional specification of the task distribution scheme within a block of tasks and between the blocks of tasks. For more details (including examples and diagrams), please see
https://computing.llnl.gov/linux/slurm/mc_support.html
and
https://computing.llnl.gov/linux/slurm/dist_plane.html.
arbitrary
The arbitrary method of distribution will allocate processes in-order as listed in file designated by the environment variable SLURM_HOSTFILE. If this variable is listed it will over ride any other method specified. If not set the method will default to block. Inside the hostfile must contain at minimum the number of hosts requested. If requesting tasks (-n) your tasks will be laid out on the nodes in the order of the file.
--mail-type=type
Notify user by email when certain event types occur. Valid type values are BEGIN, END, FAIL, ALL (any state change). The user to be notified is indicated with --mail-user.
--mail-user=user
User to receive email notification of state changes as defined by --mail-type. The default value is the submitting user.
--mem[=]<MB>
Specify the real memory required per node in MegaBytes. Default value is DefMemPerNode and the maximum value is MaxMemPerNode. If configured, both of parameters can be seen using the scontrol show config command. This parameter would generally be used of whole nodes are allocated to jobs (SelectType=select/linear). Also see --mem-per-cpu. --mem and --mem-per-cpu are mutually exclusive.
--mem-per-cpu[=]<MB>
Mimimum memory required per allocated CPU in MegaBytes. Default value is DefMemPerCPU and the maximum value is MaxMemPerCPU. If configured, both of parameters can be seen using the scontrol show config command. This parameter would generally be used of individual processors are allocated to jobs (SelectType=select/cons_res). Also see --mem. --mem and --mem-per-cpu are mutually exclusive.
--mem_bind=[{quiet,verbose},]type
Bind tasks to memory. Used only when the task/affinity plugin is enabled and the NUMA memory functions are available. Note that the resolution of CPU and memory binding may differ on some architectures. For example, CPU binding may be performed at the level of the cores within a processor while memory binding will be performed at the level of nodes, where the definition of "nodes" may differ from system to system. The use of any type other than "none" or "local" is not recommended. If you want greater control, try running a simple test code with the options "--cpu_bind=verbose,none --mem_bind=verbose,none" to determine the specific configuration.

NOTE: To have SLURM always report on the selected memory binding for all commands executed in a shell, you can enable verbose mode by setting the SLURM_MEM_BIND environment variable value to "verbose".

Note that the SLURM_MEM_BIND environment variable will propagate into the tasks' environment in order to perform binding in batch submissions. If you do not wish to propagate --mem_bind to successive srun commands, simply clear the variable in the task's script before executing srun:

         unsetenv SLURM_MEM_BIND
 

In addition, to SLURM_MEM_BIND, the following informational environment variables are also set when SLURM_MEM_BIND is in use:

         SLURM_MEM_BIND_VERBOSE
         SLURM_MEM_BIND_TYPE
         SLURM_MEM_BIND_LIST
 

See the ENVIRONMENT VARIABLES section for a more detailed description of the individual SLURM_MEM_BIND* variables.

Supported options include:

q[uiet]
quietly bind before task runs (default)
v[erbose]
verbosely report binding before task runs
no[ne]
don't bind tasks to memory (default)
rank
bind by task rank (not recommended)
local
Use memory local to the processor in use
map_mem:<list>
bind by mapping a node's memory to tasks as specified where <list> is <cpuid1>,<cpuid2>,...<cpuidN>. CPU IDs are interpreted as decimal values unless they are preceded with '0x' in which case they interpreted as hexadecimal values (not recommended)
mask_mem:<list>
bind by setting memory masks on tasks as specified where <list> is <mask1>,<mask2>,...<maskN>. memory masks are always interpreted as hexadecimal values. Note that masks must be preceded with a '0x' if they don't begin with [0-9] so they are seen as numerical values by srun.
help
show this help message
--mincpus=n
Specify a minimum number of logical cpus/processors per node.
--minsockets=n
Specify a minimum number of sockets (physical processors) per node.
--mincores=n
Specify a minimum number of cores per socket.
--minthreads=n
Specify a minimum number of threads per core.
--msg-timeout=seconds
Modify the job launch message timeout. The default value is MessageTimeout in the SLURM configuration file slurm.conf. Changes to this are typically not recommended, but could be useful to diagnose problems.
--mpi=mpi_type
Identify the type of MPI to be used. May result in unique initiation procedures.
list
Lists available mpi types to choose from.
lam
Initiates one 'lamd' process per node and establishes necessary environment variables for LAM/MPI.
mpich1_shmem
Initiates one process per node and establishes necessary environment variables for mpich1 shared memory model. This also works for mvapich built for shared memory.
mpichgm
For use with Myrinet.
mvapich
For use with Infiniband.
openmpi
For use with OpenMPI.
none
No special MPI processing. This is the default and works with many other versions of MPI.
--multi-prog
Run a job with different programs and different arguments for each task. In this case, the executable program specified is actually a configuration file specifying the executable and arguments for each task. See MULTIPLE PROGRAM CONFIGURATION below for details on the configuration file contents.
-N, --nodes=minnodes[-maxnodes]
Request that a minimum of minnodes nodes be allocated to this job. The scheduler may decide to launch the job on more than minnodes nodes. A limit on the maximum node count may be specified with maxnodes (e.g. "--nodes=2-4"). The minimum and maximum node count may be the same to specify a specific number of nodes (e.g. "--nodes=2-2" will ask for two and ONLY two nodes). The partition's node limits supersede those of the job. If a job's node limits are outside of the range permitted for its associated partition, the job will be left in a PENDING state. This permits possible execution at a later time, when the partition limit is changed. If a job node limit exceeds the number of nodes configured in the partition, the job will be rejected. Note that the environment variable SLURM_NNODES will be set to the count of nodes actually allocated to the job. See the ENVIRONMENT VARIABLES section for more information. If -N is not specified, the default behavior is to allocate enough nodes to satisfy the requirements of the -n and -c options. The job will be allocated as many nodes as possible within the range specified and without delaying the initiation of the job.
-n, --ntasks=ntasks
Specify the number of tasks to run. Request that srun allocate resources for ntasks tasks. The default is one task per socket or core (depending upon the value of the SelectTypeParameters parameter in slurm.conf), but note that the --cpus-per-task option will change this default.
--network=type
Specify the communication protocol to be used. This option is supported on AIX systems. Since POE is used to launch tasks, this option is not normally used or is specified using the SLURM_NETWORK environment variable. The interpretation of type is system dependent. For systems with an IBM Federation switch, the following comma-separated and case insensitive types are recognized: IP (the default is user-space), SN_ALL, SN_SINGLE, BULK_XFER and adapter names (e.g. SNI0 and SNI1). For more information, on IBM systems see poe documentation on the environment variables MP_EUIDEVICE and MP_USE_BULK_XFER. Note that only four jobs steps may be active at once on a node with the BULK_XFER option due to limitations in the Federation switch driver.
--nice[=adjustment]
Run the job with an adjusted scheduling priority within SLURM. With no adjustment value the scheduling priority is decreased by 100. The adjustment range is from -10000 (highest priority) to 10000 (lowest priority). Only privileged users can specify a negative adjustment. NOTE: This option is presently ignored if SchedulerType=sched/wiki or SchedulerType=sched/wiki2.
--ntasks-per-core=ntasks
Request that no more than ntasks be invoked on each core. Similar to --ntasks-per-node except at the core level instead of the node level. Masks will automatically be generated to bind the tasks to specific core unless --cpu_bind=none is specified. NOTE: This option is not supported unless SelectType=CR_Core or SelectType=CR_Core_Memory is configured.
--ntasks-per-socket=ntasks
Request that no more than ntasks be invoked on each socket. Similar to --ntasks-per-node except at the socket level instead of the node level. Masks will automatically be generated to bind the tasks to specific sockets unless --cpu_bind=none is specified. NOTE: This option is not supported unless SelectType=CR_Socket or SelectType=CR_Socket_Memory is configured.
--ntasks-per-node=ntasks
Request that no more than ntasks be invoked on each node. This is similar to using --cpus-per-task=ncpus but does not require knowledge of the actual number of cpus on each node. In some cases, it is more convenient to be able to request that no more than a specific number of ntasks be invoked on each node. Examples of this include submitting a hybrid MPI/OpenMP app where only one MPI "task/rank" should be assigned to each node while allowing the OpenMP portion to utilize all of the parallelism present in the node, or submitting a single setup/cleanup/monitoring job to each node of a pre-existing allocation as one step in a larger job script.
-O, --overcommit
overcommit resources. Normally, srun will not allocate more than one process per cpu. By specifying --overcommit you are explicitly allowing more than one process per cpu. However no more than MAX_TASKS_PER_NODE tasks are permitted to execute per node.
-o, --output=mode
Specify the mode for stdout redirection. By default in interactive mode, srun collects stdout from all tasks and line buffers this output to the attached terminal. With --output stdout may be redirected to a file, to one file per task, or to /dev/null. See section IO Redirection below for the various forms of mode. If the specified file already exists, it will be overwritten.

If --error is not also specified on the command line, both stdout and stderr will directed to the file specified by --output.

--open-mode=append|truncate
Open the output and error files using append or truncate mode as specified. The default value is specified by the system configuration parameter JobFileAppend.
-P, --dependency[=]<dependency_list>
Defer the start of this job until the specified dependencies have been satisfied completed. <dependency_list> is of the form <type:job_id[:job_id][,type:job_id[:job_id]]>. Many jobs can share the same dependency and these jobs may even belong to different users. The value may be changed after job submission using the scontrol command.
after:job_id[:jobid...]
This job can begin execution after the specified jobs have begun execution.
afterany:job_id[:jobid...]
This job can begin execution after the specified jobs have terminated.
afternotok:job_id[:jobid...]
This job can begin execution after the specified jobs have terminated in some failed state (non-zero exit code, node failure, timed out, etc).
afterok:job_id[:jobid...]
This job can begin execution after the specified jobs have successfully executed (ran to completion with non-zero exit code).
singleton
This job can begin execution after any previously launched jobs sharing the same job name and user have terminated.
-p, --partition=partition
Request resources from partition "partition." Partitions are created by the slurm administrator, who also identify one of those partitions as the default.
--prolog=executable
srun will run executable just before launching the job step. The command line arguments for executable will be the command and arguments of the job step. If executable is "none", then no prolog will be run. This parameter overrides the SrunProlog parameter in slurm.conf.
--propagate[=rlimits]
Allows users to specify which of the modifiable (soft) resource limits to propagate to the compute nodes and apply to their jobs. If rlimits is not specified, then all resource limits will be propagated. The following rlimit names are supported by Slurm (although some options may not be supported on some systems):
ALL
All limits listed below
AS
The maximum address space for a processes
CORE
The maximum size of core file
CPU
The maximum amount of CPU time
DATA
The maximum size of a process's data segment
FSIZE
The maximum size of files created
MEMLOCK
The maximum size that may be locked into memory
NOFILE
The maximum number of open files
NPROC
The maximum number of processes available
RSS
The maximum resident set size
STACK
The maximum stack size
--pty
Execute task zero in pseudo terminal. Implicitly sets --unbuffered. Implicitly sets --error and --output to /dev/null for all tasks except task zero. Not currently supported on AIX platforms.
-Q, --quiet
Quiet operation. Suppress informational messages. Errors will still be displayed.
-q, --quit-on-interrupt
Quit immediately on single SIGINT (Ctrl-C). Use of this option disables the status feature normally available when srun receives a single Ctrl-C and causes srun to instead immediately terminate the running job.
-r, --relative=n
Run a job step relative to node n of the current allocation. This option may be used to spread several job steps out among the nodes of the current job. If -r is used, the current job step will begin at node n of the allocated nodelist, where the first node is considered node 0. The -r option is not permitted along with -w or -x, and will be silently ignored when not running within a prior allocation (i.e. when SLURM_JOBID is not set). The default for n is 0. If the value of --nodes exceeds the number of nodes identified with the --relative option, a warning message will be printed and the --relative option will take precedence.
-s, --share
The job can share nodes with other running jobs. This may result in faster job initiation and higher system utilization, but lower application performance.
-T, --threads=nthreads
Request that srun use nthreads to initiate and control the parallel job. The default value is the smaller of 60 or the number of nodes allocated. This should only be used to set a low thread count for testing on very small memory computers.
-t, --time=time
Establish a time limit to terminate the job after the specified period of time. If the job's time limit exceeds the partition's time limit, the job will be left in a PENDING state. The default value is the partition's time limit. When the time limit is reached, the job's processes are sent SIGTERM followed by SIGKILL. The interval between signals is specified by the SLURM configuration parameter KillWait. A time limit of 0 minutes indicates that an infinite timelimit should be used. Acceptable time formats include "minutes", "minutes:seconds", "hours:minutes:seconds", "days-hours", "days-hours:minutes" and "days-hours:minutes:seconds".
--task-epilog=executable
The slurmd daemon will run executable just after each task terminates. This will be before after any TaskEpilog parameter in slurm.conf is executed. This is meant to be a very short-lived program. If it fails to terminate within a few seconds, it will be killed along with any descendant processes.
--task-prolog=executable
The slurmd daemon will run executable just before launching each task. This will be executed after any TaskProlog parameter in slurm.conf is executed. Besides the normal environment variables, this has SLURM_TASK_PID available to identify the process ID of the task being started. Standard output from this program of the form "export NAME=value" will be used to set environment variables for the task being spawned.
--tmp=MB
Specify a minimum amount of temporary disk space.
-U, --account=account
Change resource use by this job to specified account. The account is an arbitrary string. The may be changed after job submission using the scontrol command.
-u, --unbuffered
do not line buffer stdout from remote tasks. This option cannot be used with --label.
--uid=user
Attempt to submit and/or run a job as user instead of the invoking user id. The invoking user's credentials will be used to check access permissions for the target partition. User root may use this option to run jobs as a normal user in a RootOnly partition for example. If run as root, srun will drop its permissions to the uid specified after node allocation is successful. user may be the user name or numerical user ID.
--usage
Display brief help message and exit.
-V, --version
Display version information and exit.
-v, --verbose
Print detailed event logging. Multiple -v's will further increase the verbosity of logging. By default only errors will be displayed.
-W, --wait=seconds
Specify how long to wait after the first task terminates before terminating all remaining tasks. A value of 0 indicates an unlimited wait (a warning will be issued after 60 seconds). The default value is set by the WaitTime parameter in the slurm configuration file (see slurm.conf(5)). This option can be useful to insure that a job is terminated in a timely fashion in the event that one or more tasks terminate prematurely.
-w, --nodelist=host1,host2,... or filename
Request a specific list of hosts. The job will contain at least these hosts. The list may be specified as a comma-separated list of hosts, a range of hosts (host[1-5,7,...] for example), or a filename. The host list will be assumed to be a filename if it contains a "/" character. If you specify a max node count (-N1-2) if there are more than 2 hosts in the file only the first 2 nodes will be used in the request list.
--wckey=wckey
Specify wckey to be used with job. If TrackWCKey=no (default) in the slurm.conf this value does not get looked at.
-X, --disable-status
Disable the display of task status when srun receives a single SIGINT (Ctrl-C). Instead immediately forward the SIGINT to the running job. A second Ctrl-C in one second will forcibly terminate the job and srun will immediately exit. May also be set via the environment variable SLURM_DISABLE_STATUS.
-x, --exclude=host1,host2,... or filename
Request that a specific list of hosts not be included in the resources allocated to this job. The host list will be assumed to be a filename if it contains a "/"character.

The following options support Blue Gene systems, but may be applicable to other systems as well.

--blrts-image=path
Path to blrts image for bluegene block. Default from blugene.conf if not set.
--conn-type=type
Require the partition connection type to be of a certain type. On Blue Gene the acceptable of type are MESH, TORUS and NAV. If NAV, or if not set, then SLURM will try to fit a TORUS else MESH. You should not normally set this option. SLURM will normally allocate a TORUS if possible for a given geometry.
-g, --geometry=XxYxZ
Specify the geometry requirements for the job. The three numbers represent the required geometry giving dimensions in the X, Y and Z directions. For example "--geometry=2x3x4", specifies a block of nodes having 2 x 3 x 4 = 24 nodes (actually base partitions on Blue Gene).
--linux-image=path
Path to linux image for bluegene block. Default from blugene.conf if not set.
--mloader-image=path
Path to mloader image for bluegene block. Default from blugene.conf if not set.
-R, --no-rotate
Disables rotation of the job's requested geometry in order to fit an appropriate partition. By default the specified geometry can rotate in three dimensions.
--ramdisk-image=path
Path to ramdisk image for bluegene block. Default from blugene.conf if not set.
--reboot
Force the allocated nodes to reboot before starting the job.

srun will submit the job request to the slurm job controller, then initiate all processes on the remote nodes. If the request cannot be met immediately, srun will block until the resources are free to run the job. If the -I (--immediate) option is specified srun will terminate if resources are not immediately available.

When initiating remote processes srun will propagate the current working directory, unless --chdir=path is specified, in which case path will become the working directory for the remote processes.

The -n, -c, and -N options control how CPUs and nodes will be allocated to the job. When specifying only the number of processes to run with -n, a default of one CPU per process is allocated. By specifying the number of CPUs required per task (-c), more than one CPU may be allocated per process. If the number of nodes is specified with -N, srun will attempt to allocate at least the number of nodes specified.

Combinations of the above three options may be used to change how processes are distributed across nodes and cpus. For instance, by specifying both the number of processes and number of nodes on which to run, the number of processes per node is implied. However, if the number of CPUs per process is more important then number of processes (-n) and the number of CPUs per process (-c) should be specified.

srun will refuse to allocate more than one process per CPU unless --overcommit (-O) is also specified.

srun will attempt to meet the above specifications "at a minimum." That is, if 16 nodes are requested for 32 processes, and some nodes do not have 2 CPUs, the allocation of nodes will be increased in order to meet the demand for CPUs. In other words, a minimum of 16 nodes are being requested. However, if 16 nodes are requested for 15 processes, srun will consider this an error, as 15 processes cannot run across 16 nodes.

IO Redirection

By default, stdout and stderr will be redirected from all tasks to the stdout and stderr of srun, and stdin will be redirected from the standard input of srun to all remote tasks. For OS X, the poll() function does not support stdin, so input from a terminal is not possible. This behavior may be changed with the --output, --error, and --input (-o, -e, -i) options. Valid format specifications for these options are

all
stdout stderr is redirected from all tasks to srun. stdin is broadcast to all remote tasks. (This is the default behavior)
none
stdout and stderr is not received from any task. stdin is not sent to any task (stdin is closed).
taskid
stdout and/or stderr are redirected from only the task with relative id equal to taskid, where 0 <= taskid <= ntasks, where ntasks is the total number of tasks in the current job step. stdin is redirected from the stdin of srun to this same task. This file will be written on the node executing the task.
filename
srun will redirect stdout and/or stderr to the named file from all tasks. stdin will be redirected from the named file and broadcast to all tasks in the job. filename refers to a path on the host that runs srun. Depending on the cluster's file system layout, this may result in the output appearing in different places depending on whether the job is run in batch mode.
format string
srun allows for a format string to be used to generate the named IO file described above. The following list of format specifiers may be used in the format string to generate a filename that will be unique to a given jobid, stepid, node, or task. In each case, the appropriate number of files are opened and associated with the corresponding tasks. Note that any format string containing %t, %n, and/or %N will be written on the node executing the task rather than the node where srun executes.
%J
jobid.stepid of the running job. (e.g. "128.0")
%j
jobid of the running job.
%s
stepid of the running job.
%N
short hostname. This will create a separate IO file per node.
%n
Node identifier relative to current job (e.g. "0" is the first node of the running job) This will create a separate IO file per node.
%t
task identifier (rank) relative to current job. This will create a separate IO file per task.

A number placed between the percent character and format specifier may be used to zero-pad the result in the IO filename. This number is ignored if the format specifier corresponds to non-numeric data (%N for example).

Some examples of how the format string may be used for a 4 task job step with a Job ID of 128 and step id of 0 are included below:

job%J.out
job128.0.out
job%4j.out
job0128.out
job%j-%2t.out
job128-00.out, job128-01.out, ...

ENVIRONMENT VARIABLES

Some srun options may be set via environment variables. These environment variables, along with their corresponding options, are listed below. Note: Command line options will always override these settings.

PMI_FANOUT
This is used exclusively with PMI (MPICH2 and MVAPICH2) and controls the fanout of data communications. The srun command sends messages to application programs (via the PMI library) and those applications may be called upon to forward that data to up to this number of additional tasks. Higher values offload work from the srun command to the applications and likely increase the vulnerability to failures. The default value is 32.
PMI_FANOUT_OFF_HOST
This is used exclusively with PMI (MPICH2 and MVAPICH2) and controls the fanout of data communications. The srun command sends messages to application programs (via the PMI library) and those applications may be called upon to forward that data to additional tasks. By default, srun sends one message per host and one task on that host forwards the data to other tasks on that host up to PMI_FANOUT. If PMI_FANOUT_OFF_HOST is defined, the user task may be required to forward the data to tasks on other hosts. Setting PMI_FANOUT_OFF_HOST may increase performance. Since more work is performed by the PMI library loaded by the user application, failures also can be more common and more difficult to diagnose.
PMI_TIME
This is used exclusively with PMI (MPICH2 and MVAPICH2) and controls how much the communications from the tasks to the srun are spread out in time in order to avoid overwhelming the srun command with work. The default value is 500 (microseconds) per task. On relatively slow processors or systems with very large processor counts (and large PMI data sets), higher values may be required.
SLURM_CONF
The location of the SLURM configuration file.
SLURM_ACCOUNT
Same as -U, --account=account
SLURM_CHECKPOINT
Same as --checkpoint=time
SLURM_CPU_BIND
Same as --cpu_bind=type
SLURM_CPUS_PER_TASK
Same as -c, --ncpus-per-task=n
SLURM_CONN_TYPE
Same as --conn-type=(mesh|nav|torus)
SLURM_CORE_FORMAT
Same as --core=format
SLURM_DEBUG
Same as -v, --verbose
SLURMD_DEBUG
Same as -d, --slurmd-debug
SLURM_DEPENDENCY
-P, --dependency=jobid
SLURM_DISABLE_STATUS
Same as -X, --disable-status
SLURM_DIST_PLANESIZE
Same as -m plane
SLURM_DISTRIBUTION
Same as -m, --distribution=(block|cyclic|arbitrary)
SLURM_EPILOG
Same as --epilog=executable
SLURM_EXCLUSIVE
Same as --exclusive
SLURM_GEOMETRY
Same as -g, --geometry=X,Y,Z
SLURM_JOB_NAME
Same as -J, --job-name=jobname except within an existing allocation, in which case it is ignored to avoid using the batch job's name as the name of each job step.
SLURM_LABELIO
Same as -l, --label
SLURM_MEM_BIND
Same as --mem_bind=type
SLURM_NETWORK
Same as --network=type
SLURM_NNODES
Same as -N, --nodes=(n|min-max)
SLURN_NTASKS_PER_CORE
Same as --ntasks-per-core
SLURN_NTASKS_PER_NODE
Same as --ntasks-per-nodea
SLURN_NTASKS_PER_SOCKET
Same as --ntasks-per-socketa
SLURM_NO_ROTATE
Same as --no-rotate
SLURM_NPROCS
Same as -n, --ntasks=n
SLURM_OPEN_MODE
Same as --open-mode
SLURM_OVERCOMMIT
Same as -O, --overcommit
SLURM_PARTITION
Same as -p, --partition=partition
SLURM_PROLOG
Same as --prolog=executable
SLURM_REMOTE_CWD
Same as -D, --chdir==dir
SLURM_SRUN_COMM_IFHN
Same as --ctrl-comm-ifhn=addr
SLURM_STDERRMODE
Same as -e, --error=mode
SLURM_STDINMODE
Same as -i, --input=mode
SLURM_STDOUTMODE
Same as -o, --output=mode
SLURM_TASK_EPILOG
Same as --task-epilog=executable
SLURM_TASK_MEM
Same as --task-mem
SLURM_TASK_PROLOG
Same as --task-prolog=executable
SLURM_THREADS
Same as -T, --threads
SLURM_TIMELIMIT
Same as -t, --time=minutes
SLURM_UNBUFFEREDIO
Same as -u, --unbuffered
SLURM_WAIT
Same as -W, --wait=seconds
SLURM_WORKING_DIR
-D, --chdir=path

Additionally, srun will set some environment variables in the environment of the executing tasks on the remote compute nodes. These environment variables are:

SLURM_CPU_BIND_VERBOSE
--cpu_bind verbosity (quiet,verbose).
SLURM_CPU_BIND_TYPE
--cpu_bind type (none,rank,map_cpu:,mask_cpu:)
SLURM_CPU_BIND_LIST
--cpu_bind map or mask list (<list of IDs or masks for this node>)
SLURM_CPUS_ON_NODE
Count of processors available to the job on this node. Note the select/linear plugin allocates entire nodes to jobs, so the value indicates the total count of CPUs on the node. The select/cons_res plugin allocates individual processors to jobs, so this number indicates the number of processors on this node allocated to the job.
SLURM_GTIDS
Global task IDs running on this node. Zero origin and comma separated.
SLURM_JOB_DEPENDENCY
Set to value of the --dependency option.
SLURM_JOBID
Job id of the executing job
SLURM_LAUNCH_NODE_IPADDR
IP address of the node from which the task launch was initiated (where the srun command ran from)
SLURM_LOCALID
Node local task ID for the process within a job
SLURM_MEM_BIND_VERBOSE
--mem_bind verbosity (quiet,verbose).
SLURM_MEM_BIND_TYPE
--mem_bind type (none,rank,map_mem:,mask_mem:)
SLURM_MEM_BIND_LIST
--mem_bind map or mask list (<list of IDs or masks for this node>)
SLURM_NNODES
Total number of nodes in the job's resource allocation
SLURM_NODEID
The relative node ID of the current node
SLURM_NODELIST
List of nodes allocated to the job
SLURM_NPROCS
Total number of processes in the current job
SLURM_PRIO_PROCESS
The scheduling priority (nice value) at the time of job submission. This value is propagated to the spawned processes.
SLURM_PROCID
The MPI rank (or relative process ID) of the current process
SLURM_STEPID
The step ID of the current job
SLURM_TASK_PID
The process ID of the task being started.
SLURM_TASKS_PER_NODE
Number of tasks to be initiated on each node. Values are comma separated and in the same order as SLURM_NODELIST. If two or more consecutive nodes are to have the same task count, that count is followed by "(x#)" where "#" is the repetition count. For example, "SLURM_TASKS_PER_NODE=2(x3),1" indicates that the first three nodes will each execute three tasks and the fourth node will execute one task.
SLURM_UMASK
The umask (user file-create mask) at the time of job submission. This value is propagated to the spawned processes.
MPIRUN_NOALLOCATE
Do not allocate a block on Blue Gene systems only.
MPIRUN_NOFREE
Do not free a block on Blue Gene systems only.
MPIRUN_PARTITION
The block name on Blue Gene systems only.

SIGNALS AND ESCAPE SEQUENCES

Signals sent to the srun command are automatically forwarded to the tasks it is controlling with a few exceptions. The escape sequence <control-c> will report the state of all tasks associated with the srun command. If <control-c> is entered twice within one second, then the associated SIGINT signal will be sent to all tasks and a termination sequence will be entered sending SIGCONT, SIGTERM, and SIGKILL to all spawned tasks. If a third <control-c> is received, the srun program will be terminated without waiting for remote tasks to exit or their I/O to complete.

The escape sequence <control-z> is presently ignored. Our intent is for this put the srun command into a mode where various special actions may be invoked.

MPI SUPPORT

MPI use depends upon the type of MPI being used. There are three fundamentally different modes of operation used by these various MPI implementation.

1. SLURM directly launches the tasks and performs initialization of communications (Quadrics MPI, MPICH2, MPICH-GM, MVAPICH, MVAPICH2 and some MPICH1 modes). For example: "srun -n16 a.out".

2. SLURM creates a resource allocation for the job and then mpirun launches tasks using SLURM's infrastructure (OpenMPI, LAM/MPI, HP-MPI and some MPICH1 modes).

3. SLURM creates a resource allocation for the job and then mpirun launches tasks using some mechanism other than SLURM, such as SSH or RSH (BlueGene MPI and some MPICH1 modes). These tasks initiated outside of SLURM's monitoring or control. SLURM's epilog should be configured to purge these tasks when the job's allocation is relinquished.

See https://computing.llnl.gov/linux/slurm/quickstart.html#mpi for more information on use of these various MPI implementation with SLURM.

MULTIPLE PROGRAM CONFIGURATION

Comments in the configuration file must have a "#" in column one. The configuration file contains the following fields separated by white space:
Task rank
One or more task ranks to use this configuration. Multiple values may be comma separated. Ranges may be indicated with two numbers separated with a '-' with the smaller number first (e.g. "0-4" and not "4-0"). To indicate all tasks, specify a rank of '*' (in which case you probably should not be using this option). If an attempt is made to initiate a task for which no executable program is defined, the following error message will be produced "No executable program specified for this task".
Executable
The name of the program to execute. May be fully qualified pathname if desired.
Arguments
Program arguments. The expression "%t" will be replaced with the task's number. The expression "%o" will be replaced with the task's offset within this range (e.g. a configured task rank value of "1-5" would have offset values of "0-4"). Single quotes may be used to avoid having the enclosed values interpreted. This field is optional.

For example:

 ###################################################################
 # srun multiple program configuration file
 #
 # srun -n8 -l --multi-prog silly.conf
 ###################################################################
 4-6       hostname
 1,7       echo  task:%t
 0,2-3     echo  offset:%o
 
 > srun -n8 -l --multi-prog silly.conf
 0: offset:0
 1: task:1
 2: offset:1
 3: offset:2
 4: linux15.llnl.gov
 5: linux16.llnl.gov
 6: linux17.llnl.gov
 7: task:7
 
 

EXAMPLES

This simple example demonstrates the execution of the command hostname in eight tasks. At least eight processors will be allocated to the job (the same as the task count) on however many nodes are required to satisfy the request. The output of each task will be proceeded with its task number. (The machine "dev" in the example below has a total of two CPUs per node)
 
 > srun -n8 -l hostname
 0: dev0
 1: dev0
 2: dev1
 3: dev1
 4: dev2
 5: dev2
 6: dev3
 7: dev3
 
 

The output of test.sh would be found in the default output file "slurm-42.out."

The srun -r option is used within a job script to run two job steps on disjoint nodes in the following example. The script is run using allocate mode instead of as a batch job in this case.

 
 > cat test.sh
 #!/bin/sh
 echo $SLURM_NODELIST
 srun -lN2 -r2 hostname
 srun -lN2 hostname
 
 > salloc -N4 test.sh
 dev[7-10]
 0: dev9
 1: dev10
 0: dev7
 1: dev8
 
 

The follwing script runs two job steps in parallel within an allocated set of nodes.

 
 > cat test.sh
 #!/bin/bash
 srun -lN2 -n4 -r 2 sleep 60 &
 srun -lN2 -r 0 sleep 60 &
 sleep 1
 squeue
 squeue -s
 wait
 
 > salloc -N4 test.sh
   JOBID PARTITION     NAME     USER  ST      TIME  NODES NODELIST
   65641     batch  test.sh   grondo   R      0:01      4 dev[7-10]
 
 STEPID     PARTITION     USER      TIME NODELIST
 65641.0        batch   grondo      0:01 dev[7-8]
 65641.1        batch   grondo      0:01 dev[9-10]
 
 

This example demonstrates how one executes a simple MPICH job. We use srun to build a list of machines (nodes) to be used by mpirun in its required format. A sample command line and the script to be executed follow.

 
 > cat test.sh
 #!/bin/sh
 MACHINEFILE="nodes.$SLURM_JOBID"
 
 # Generate Machinefile for mpich such that hosts are in the same
 #  order as if run via srun
 #
 srun -l /bin/hostname | sort -n | awk '{print $2}' > $MACHINEFILE
 
 # Run using generated Machine file:
 mpirun -np $SLURM_NPROCS -machinefile $MACHINEFILE mpi-app
 
 rm $MACHINEFILE
 
 > salloc -N2 -n4 test.sh
 
 

This simple example demonstrates the execution of different jobs on different nodes in the same srun. You can do this for any number of nodes or any number of jobs. The executables are placed on the nodes sited by the SLURM_NODEID env var. Starting at 0 and going to the number specified on the srun commandline.

 
 > cat test.sh
 case $SLURM_NODEID in
     0) echo "I am running on "
        hostname ;;
     1) hostname
        echo "is where I am running" ;;
 esac
 
 > srun -N2 test.sh
 dev0
 is where I am running
 I am running on 
 dev1
 
 

This example demonstrates use of multi-core options to control layout of tasks. We request that four sockets per node and two cores per socket be dedicated to the job.

 
 > srun -N2 -B 4-4:2-2 a.out
 

This example shows a script in which Slurm is used to provide resource management for a job by executing the various job steps as processors become available for their dedicated use.

 
 > cat my.script
 #!/bin/bash
 srun --exclusive -n4 prog1 &
 srun --exclusive -n3 prog2 &
 srun --exclusive -n1 prog3 &
 srun --exclusive -n1 prog4 &
 wait
 

COPYING

Copyright (C) 2006-2007 The Regents of the University of California. Copyright (C) 2008 Lawrence Livermore National Security. Produced at Lawrence Livermore National Laboratory (cf, DISCLAIMER). LLNL-CODE-402394.

This file is part of SLURM, a resource management program. For details, see <https://computing.llnl.gov/linux/slurm/>.

SLURM is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

SLURM is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.

SEE ALSO

salloc(1), sttach(1), sbatch(1), sbcast(1), scancel(1), scontrol(1), squeue(1), slurm.conf(5), sched_setaffinity(2), numa(3) getrlimit(2),