Basic Usage
Torque is able to dynamically allocate resources for your job. You simply need to submit it and it will find the processors for you.
Submit a job:
To submit a job you must write a shell script that torque will run. The idea is to create a Torque job file and then run "qsub job_file". Torque will run the job file with the options specified.
A basic job script example:
> cat test.sh
#!/bin/sh
date
sleep 30
This script will run date, and then sleep for 20 seconds on one processor. This script is not really useful until you replace the sleep and date commands with process intensive commands.
To submit the job to the queue, use qsub.
>qsub test.sh
2607.servername.colorado.edu
This job has the id 2607 and will be submitted to the default queue. When there is enough resources available, this job will run. On completion, Standard output and Standard error are saved into files where you ran the program from.
> ls
test.sh.o2607 test.sh.e2607
Delete a job
To delete a job use "qdel". Qdel will remove the job from the queue, and it will not be run. If it is being run it will stop the job.
>qdel 2607
Check the status of a job
To check the status of a job use "qstat". Qstat is a command that will return all queued and running jobs.
>qstat
Job id Name User Time Use S Queue
------------------------- ---------------- --------------- -------- - -----
2607.servername STDIN username 0 R workq
2608.servername STDIN username 0 Q workq
The 'S' parameter tells the status of the job. 'R' for running, 'Q' for queued.
Advanced usage:
Torque allows you to use advanced features and customizations when running jobs. The below sections are continuations of the sections above.
Job Submission:
There are options in the shell script that can be used to customize your job.
A Basic script
>cat test.sh
#!/bin/bash
#PBS -N testjob
cat $PBS_NODEFILE
sleep 30
$PBS_NODEFILE is the location of a file that contains a list of the nodes allocated for this job.
#PBS specifies an option to Torque. There are many listed below, but more can be found in the man page for qsub.
#PBS -r n # The job is not rerunnable.
#PBS -r y # The job is rerunnable
#PBS -q testq # The queue to submit to
#PBS -N testjob # The name of the job
#PBS -o testjob.out # The file to print the output to
#PBS -e testjob.err # The file to print the error to
# Mail Directives
#PBS -m abe # The points during the execution to send an email
#PBS -M me@colorado.edu # Who to Mail to
#PBS -l walltime=01:00:00 # Specify the walltime
#PBS -l pmem=100mb # Memory Allocation for the Job
#PBS -l nodes=4 # Number of nodes to Allocate
#PBS -l nodes=4:ppn=3 # Number of nodes and the number processors per node
You can use any of the above options in the script to customize your job. If all of the above options are used, the job will be named testjob and be put into the testq. It will only run for 1 hour and mail me@colorado.edu at the beginning and end of the job. It will use 4 nodes with 3 processors per node, with a total of 12 processors and 100 mb of memory.
Check the status of a job:
Torque and Maui allow you to check the status of jobs and the queue status.
In Torque:
Qstat has many options for checking a job status. The basic way is running the command with out any options which is showed above. Again the man pages are the best resources for information.
Other options include: -n, -f, -Q, -B, -u, -q
The -n option will show which nodes are running which jobs.
>qstat -n
server.colorado.edu:
Req'd Req'd Elap
Job ID Username Queue Jobname SessID NDS TSK Memory Time S Time
-------------------- -------- -------- ---------------- ------ ----- --- ------ ----- - -----
78.server.colorado user workq STDIN 4811 -- -- -- -- R --
node34/0
79.server.colorado user workq STDIN 4830 -- -- -- -- R --
node34/1
80.server.colorado user workq STDIN 3867 -- -- -- -- R --
node33/0
81.server.colorado user workq STDIN 4821 -- -- -- -- R --
node32/0
82.server.colorado user workq STDIN 4840 -- -- -- -- R --
node32/1
83.server.colorado user workq STDIN 4859 -- -- -- -- R --
node32/2
The -f option will show the full details for a specified job.
>qstat -f 78
Job Id: 84.server.colorado.edu
Job_Name = STDIN
Job_Owner = username@server.colorado.edu
resources_used.cput = 00:00:00
resources_used.mem = 1704kb
resources_used.vmem = 8028kb
resources_used.walltime = 00:00:01
job_state = R
queue = workq
server = server.colorado.edu
Checkpoint = u
ctime = Fri Apr 24 16:21:51 2009
Error_Path = server.colorado.edu:/tmp/STDIN.e84
exec_host = node34/0
Hold_Types = n
Join_Path = n
Keep_Files = n
Mail_Points = a
mtime = Fri Apr 24 16:21:53 2009
Output_Path = server.colorado.edu:/tmp/STDIN.o84
Priority = 0
qtime = Fri Apr 24 16:21:51 2009
Rerunable = True
Resource_List.neednodes = node34
session_id = 4877
substate = 42
Variable_List = PBS_O_HOME=/tmp,PBS_O_LOGNAME=username,
PBS_O_PATH= /usr/local/bin:/usr/bin
PBS_O_SHELL=/bin/tcsh,PBS_SERVER=server.colorado.edu,
PBS_O_HOST=server.colorado.edu,PBS_O_WORKDIR=/tmp
PBS_O_QUEUE=workq
euser = username
egroup = server
hashname = 84.server.colorado.edu
queue_rank = 83
queue_type = E
etime = Fri Apr 24 16:21:51 2009
start_time = Fri Apr 24 16:21:53 2009
start_count = 1
The -u option will show all jobs owned the specified user.
The -Q option will show the queue information. If a specific queue is specified it will only show the information from that queue.
>qstat -Q
Queue Max Tot Ena Str Que Run Hld Wat Trn Ext T
---------------- --- --- --- --- --- --- --- --- --- --- -
testing 0 0 yes yes 0 0 0 0 0 0 E
normal 8 1 yes yes 0 1 0 0 0 0 E
short 0 0 yes yes 0 0 0 0 0 0 E
long 0 3 yes yes 0 3 0 0 0 0 E
special 0 0 yes yes 0 0 0 0 0 0 E
In Maui:
If maui is installed on your system, you will have access to another set of tools. One of these is showq. showq is a tool like qstat. It will show the queue information.
>showq
ACTIVE JOBS--------------------
JOBNAME USERNAME STATE PROC REMAINING STARTTIME
624 user1 Running 4 21:00:01 Fri Apr 24 13:34:17
621 user2 Running 2 95:21:19:49 Mon Apr 20 13:54:06
622 user2 Running 2 95:21:23:06 Mon Apr 20 13:57:23
623 user2 Running 2 96:04:13:37 Mon Apr 20 20:47:54
4 Active Jobs 10 of 20 Processors Active (50.00%)
5 of 7 Nodes Active (71.43%)
IDLE JOBS----------------------
JOBNAME USERNAME STATE PROC WCLIMIT QUEUETIME
0 Idle Jobs
BLOCKED JOBS----------------
JOBNAME USERNAME STATE PROC WCLIMIT QUEUETIME
Total Jobs: 4 Active Jobs: 4 Idle Jobs: 0 Blocked Jobs: 0