This HOWTO describes how to pass arguments to your program running on the cluster Infolab Compute Cluster.
The program
We are going to use the script from InfolabClusterComputeHowtoSingle that we modified just so it prints out the arguments passed to it. You can download the script here SingleCoreVariables.py.
1 #!/usr/bin/python2.7
2
3 import socket, datetime, time, getpass, sys
4
5 start = datetime.datetime.now()
6 hostname = socket.gethostname().split('.')[0]
7 username = getpass.getuser()
8 time.sleep(10)
9 end = datetime.datetime.now()
10
11 dfmt = "%Y-%m-%d %H:%M:%S"
12 print "Started: %s Finished: %s Host: %s User: %s" % (start.strftime(dfmt), end.strftime(dfmt), hostname, username)
13 print "My arguments:"
14 print sys.argv
The script starts, records the current time, figures out the hostname it is running on and the username it is running as. Then it sleeps for 10 seconds (so we at least have some impact on the cluster), records the time again and prints out a string that may look a little something like this (if we called it with myarg1, myarg2 and myarg3, of course):
Started: 2012-10-16 18:19:47 Finished: 2012-10-16 18:19:57 Host: ilhead1 User: akrevl My arguments: ['./SingleCoreVariables.py', 'myarg1', 'myarg2', 'myarg3']
The submission script
Now that we got the program up and running let's log into the submission node ilhead1 and prepare a submission script. You can download the script here: SingleCore.qsub.sh
We are using a friendly name SingleCoreJob for our submission and we are limiting our job to a single node and a single CPU cure (based on what our script does, there really is no reason to ask for more). We are also limiting the wall clock time to 1 minute. Since our program only sleeps for 10 seconds a 1 minute wall time seems more than enough for the job to complete.
Submit the job
Nothing left to do but submit the job to the cluster with qsub:
qsub -V /afs/cs.stanford.edu/u/akrevl/tutorial/SingleCore/SingleCore.qsub.sh
If we submitted the job successfully, the resource manager should reply with with the ID of the job and the name of the headnode:
4651.ilhead1.stanford.edu
Check on the job
While the job is running, you can check on it with qstat and showq commands. Please be patient with the showq command as it tends to return timeouts when a lot of jobs are in the queue.
~/ $ qstat Job id Name User Time Use S Queue ------------------------- ---------------- --------------- -------- - ----- 4651.ilhead1 SingleCoreJob akrevl 0 R test
~/ $ showq ACTIVE JOBS-------------------- JOBNAME USERNAME STATE PROC REMAINING STARTTIME 4651 akrevl Running 1 00:01:00 Tue Oct 16 17:19:29 1 Active Job 1 of 896 Processors Active (0.11%) 1 of 28 Nodes Active (3.57%)
The results
Once the job is finished it should deposit two files into the directory we ran qsub from:
SingleCoreJob.e4651: copy of the standard error stream
SingleCoreJob.o4651: copy of the standard output stream
Let's see what does our directory contain:
~/ $ ls /afs/cs.stanford.edu/u/akrevl/tutorial/SingleCore SingleCoreJob.e4651 SingleCoreJob.o4651 SingleCore.py SingleCore.qsub.sh
Now let's see the content of those files:
~/ $ cat SingleCoreJob.e4651 ~/ $ cat SingleCoreJob.o4651 Started: 2012-10-16 17:19:29 Finished: 2012-10-16 17:19:39 Host: iln28 User: akrevl
Excellent, the standard error file is empty and the standard output tells us that our job ran on node iln28 and it finished (as expeted) in 10 seconds.