These instructions will show how to run an lcsim-based user analysis job on the grid using the DIRAC client.
Setup the Grid Session
This setup needs to be performed anytime you want to do any work with DIRAC.
Start by sourcing the setup script for your local copy of DIRAC.
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source /nfs/slac/g/lcd/mc/prj/sw/x86_64/dirac/bashrc
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Now obtain a proxy.
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dirac-proxy-init
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The default user should be ilc_user which should work fine.
Now check that your proxy is valid.
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dirac-proxy-info
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The output of that command will look something like this:
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[1556 $] dirac-proxy-info
subject : /DC=org/DC=doegrids/OU=People/CN=Jeremy McCormick 123456/CN=proxy/CN=proxy
issuer : /DC=org/DC=doegrids/OU=People/CN=Jeremy McCormick 123456/CN=proxy
identity : /DC=org/DC=doegrids/OU=People/CN=Jeremy McCormick 123456
timeleft : 21:14:04
DIRAC group : ilc_prod
path : /tmp/x509up_u8286
username : jeremy
properties : NormalUser, ProductionManagement, CSAdministrator, JobSharing, JobAdministrator
VOMS : True
VOMS fqan : ['/ilc/Role=production', '/ilc', '/ilc/sid']
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If there is a problem, then you will need to fix it before continuing as DIRAC does not function correctly without a valid proxy.
Configuring the Working Directory
The following setup will need to be done just once.
Create some directory where you will work with user jobs.
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mkdir ~/dirac_jobs
cd ~/dirac_jobs
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Scripts from AFS will be used to launch the user jobs. Symlink to these in order to use the master copies.
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ln -s /afs/cern.ch/work/c/cgrefe/public/jobSubmission/SiDChainJob.py
ln -s /afs/cern.ch/work/c/cgrefe/public/jobSubmission/bannedSites.py
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Or you may copy them to your local directory.
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cp /afs/cern.ch/work/c/cgrefe/public/jobSubmission/SiDChainJob.py .
cp /afs/cern.ch/work/c/cgrefe/public/jobSubmission/bannedSites.py .
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These scripts will expect a few directories to exist so create these now.
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mkdir repositoryFiles lcsimSteeringFiles trackingStrategies
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You will need a local copy of the tracking strategies that will be used by lcsim. Technically, this may not be used in the job, but the script expects it to exist.
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cvs co lcsim # or use a local up to date copy
cp lcsim/resources/org/lcsim/recon/tracking/seedtracker/strategies/sidloi3_trackingStrategies_default.xml ./trackingStrategies
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Finally, you will need an LCSim steering file to specify the drivers used in your user job. This is covered in the next section.
LCSim Steering File
This is best understood by an example.
The following is a very simple test steering file.
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<lcsim xmlns:xs="http://www.w3.org/2001/XMLSchema-instance"
xs:noNamespaceSchemaLocation="http://www.lcsim.org/schemas/lcsim/1.0/lcsim.xsd">
<inputFiles>
<file>${inputFile}</file>
</inputFiles>
<control>
<numberOfEvents>-1</numberOfEvents>
</control>
<classpath>
<jarUrl>http://www.lcsim.org/maven2/org/lcsim/lcsim-analysis/1.0-SNAPSHOT/lcsim-analysis-1.0-20130426.224545-1.jar</jarUrl>
</classpath>
<execute>
<driver name="EventMarkerDriver"/>
<driver name="AidaSaveDriver"/>
<driver name="SimpleTrackAnalysis" />
</execute>
<drivers>
<driver name="EventMarkerDriver" type="org.lcsim.job.EventMarkerDriver">
<eventInterval>10</eventInterval>
</driver>
<driver name="AidaSaveDriver" type="org.lcsim.job.AidaSaveDriver">
<outputFileName>${outputAidaFile}</outputFileName>
</driver>
<driver name="SimpleTrackAnalysis" type="org.lcsim.analysis.SimpleTrackAnalysis" />
</drivers>
</lcsim>
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The ${outputAidaFile} is a special variable that the job script uses to insert the name of the AIDA output from your analysis. The name is automatically generated from the input files and your job information.
Running the Jobs
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The lcsim package currently depends on Java 1.6 whereas the current release is 1.7 so incompatibilities may occur. These will show up as error messages in your job log like the following.
This means that the jar with the external classes, in this case lcsim-analysis, was compiled with Java 1.7 but the JVM on the grid node is 1.6. This problem can be solved by using a 1.6 compiler locally or specifying 1.6 as the target in the Maven POM file. |
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There is a default list of sites NOT to use for the jobs in the bannedSites.py script. The default set is perhaps not restrictive enough. This is the contents of mine.
These are banned for being unreliable or from not being able to install necessary software, etc. |
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Here is a sample command to submit a user job:
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python SiDChainJob.py --prodid=1946 --merge=10 --maxfiles=100 --slic="" --marlin="" --pandora="" \
--lcsim="2.8-SNAPSHOT" --lcsimxml=template.lcsim --postlcsimxml="" \
--title="JM_test_analysis_prodID_1946" --detector="sidloi3"
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After this command is executed, something like the following should show in the terminal window:
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################################
SiD job submission to DIRAC
christian.grefe@cern.ch
################################
Using production ID to define LFN list:
Found production ID 1946. Associated meta data:
EvtType: evW_eeZ_vvZ_semileptonic
NumberOfEvents: 400
Polarisation: m80p20
Datatype: DST
Energy: 1000
MachineParams: B1b_ws
DetectorType: sid
Machine: ilc
DetectorModel: sidloi3
Found 33398 files associated with meta data
Jobs to submit:
Number of input files: 33398
Maximum input files to use: 101
Merged input files per job: 10
Events per job: all
Total number of jobs: 10
Maximum CPU time per job: 100000 sec
General parameters:
Detector model: sidloi3
Process name: evW_eeZ_vvZ_semileptonic
Job title: JM_test_analysis_prodID_1946
Banned sites: ['LCG.DESY-HH.de', 'LCG.KEK.jp', 'LCG.PNNL.us', 'LCG.UKI-LT2-IC-HEP.uk']
Repository file: repositoryFiles/sidloi3.JM_test_analysis_prodID_1946.prod1946.cfg
Files:
Input sand box: ['LFN:/ilc/prod/software/lcsim/lib.tar.gz']
Output sand box: ['*.log', '*.xml', '*.lcsim']
Output data: ['JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.aida']
Output storage path: sidloi3/evW_eeZ_vvZ_semileptonic/JM_test_analysis_prodID_1946
Output storage element: CERN-SRM
Steps executed:
1) LCSim step:
LCSim version: 2.8-SNAPSHOT
LCSim file: lcsimSteeringFiles/JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.xml
Tracking strategies: trackingStrategies/sidloi3_trackingStrategies_default.xml
Detector alias file: alias.properties
Proceed and submit job(s)? (Y/N):
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Then you'll get more output and another prompt:
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<=====v18r0p4=====>
Replica Lookup Time: 1.42 seconds
All LFN files have replicas available
lcsim 2.8-SNAPSHOT
Attribute list :
outputSE : Not defined
energy : 1000.0
extraParams : Not defined
outputRecFile : Not defined
outputDstPath : Not defined
trackingstrategy : trackingStrategies/sidloi3_trackingStrategies_default.xml
outputPath : Not defined
forget_about_Input : Not defined
outputDstFile : Not defined
aliasProperties : alias.properties
accountInProduction : True
appname : lcsim
detectortype : SID
inputSB : ['lcsimSteeringFiles/JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.xml', 'trackingStrategies/sidloi3_trackingStrategies_default.xml']
version : 2.8-SNAPSHOT
outputFile : JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.slcio
willBeCut : Not defined
outputRecPath : Not defined
logfile : lcsim_2.8-SNAPSHOT_Step_1.log
detectorModel : sidloi3.zip
addedtojob : True
datatype : REC
nbevts : -1
prodparameters : {'JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.slcio': {'datatype': 'REC', 'detectortype': 'SID'}}
steeringfile : lcsimSteeringFiles/JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16000.xml
debug : Not defined
inputfile : Not defined
Proceed and submit job(s)? y/[n] :
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The script will print messages like the following as it finds your files.
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<=====v18r0p4=====>
Replica Lookup Time: 1.28 seconds
All LFN files have replicas available
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Now you are finished with submission.
Monitoring the Jobs
The ILCDIRAC web interface can be used to monitor the jobs.
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The jobs will show on the right from where they can be monitored, killed, etc.
Getting the Job Output
The output, which in our example is one AIDA file per job, can be retrieved using DIRAC commands.
Create a directory where the job output will be stored.
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mkdir output
cd output
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Now you can use the local job repository that was automatically created by DIRAC when the jobs were submitted to retrieve the output in batch.
Below is an example command to retrieve the output data for a sample set of jobs:
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dirac-repo-retrieve-jobs-output-data -r ../repositoryFiles/sidloi3.JM_test_analysis_prodID_1946.prod1946.cfg
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For instance, the sample job that I ran put all the output files here:
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/ilc/user/j/jeremy/sidloi3/evW_eeZ_vvZ_semileptonic/JM_test_analysis_prodID_1946/
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Other output from the job is also available, including log files. These files can be obtained using this command:
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dirac-repo-retrieve-jobs-output -r ../repositoryFiles/sidloi3.JM_test_analysis_prodID_1946.prod1946.cfg
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Here is an example set of files from one job, not including the analysis output:
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JM_test_analysis_prodID_1946_evW_eeZ_vvZ_semileptonic_m80p20_rec_1946_16062.xml
jobDescription.xml
job_1.lcsim
lcsim_2.8-SNAPSHOT_Step_1.log
localEnv.log
sidloi3_trackingStrategies_default.xml
std.out
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These files can be useful when debugging any problems that may occur with the job execution.
Combining Output Files
Finally, you will need to combine the job output into a final analysis. This could be specific to your particular analysis. I will provide an example that combines the histograms from multiple AIDA files into one output file. These procedures may change in the future, and this is just an example.
Download a jar file from lcsim.org that contains a utility for merging AIDA files.
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cd ~/work
wget http://www.lcsim.org/maven2/org/lcsim/hps-java/1.6/hps-java-1.6-bin.jar
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Move all your output AIDA files to a single directory.
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cd ~/work/output
mkdir scratch
cp */*.aida scratch
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Finally, execute the utility to combine the AIDA files into a single output file:
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cd ~/work
java -cp ./hps-java-1.6-bin.jar org.lcsim.hps.users.phansson.mergeSimpleAIDA -d ./output/scratch/ -r ".*.aida" -o myanalysis.aida
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