Esempio n. 1
0
 def getMarlin( self ):
   """ Define a marlin step
   """
   from ILCDIRAC.Interfaces.API.NewInterface.Applications import Marlin
   marlin = Marlin()
 #  marlin.setVersion("v0111Prod")
   marlin.setVersion(self.marlinVersion)
   marlin.setSteeringFile(self.marlinSteeringFile)
   marlin.setGearFile(self.gearFile)
   marlin.setOutputDstFile("testmarlinDST.slcio")
   marlin.setOutputRecFile("testmarlinREC.slcio")
   marlin.setNumberOfEvents(1)
   return marlin
Esempio n. 2
0
 def getMarlin(self):
     """ Define a marlin step
 """
     from ILCDIRAC.Interfaces.API.NewInterface.Applications import Marlin
     marlin = Marlin()
     #  marlin.setVersion("v0111Prod")
     marlin.setVersion(self.marlinVersion)
     marlin.setSteeringFile(self.marlinSteeringFile)
     marlin.setGearFile(self.gearFile)
     marlin.setOutputDstFile("testmarlinDST.slcio")
     marlin.setOutputRecFile("testmarlinREC.slcio")
     marlin.setNumberOfEvents(1)
     return marlin
Esempio n. 3
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print lcinputREC

# Marlin
lcoutputDST  = recOutfile + "_%s.DST.slcio"%(indx) 
lcoutputREC  = recOutfile + "_%s.REC.slcio"%(indx) 

ma = Marlin()
ma.setVersion(ILCSoftVer)
ma.setDetectorModel(detectorModel)
ma.setSteeringFile("MarlinStdReco.xml")
ma.setExtraCLIArguments(" --constant.DetectorModel=%s "%(detectorModel) )
ma.setLogFile("marlin.log")
#ma.getInputFromApp(sim)
ma.setInputFile([lcoutputSIM])
ma.setEnergy(energy)
ma.setNumberOfEvents(evtsPerRun)
ma.setOutputDstFile(lcoutputDST)
ma.setOutputRecFile(lcoutputREC)

RECoutput.append(lcoutputDST)
RECoutput.append(lcoutputREC)

job = UserJob()
job.setName(jobname)
job.setJobGroup(jobGrName)
job.setILDConfig(ILDConfigVer)
job.setCPUTime(86400)
job.setInputData([lcinputREC])
job.setInputSandbox(["runRecoSplit_all_Tmp.py"])
job.setOutputSandbox(["*.log","*.sh","MarlinStdRecoParsed.xml","marlin*.xml","*.py "])
#job.setOutputSandbox(["*.log","*.sh","MarlinStdRecoParsed.xml","marlin*.xml","*.py ","*.root"])
Esempio n. 4
0
def subOverlay():

    # Decide parameters for a job
    outputSE = "KEK-SRM"

    isLocal = _clip.isLocal
    nbevts = 50 if _clip.numberOfEvents == 0 else _clip.numberOfEvents
    nbevts = 0  # To analize all input events
    outputFilePrefix = "overlay_example" if _clip.outputFilePrefix == "" else _clip.outputFilePrefix
    outputDir = _clip.outputDir
    inputFile = _clip.inputFile
    if inputFile == "":
        gLogger.error("Input file for ddsim does not given.")
        exit(-1)

    recfile = outputFilePrefix + ".rec.slcio"
    dstfile = outputFilePrefix + ".dst.slcio"
    detector_model = "ILD_l5_o1_v02"
    key = detector_model.split('_')
    sim_detectorModel = "_".join([key[0], key[1], key[3]])

    # Create DIRAC objects for job submission

    dIlc = DiracILC()

    job = UserJob()
    job.setJobGroup("myoverlayjob")
    job.setName("myoverlay")
    job.setOutputSandbox(['*.log', '*.sh', '*.py', '*.xml'])
    job.setILDConfig("v02-00-02")

    # job.setInputSandbox(["a6-parameters.sin", "P2f_qqbar.sin"])
    # job.setDestination(["LCG.KEK.jp", "LCG.DESY-HH.de"])  # job submission destination
    # job.setBannedSites([])         # a list of sites not to submit job
    # job.setCPUTime( cputime_limit_in_seconds_by_dirac_units )

    # Create Overlay application
    ovldata = [{
        "ProcessorName": "BgOverlayWW",
        "evttype": "aa_lowpt_WW",
        "ProdID": 10237,
        "expBG": 0.211,
        "subdir": "000"
    }, {
        "ProcessorName": "BgOverlayWB",
        "evttype": "aa_lowpt_WB",
        "ProdID": 10241,
        "expBG": 0.24605,
        "subdir": "000"
    }, {
        "ProcessorName": "BgOverlayBW",
        "evttype": "aa_lowpt_BW",
        "ProdID": 10239,
        "expBG": 0.243873,
        "subdir": "000"
    }, {
        "ProcessorName": "BgOverlayBB",
        "evttype": "aa_lowpt_BB",
        "ProdID": 10235,
        "expBG": 0.35063,
        "subdir": "000"
    }, {
        "ProcessorName": "PairBgOverlay",
        "evttype": "seeablepairs",
        "ProdID": 10233,
        "expBG": 1.0,
        "subdir": "100"
    }]

    BXOverlay = 1
    NbSigEvtsPerJob = 100
    numberOfSignalEvents = NbSigEvtsPerJob
    basebkgpath = "/ilc/prod/ilc/mc-opt-3/ild/sim/500-TDR_ws"
    energy = "500"

    for ovl in ovldata:
        print "### OverlayInput ... " + ovl["ProcessorName"]
        ovlapp = OverlayInput()
        ovlpath = "%s/%s/%s/v02-00-01/%8.8d/%s" % \
       ( basebkgpath, ovl["evttype"], sim_detectorModel, ovl["ProdID"] , ovl["subdir"] )
        print "    OverlayPath ... " + ovlpath
        ovlapp.setMachine("ilc_dbd")
        # ovlapp.setEnergy(energy)
        # ovlapp.setDetectorModel(sim_detectorModel)
        ovlapp.setProcessorName(ovl["ProcessorName"])
        ovlapp.setBkgEvtType(ovl["evttype"])
        ovlapp.setPathToFiles(ovlpath)
        ovlapp.setGGToHadInt(ovl["expBG"])
        ovlapp.setBXOverlay(BXOverlay)
        ovlapp.setNbSigEvtsPerJob(NbSigEvtsPerJob)
        ovlapp.setNumberOfSignalEventsPerJob(numberOfSignalEvents)
        res = job.append(ovlapp)
        if not res['OK']:
            print res['Message']
            exit(1)

    # Create Marlin application
    marlin = Marlin()
    marlin.setVersion("ILCSoft-02-00-02_gcc49")
    marlin.setDetectorModel(detector_model)
    marlin.setSteeringFile("MarlinStdReco.xml")
    marlin.setInputFile(inputFile)
    marlin.setNumberOfEvents(nbevts)
    marlin.setOutputDstFile(dstfile)
    marlin.setOutputRecFile(recfile)
    extraCLIArguments = " --constant.DetectorModel=%s " % detector_model
    extraCLIArguments += " --constant.RunOverlay=true --constant.CMSEnergy=%s " % str(
        energy)
    extraCLIArguments += " --global.Verbosity=MESSAGE "
    marlin.setExtraCLIArguments(extraCLIArguments)

    job.append(marlin)

    if outputDir != "":
        job.setOutputData([dstfile, recfile],
                          OutputPath=outputDir,
                          OutputSE=outputSE)

    if isLocal:
        job.submit(dIlc, mode="local")
    else:
        job.submit(dIlc)
def main():
	# Take the input arguments from the argument parser, and check they exist...
	args = parse_args()
	if not args:
		print 'Invalid Arguments'
		sys.exit(1)

#### Software Versions ####
	softVersions = ["v3r0p3", "HEAD", "ILC_DBD", "0116"] # Working (recommended)
	# softVersions = ["v3r0p3", "2.5", "ILC_DBD", "0116"] # Working 
	# softVersions = ["v3r0p3", "HEAD", "ILC_DBD", "ILCSoft-01-17-07"] # Working

	# Check the --runs and --split arguments to make sure they are compatible, if not exit... 
	if not check_events_arguments(args.events, args.split):
		sys.exit(1)

	# Check the input LFN given by user, it needs to have .stdhep extension and should not have LFN: at the beginning...
	lfn_check, lfn = check_input_LFN(args.stdhepInput)
	if not lfn_check:
		sys.exit(1)

	# Call when you begin ILC-DIRAC jobs, the true indicates a repository file is included...
	dirac = DiracILC(True, setup_repository_name(args.stdhepInput, args.detector))

	# Prepares the input and output sandboxes, if -f, then adds the files required for flavortagging,
	# into the input sandbox
	inputSandbox, outputSandbox = setup_sandboxes(args.macFile, args.flavortag)

	# Prepares values for the job loop...
	if args.split < 0:
		nInputEvents = int(args.events)
		nOutputEvents = int(args.events)
	if args.split > 0:
		nInputEvents = int(args.events)
		nOutputEvents = int(args.split)

	# Loop that runs through the required number of jobs to be executed...
	for startEvent in range(0, nInputEvents, nOutputEvents):

################## Job Initialise ########################################		
		job = UserJob()
		job.setName(path.basename(args.stdhepInput))
		job.setJobGroup('JobGroup')
		job.setInputSandbox(inputSandbox)
		fileNumber = startEvent/nOutputEvents
		print "Job ", fileNumber

		outputFiles = setup_output_dict(args.stdhepInput, args.detector, fileNumber, args.outputPath, softVersions)
		slicOutput=outputFiles['slicOutput']
		prePandoraOutput=outputFiles['prePandoraOutput']
		pandoraOutput=outputFiles['pandoraOutput']
		vertexingOutput=outputFiles['vertexingOutput']
		lcsimRecOutput=outputFiles['lcsimRecOutput']
		lcsimDstOutput=outputFiles['lcsimDstOutput']
		flavortagOutput=outputFiles['flavortagOutput']
		diracOutput=outputFiles['diracOutput']

################## SLIC ##################################################
		slic = SLIC()
		slic.setVersion(softVersions[0])
		slic.setSteeringFile(args.macFile)
		# slic.setInputFile(lfn)
		slic.setOutputFile(slicOutput)
		slic.setDetectorModel(args.detector)
		slic.setNumberOfEvents(nOutputEvents)
		slic.setStartFrom(startEvent)
		#print slic.listAttributes()
		result = job.append(slic)
		if not result['OK']:
			print result['Message']
			sys.exit(2)

################## lcsim (digitization and tracking) #####################
		lcsim = LCSIM()
		lcsim.setVersion(softVersions[1])
		lcsim.setSteeringFile('steeringFiles/sid_dbd_prePandora_noOverlay_v22.xml') # Another version is included in /steeringFiles
		lcsim.getInputFromApp(slic)
		lcsim.setTrackingStrategy('steeringFiles/sidloi3_trackingStrategies_default.xml')
		# lcsim.setAliasProperties('alias.properties')
		lcsim.setDetectorModel('geometryFiles/sidloi3.zip')
		lcsim.setOutputFile(prePandoraOutput)
		lcsim.setNumberOfEvents(nOutputEvents)
		#print lcsim.listAttributes()
		result = job.append(lcsim)
		if not result['OK']:
			print result['Message']
			sys.exit(2)

################## slicPandora ###########################################
		slicPandora = SLICPandora()
		slicPandora.setVersion(softVersions[2])
		slicPandora.setDetectorModel(args.detector)
		slicPandora.getInputFromApp(lcsim)
		slicPandora.setOutputFile(pandoraOutput)
		slicPandora.setPandoraSettings('pandoraSettings.xml')
		slicPandora.setNumberOfEvents(nOutputEvents)
		#print slicPandora.listAttributes()
		result = job.append(slicPandora)
		if not result['OK']:
			print result['Message']
			sys.exit(2)

################## Marlin, LCFIPlus Vertexing ############################
		vertexing = Marlin()
		vertexing.setVersion(softVersions[3])
		vertexing.setSteeringFile('steeringFiles/sid_dbd_vertexing.xml')
		vertexing.setGearFile('steeringFiles/sidloi3.gear')
		vertexing.getInputFromApp(slicPandora)
		vertexing.setOutputFile(vertexingOutput)
		vertexing.setNumberOfEvents(nOutputEvents)
		#print vertexing.listAttributes()
		result = job.append(vertexing)
		if not result['OK']:
			print result['Message']
			sys.exit(2)

################## lcsim (DST production) ################################
		lcsimDst = LCSIM()
		lcsimDst.setVersion(softVersions[1])
		lcsimDst.setSteeringFile('steeringFiles/sid_dbd_postPandora.xml')
		lcsimDst.getInputFromApp(vertexing)
		lcsimDst.setNumberOfEvents(nOutputEvents)
		# lcsimDst.setAliasProperties('alias.properties')
		lcsimDst.setDetectorModel('geometryFiles/sidloi3.zip')
		lcsimDst.setOutputRecFile(lcsimRecOutput)
		lcsimDst.setOutputDstFile(lcsimDstOutput)
		#print lcsimDst.listAttributes()
		result = job.append(lcsimDst)
		if not result['OK']:
			print result['Message']
			sys.exit(2)

################## Marlin, LCFIPlus flavortag ############################
		if args.flavortag:
			flavortag = Marlin()
			flavortag.setVersion(softVersions[3])
			flavortag.setSteeringFile('steeringFiles/sid_dbd_flavortag.xml')
			flavortag.setGearFile('steeringFiles/sidloi3.gear')
			flavortag.setInputFile(lcsimDstOutput)
			flavortag.setOutputFile(flavortagOutput)
			flavortag.setNumberOfEvents(nOutputEvents)
			#print flavortag.listAttributes()
			result = job.append(flavortag)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## Job Finalise ##########################################

		# List of banned sites that the job shall not be sent too. These are sites that jobs tend to fail on,
		# This list is likely to change.
		job.setBannedSites(['LCG.IN2P3-CC.fr', 'LCG.RAL-LCG2.uk', 'LCG.DESY-HH.de', 'LCG.DESYZN.de', 'LCG.KEK.jp',
							'OSG.PNNL.us',])

		job.setCPUTime(50000)
		job.setPlatform('x86_64-slc5-gcc43-opt')

		# Sets the output data file according to if -f is selcted, ships ouput to your /ilc/user/a/aPerson/
		# directory on the grid.
		if args.flavortag:
			job.setOutputData(flavortagOutput, diracOutput, args.SE)

		else: 
			job.setOutputData(lcsimDstOutput, diracOutput, args.SE)

		job.setOutputSandbox(outputSandbox)
		job.setInputData(lfn)

		if args.dontPromptMe:
			job.dontPromptMe()
		# Submits Job!!!
		job.submit()

	return 0;
Esempio n. 6
0
def main():
    # Take the input arguments from the argument parser, and check they exist...
    args = parse_args()
    if not args:
        print 'Invalid Arguments'
        sys.exit(1)

#### Software Versions ####
    softVersions = ["v3r0p3", "HEAD", "ILC_DBD",
                    "0116"]  # Working (recommended)
    # softVersions = ["v3r0p3", "2.5", "ILC_DBD", "0116"] # Working
    # softVersions = ["v3r0p3", "HEAD", "ILC_DBD", "ILCSoft-01-17-07"] # Working

    # Check the --runs and --split arguments to make sure they are compatible, if not exit...
    if not check_events_arguments(args.events, args.split):
        sys.exit(1)

    # Check the input LFN given by user, it needs to have .stdhep extension and should not have LFN: at the beginning...
    lfn_check, lfn = check_input_LFN(args.stdhepInput)
    if not lfn_check:
        sys.exit(1)

    # Call when you begin ILC-DIRAC jobs, the true indicates a repository file is included...
    dirac = DiracILC(True,
                     setup_repository_name(args.stdhepInput, args.detector))

    # Prepares the input and output sandboxes, if -f, then adds the files required for flavortagging,
    # into the input sandbox
    inputSandbox, outputSandbox = setup_sandboxes(args.macFile, args.flavortag)

    # Prepares values for the job loop...
    if args.split < 0:
        nInputEvents = int(args.events)
        nOutputEvents = int(args.events)
    if args.split > 0:
        nInputEvents = int(args.events)
        nOutputEvents = int(args.split)

    # Loop that runs through the required number of jobs to be executed...
    for startEvent in range(0, nInputEvents, nOutputEvents):

        ################## Job Initialise ########################################
        job = UserJob()
        job.setName(path.basename(args.stdhepInput))
        job.setJobGroup('JobGroup')
        job.setInputSandbox(inputSandbox)
        fileNumber = startEvent / nOutputEvents
        print "Job ", fileNumber

        outputFiles = setup_output_dict(args.stdhepInput, args.detector,
                                        fileNumber, args.outputPath,
                                        softVersions)
        slicOutput = outputFiles['slicOutput']
        prePandoraOutput = outputFiles['prePandoraOutput']
        pandoraOutput = outputFiles['pandoraOutput']
        vertexingOutput = outputFiles['vertexingOutput']
        lcsimRecOutput = outputFiles['lcsimRecOutput']
        lcsimDstOutput = outputFiles['lcsimDstOutput']
        flavortagOutput = outputFiles['flavortagOutput']
        diracOutput = outputFiles['diracOutput']

        ################## SLIC ##################################################
        slic = SLIC()
        slic.setVersion(softVersions[0])
        slic.setSteeringFile(args.macFile)
        # slic.setInputFile(lfn)
        slic.setOutputFile(slicOutput)
        slic.setDetectorModel(args.detector)
        slic.setNumberOfEvents(nOutputEvents)
        slic.setStartFrom(startEvent)
        #print slic.listAttributes()
        result = job.append(slic)
        if not result['OK']:
            print result['Message']
            sys.exit(2)

################## lcsim (digitization and tracking) #####################
        lcsim = LCSIM()
        lcsim.setVersion(softVersions[1])
        lcsim.setSteeringFile(
            'steeringFiles/sid_dbd_prePandora_noOverlay_v22.xml'
        )  # Another version is included in /steeringFiles
        lcsim.getInputFromApp(slic)
        lcsim.setTrackingStrategy(
            'steeringFiles/sidloi3_trackingStrategies_default.xml')
        # lcsim.setAliasProperties('alias.properties')
        lcsim.setDetectorModel('geometryFiles/sidloi3.zip')
        lcsim.setOutputFile(prePandoraOutput)
        lcsim.setNumberOfEvents(nOutputEvents)
        #print lcsim.listAttributes()
        result = job.append(lcsim)
        if not result['OK']:
            print result['Message']
            sys.exit(2)

################## slicPandora ###########################################
        slicPandora = SLICPandora()
        slicPandora.setVersion(softVersions[2])
        slicPandora.setDetectorModel(args.detector)
        slicPandora.getInputFromApp(lcsim)
        slicPandora.setOutputFile(pandoraOutput)
        slicPandora.setPandoraSettings('pandoraSettings.xml')
        slicPandora.setNumberOfEvents(nOutputEvents)
        #print slicPandora.listAttributes()
        result = job.append(slicPandora)
        if not result['OK']:
            print result['Message']
            sys.exit(2)

################## Marlin, LCFIPlus Vertexing ############################
        vertexing = Marlin()
        vertexing.setVersion(softVersions[3])
        vertexing.setSteeringFile('steeringFiles/sid_dbd_vertexing.xml')
        vertexing.setGearFile('steeringFiles/sidloi3.gear')
        vertexing.getInputFromApp(slicPandora)
        vertexing.setOutputFile(vertexingOutput)
        vertexing.setNumberOfEvents(nOutputEvents)
        #print vertexing.listAttributes()
        result = job.append(vertexing)
        if not result['OK']:
            print result['Message']
            sys.exit(2)

################## lcsim (DST production) ################################
        lcsimDst = LCSIM()
        lcsimDst.setVersion(softVersions[1])
        lcsimDst.setSteeringFile('steeringFiles/sid_dbd_postPandora.xml')
        lcsimDst.getInputFromApp(vertexing)
        lcsimDst.setNumberOfEvents(nOutputEvents)
        # lcsimDst.setAliasProperties('alias.properties')
        lcsimDst.setDetectorModel('geometryFiles/sidloi3.zip')
        lcsimDst.setOutputRecFile(lcsimRecOutput)
        lcsimDst.setOutputDstFile(lcsimDstOutput)
        #print lcsimDst.listAttributes()
        result = job.append(lcsimDst)
        if not result['OK']:
            print result['Message']
            sys.exit(2)

################## Marlin, LCFIPlus flavortag ############################
        if args.flavortag:
            flavortag = Marlin()
            flavortag.setVersion(softVersions[3])
            flavortag.setSteeringFile('steeringFiles/sid_dbd_flavortag.xml')
            flavortag.setGearFile('steeringFiles/sidloi3.gear')
            flavortag.setInputFile(lcsimDstOutput)
            flavortag.setOutputFile(flavortagOutput)
            flavortag.setNumberOfEvents(nOutputEvents)
            #print flavortag.listAttributes()
            result = job.append(flavortag)
            if not result['OK']:
                print result['Message']
                sys.exit(2)


################## Job Finalise ##########################################

# List of banned sites that the job shall not be sent too. These are sites that jobs tend to fail on,
# This list is likely to change.
        job.setBannedSites([
            'LCG.IN2P3-CC.fr',
            'LCG.RAL-LCG2.uk',
            'LCG.DESY-HH.de',
            'LCG.DESYZN.de',
            'LCG.KEK.jp',
            'OSG.PNNL.us',
        ])

        job.setCPUTime(50000)
        job.setPlatform('x86_64-slc5-gcc43-opt')

        # Sets the output data file according to if -f is selcted, ships ouput to your /ilc/user/a/aPerson/
        # directory on the grid.
        if args.flavortag:
            job.setOutputData(flavortagOutput, diracOutput, args.SE)

        else:
            job.setOutputData(lcsimDstOutput, diracOutput, args.SE)

        job.setOutputSandbox(outputSandbox)
        job.setInputData(lfn)

        if args.dontPromptMe:
            job.dontPromptMe()
        # Submits Job!!!
        job.submit()

    return 0
def main():
	# Take the input arguments from the argument parser, and check they exist...
	args = parse_args()
	if not args:
		print 'Invalid Arguments'
		sys.exit(1)

	print args.chain[0]

	# softVersions = ["v3r0p3", "3.0-SNAPSHOT", "ILC_DBD", "0116"]
	softVersions = ["v3r0p3", "HEAD", "ILC_DBD", "0116"] # Working (recommended)
	# softVersions = ["v3r0p3", "2.5", "ILC_DBD", "0116"] # Working 
	# softVersions = ["v3r0p3", "HEAD", "ILC_DBD", "ILCSoft-01-17-07"] # Working
	# softVersions = ["v3r0p3", "HEAD", "ILCSoft-01-17-08", "0116"]

	check_events_arguments(args.events, args.split)
	detector = args.detector
	alias_properties(detector)
	outputPath, outputBase, repoName = input_output(args.Input, detector, args.chain, args.digiSteering)
	inputSandbox, outputSandbox = setup_sandboxes(args.macFile)

	dirac = DiracILC(True, repoName)

	# Prepares values for the job loop...
	if args.split < 0:
		nInputEvents = int(args.events)
		nOutputEvents = int(args.events)
	if args.split > 0:
		nInputEvents = int(args.events)
		nOutputEvents = int(args.split)

	# Loop that runs through the required number of jobs to be executed...
	for startEvent in range(0, nInputEvents, nOutputEvents):

################## Job Initialise ########################################		
		job = UserJob()
		job.setName(outputBase)
		job.setJobGroup('JobGroup')
		job.setInputSandbox(inputSandbox)
		fileNumber = startEvent/nOutputEvents
		print "Job ---> ", fileNumber

################## SLIC ##################################################
		if 1 in args.chain:
			slic = SLIC()
			slic.setVersion(softVersions[0])
			slic.setSteeringFile(args.macFile)
			# slic.setInputFile(lfn)
			slic.setOutputFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_sim.slcio'))
			slic.setDetectorModel(detector)
			slic.setNumberOfEvents(nOutputEvents)
			slic.setStartFrom(startEvent)
			#print slic.listAttributes()
			result = job.append(slic)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## Overlay ###############################################
		if 2 in args.chain:
			'''
			#Add the gghad background overlay.
			gghad = OverlayInput()
			#gghad.setProdID(1767)
			gghad.setEnergy(500.0)
			gghad.setBXOverlay('args.bunches')
			gghad.setGGToHadInt( 4.1 )
			gghad.setNbSigEvtsPerJob(nOutputEvents)
			gghad.setMachine('ilc_dbd')
			gghad.setDetectorModel('sidloi3')
			gghad.setBkgEvtType('aa_lowpt')
			result = job.append( gghad )
			if not result['OK']:
				print result['Message']
				sys.exit(2)
			
			#Add the pair background overlay.
			pairs = OverlayInput()
			pairs.setProdID(2)
			pairs.setEnergy(500.0)
			pairs.setBXOverlay('args.bunches')
			pairs.setGGToHadInt(1.)
			pairs.setNbSigEvtsPerJob(nOutputEvents)
			pairs.setMachine('ilc_dbd')
			pairs.setDetectorModel('sidloi3')
			pairs.setBkgEvtType('eepairs')
			result = job.append( pairs )
			if not result['OK']:
				print result['Message']
				sys.exit(2)
			'''
			gghad = OverlayInput()
			gghad.setPathToFiles('/ilc/user/j/jstrube/gghadron_lowpt/sidloi3/')
			gghad.setBXOverlay(int(args.bunches))
			gghad.setGGToHadInt( 4.1 )
			gghad.setNbSigEvtsPerJob(nOutputEvents)
			gghad.setBkgEvtType('aa_lowpt')		
			result = job.append( gghad )
			if not result['OK']:
				print result['Message']
				sys.exit(2)
			'''
			pairs = OverlayInput()
			pairs.setPathToFiles('/ilc/user/j/jstrube/GuineaPig/sidloi3/')
			pairs.setBXOverlay(int(args.bunches))
			pairs.setGGToHadInt(1.)
			pairs.setBkgEvtType('eepairs')
			pairs.setNbSigEvtsPerJob(nOutputEvents)
			result = job.append( pairs )
			if not result['OK']:
				print result['Message']
				sys.exit(2)
			'''
			
################## lcsim (digitization and tracking) #####################
		if 3 in args.chain:
			lcsim = LCSIM()
			lcsim.setVersion(softVersions[1])
			lcsim.setSteeringFile(args.digiSteering) # Another version is included in /steeringFiles
			if 1 in args.chain:
				lcsim.getInputFromApp(slic)
			lcsim.setTrackingStrategy('steeringFiles/sidloi3_trackingStrategies_default.xml')
			lcsim.setAliasProperties('steeringFiles/alias.properties')
			lcsim.setDetectorModel(detector+".zip")
			#lcsim.setOutputFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_digiTracking.slcio'))
			lcsim.setOutputDstFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_DST.slcio')) #NEED TO CHANGE!!!
			lcsim.setNumberOfEvents(nOutputEvents)
			#print lcsim.listAttributes()
			result = job.append(lcsim)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## slicPandora ###########################################
		if 4 in args.chain:
			slicPandora = SLICPandora()
			slicPandora.setVersion(softVersions[2])
			slicPandora.setDetectorModel(detector)
			slicPandora.getInputFromApp(lcsim)
			slicPandora.setOutputFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_pandora.slcio'))
			slicPandora.setPandoraSettings('pandoraSettings.xml')
			slicPandora.setNumberOfEvents(nOutputEvents)
			#print slicPandora.listAttributes()
			result = job.append(slicPandora)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## Marlin, LCFIPlus Vertexing ############################
		if 5 in args.chain:
			vertexing = Marlin()
			vertexing.setVersion(softVersions[3])
			vertexing.setSteeringFile('steeringFiles/sid_dbd_vertexing.xml')
			vertexing.setGearFile('steeringFiles/' + detector + '.gear')
			vertexing.getInputFromApp(slicPandora)
			vertexing.setOutputFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_vertexing.slcio'))
			vertexing.setNumberOfEvents(nOutputEvents)
			#print vertexing.listAttributes()
			result = job.append(vertexing)
			if not result['OK']:
				print result['Message']
				sys.exit(2)
################## lcsim (DST production) ################################
			lcsimDst = LCSIM()
			lcsimDst.setVersion(softVersions[1])
			lcsimDst.setSteeringFile('steeringFiles/sid_dbd_postPandora.xml')
			lcsimDst.getInputFromApp(vertexing)
			lcsimDst.setNumberOfEvents(nOutputEvents)
			lcsimDst.setAliasProperties('steeringFiles/alias.properties')
			lcsimDst.setDetectorModel(detector+".zip")
			lcsimDst.setOutputRecFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_Rec.slcio'))
			lcsimDst.setOutputDstFile(outputBase.replace('.slcio', '_' + str(fileNumber) + '_DST.slcio'))
			#print lcsimDst.listAttributes()
			result = job.append(lcsimDst)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## Marlin, LCFIPlus flavortag ############################
		if 6 in args.chain:
			flavortag = Marlin()
			flavortag.setVersion(softVersions[3])
			flavortag.setSteeringFile('steeringFiles/sid_dbd_flavortag.xml')
			flavortag.setGearFile('steeringFiles/' + detector + '.gear')
			flavortag.setInputFile(lcsimDstOutput)
			flavortag.setOutputFile(outputBase.replace('.slcio', '_' + '_flavortag.slcio'))
			flavortag.setNumberOfEvents(nOutputEvents)
			#print flavortag.listAttributes()
			result = job.append(flavortag)
			if not result['OK']:
				print result['Message']
				sys.exit(2)

################## Job Finalise ##########################################

		# List of banned sites that the job shall not be sent too. These are sites that jobs tend to fail on,
		# This list is likely to change.
		job.setBannedSites(['LCG.IN2P3-CC.fr', 'LCG.RAL-LCG2.uk', 'LCG.DESY-HH.de', 'LCG.DESYZN.de', 'LCG.KEK.jp',
							'OSG.PNNL.us','OSG.UConn.us','OSG.GridUNESP_CENTRAL.br','LCG.SCOTGRIDDURHAM.uk',
							'LCG.TECHNIONself.il','LCG.UKI-SOUTHGRID-RALPP.uk','OSG.FNAL_FERMIGRID.us','LCG.UKI-LT2-IC-HEP.uk'])

		job.setCPUTime(50000)
		job.setPlatform('x86_64-slc5-gcc43-opt')

		# Sets the output data file according to if -f is selcted, ships ouput to your /ilc/user/a/aPerson/
		# directory on the grid.
		outputLevel = max(args.chain)
		if outputLevel == 1:
			job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_sim.slcio'), outputPath, 'CERN-SRM')
		if outputLevel == 3:
			#job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_digiTracking.slcio'), outputPath, 'CERN-SRM')
			job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_DST.slcio'), outputPath, 'CERN-SRM')
		if outputLevel == 4:
			job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_pandora.slcio'), outputPath, 'CERN-SRM')
		if outputLevel == 5:
			job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_DST.slcio'), outputPath, 'CERN-SRM')
		if outputLevel == 6:
			job.setOutputData(outputBase.replace('.slcio', '_' + str(fileNumber) + '_flavortag.slcio'), outputPath, 'CERN-SRM')

		job.setOutputSandbox(outputSandbox)
		job.setInputData(args.Input)

		if args.dontPromptMe:
			job.dontPromptMe()
		# Submits Job!!!
		job.submit()

	return 0;