critical = cms.untracked.PSet( threshold = cms.untracked.string('ERROR') ), debugInfo = cms.untracked.PSet( threshold = cms.untracked.string('DEBUG') ), detailedInfo = cms.untracked.PSet( threshold = cms.untracked.string('INFO') ) ) ) process.DQMStore.verbose = 1 #process.DQM.collectorHost = '' #process.GlobalTag.globaltag = 'STARTUP::All' process.dqmSaver.convention = 'Offline' process.dqmSaver.workflow = '/Run2011A/SingleElectronRuns165364-166462NoEtcut/RECO' process.dqmSaver.saveByRun = -1 process.dqmSaver.saveAtJobEnd = True process.dqmSaver.forceRunNumber = 1 #---Morse----- process.dqmSaver.dirName = '/data/ndpc3/c/dmorse/HLTDQMrootFiles' #------- #process.p = cms.Sequence(process.dqmSaver) process.psource = cms.Path(process.egHLTOffDQMSource*process.egHLTOffDQMClient) process.p = cms.EndPath(process.dqmSaver)
'/store/group/lpcfpix/MinBias_14TeV_923_OT613_200_IT4025_opt6s3l/GenSim/170721_051411/0000/step1_95.root', '/store/group/lpcfpix/MinBias_14TeV_923_OT613_200_IT4025_opt6s3l/GenSim/170721_051411/0000/step1_96.root', '/store/group/lpcfpix/MinBias_14TeV_923_OT613_200_IT4025_opt6s3l/GenSim/170721_051411/0000/step1_97.root', '/store/group/lpcfpix/MinBias_14TeV_923_OT613_200_IT4025_opt6s3l/GenSim/170721_051411/0000/step1_98.root', '/store/group/lpcfpix/MinBias_14TeV_923_OT613_200_IT4025_opt6s3l/GenSim/170721_051411/0000/step1_99.root', ]) process.mix.digitizers = cms.PSet(process.theDigitizersValid) from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '') # Path and EndPath definitions process.digitisation_step = cms.Path(process.pdigi_valid) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.L1TrackTrigger_step = cms.Path(process.L1TrackTrigger) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.FEVTDEBUGHLToutput_step = cms.EndPath(process.FEVTDEBUGHLToutput) # Schedule definition process.schedule = cms.Schedule(process.digitisation_step, process.L1simulation_step, process.L1TrackTrigger_step, process.digi2raw_step) process.schedule.extend(process.HLTSchedule) process.schedule.extend([process.endjob_step, process.FEVTDEBUGHLToutput_step]) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # customisation of the process. # Automatic addition of the customisation function from HLTrigger.Configuration.customizeHLTforMC
PGunParameters=cms.PSet(process.common_beam_direction_parameters, MinE=cms.double(9.99), MaxE=cms.double(10.01), PartID=cms.vint32(211)), Verbosity=cms.untracked.int32(0), AddAntiParticle=cms.bool(False)) process.o1 = cms.OutputModule("PoolOutputModule", process.FEVTSIMEventContent, fileName=cms.untracked.string('sim2003.root')) process.Timing = cms.Service("Timing") process.p1 = cms.Path(process.generator * process.VtxSmeared * process.g4SimHits) process.outpath = cms.EndPath(process.o1) process.common_maximum_timex = cms.PSet(MaxTrackTime=cms.double(1000.0), MaxTimeNames=cms.vstring(), MaxTrackTimes=cms.vdouble()) process.g4SimHits.NonBeamEvent = True process.g4SimHits.UseMagneticField = False process.g4SimHits.Physics.type = 'SimG4Core/Physics/QGSP_FTFP_BERT_EML' process.g4SimHits.Physics.Region = 'HcalRegion' process.g4SimHits.Physics.DefaultCutValue = 1. process.g4SimHits.ECalSD.UseBirkLaw = True process.g4SimHits.ECalSD.BirkL3Parametrization = True process.g4SimHits.ECalSD.BirkC1 = 0.033 process.g4SimHits.ECalSD.BirkC2 = 0.0 process.g4SimHits.ECalSD.SlopeLightYield = 0.02 process.g4SimHits.HCalSD.UseBirkLaw = True
process.HBHENoiseFilterResultRun2Tight = cms.Path( process.fHBHENoiseFilterResultRun2Tight) process.HBHEIsoNoiseFilterResult = cms.Path(process.fHBHEIsoNoiseFilterResult) process.pprimaryVertexFilter = cms.Path(process.primaryVertexFilter) process.load('HeavyIonsAnalysis.Configuration.hfCoincFilter_cff') process.phfCoincFilter1 = cms.Path(process.hfCoincFilter) process.phfCoincFilter2 = cms.Path(process.hfCoincFilter2) process.phfCoincFilter3 = cms.Path(process.hfCoincFilter3) process.phfCoincFilter4 = cms.Path(process.hfCoincFilter4) process.phfCoincFilter5 = cms.Path(process.hfCoincFilter5) process.pclusterCompatibilityFilter = cms.Path( process.clusterCompatibilityFilter) process.pAna = cms.EndPath(process.skimanalysis) # Customization ##########################################UE########################################## from CondCore.DBCommon.CondDBSetup_cfi import * process.uetable = cms.ESSource( "PoolDBESSource", DBParameters=cms.PSet(messageLevel=cms.untracked.int32(0)), timetype=cms.string('runnumber'), toGet=cms.VPSet( cms.PSet( record=cms.string("JetCorrectionsRecord"), tag=cms.string( "UETableCompatibilityFormat_PF_HYDJET_5020GeV_754_38T_v02_mc"), label=cms.untracked.string("UETable_PF")), cms.PSet(
process.MessageLogger = cms.Service( "MessageLogger", detailedInfo=cms.untracked.PSet(threshold=cms.untracked.string('INFO')), critical=cms.untracked.PSet(threshold=cms.untracked.string('ERROR')), debugModules=cms.untracked.vstring('*'), cout=cms.untracked.PSet( threshold=cms.untracked.string('WARNING'), WARNING=cms.untracked.PSet(limit=cms.untracked.int32(0)), noLineBreaks=cms.untracked.bool(True)), destinations=cms.untracked.vstring('detailedInfo', 'critical', 'cout')) process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True)) process.assist = cms.Path(process.l1GtUnpack + process.l1tgt) process.p = cms.EndPath(process.hlts) process.dqmWork = cms.Path(process.dqmEnv + process.dqmSaver) #process.hlts.verbose = True process.hlts.l1GtData = cms.InputTag("l1GtUnpack", "", "DQM") ########################### ### DQM Environment ### ########################### process.DQMStore.verbose = 0 process.DQM.collectorHost = 'srv-c2d05-12' process.DQM.collectorPort = 9190 process.dqmSaver.convention = 'Online' process.dqmSaver.dirName = '.'
process.externalLHEProducer = cms.EDProducer( "ExternalLHEProducer", args=cms.vstring( '/cvmfs/cms.cern.ch/phys_generator/gridpacks/2017/13TeV/powheg/V2/gg_H_quark-mass-effects_NNPDF31_13TeV_M125/v1/gg_H_quark-mass-effects_NNPDF31_13TeV_M125_slc6_amd64_gcc630_CMSSW_9_3_0.tgz' ), nEvents=cms.untracked.uint32(10), numberOfParameters=cms.uint32(1), outputFile=cms.string('cmsgrid_final.lhe'), scriptName=cms.FileInPath( 'GeneratorInterface/LHEInterface/data/run_generic_tarball_cvmfs.sh')) # Path and EndPath definitions process.lhe_step = cms.Path(process.externalLHEProducer) process.generation_step = cms.Path(process.pgen) process.simulation_step = cms.Path(process.psim) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.endjob_step = cms.EndPath(process.endOfProcess) process.RAWSIMoutput_step = cms.EndPath(process.RAWSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.lhe_step, process.generation_step, process.genfiltersummary_step, process.simulation_step, process.endjob_step, process.RAWSIMoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # filter all path with the production filter sequence for path in process.paths: if path in ['lhe_step']: continue getattr(process, path)._seq = process.generator * getattr(process, path)._seq
dxyMin=cms.double(0.0), dxyMax=cms.double(500.0)), Verbosity=cms.untracked.int32(0), ## set to 1 (or greater) for printouts psethack=cms.string('displaced taus'), firstRun=cms.untracked.uint32(1), PythiaParameters=cms.PSet(parameterSets=cms.vstring())) process.load("FWCore.MessageLogger.MessageLogger_cfi") process.MessageLogger = cms.Service( "MessageLogger", cerr=cms.untracked.PSet(enable=cms.untracked.bool(False)), cout=cms.untracked.PSet( default=cms.untracked.PSet(limit=cms.untracked.int32(2)), enable=cms.untracked.bool(True))) process.RandomNumberGeneratorService = cms.Service( "RandomNumberGeneratorService", generator=cms.PSet(initialSeed=cms.untracked.uint32(123456789), engineName=cms.untracked.string('HepJamesRandom'))) process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(10)) process.GENoutput = cms.OutputModule( "PoolOutputModule", fileName=cms.untracked.string('Py8PtAndDxyGun_displacedTaus.root')) process.p = cms.Path(process.generator) process.outpath = cms.EndPath(process.GENoutput) process.schedule = cms.Schedule(process.p, process.outpath)
#outputCommands=cms.untracked.vstring('keep *'), outputCommands=process.MINIAODSIMEventContent.outputCommands, SelectEvents=cms.untracked.PSet(SelectEvents=cms.vstring('*', ))) for prod in process.RecoTauTagAOD.outputCommands: process.output.outputCommands.append(prod) process.output.outputCommands.append('keep *_selectedPatTaus_*_*') if runSignal: process.output.fileName = 'miniAOD_TauReco_ggH.root' if jetCollection == 'patAK4PFJets': process.output.fileName = 'miniAOD_TauReco_ak4PFJets_ggH.root' else: process.output.fileName = 'miniAOD_TauReco_QCD.root' if jetCollection == 'patAK4PFJets': process.output.fileName = 'miniAOD_TauReco_ak4PFJets_QCD.root' process.out = cms.EndPath(process.output) # TRYING TO MAKE THINGS MINIAOD COMPATIBLE, FROM THE START, TO THE END, 1 BY 1 from RecoJets.JetProducers.ak4PFJets_cfi import ak4PFJets process.ak4PFJetsPAT = ak4PFJets.clone(src=cms.InputTag("packedPFCandidates")) from PhysicsTools.PatAlgos.producersLayer1.jetProducer_cfi import _patJets process.patAK4PFJets = _patJets.clone( jetSource=cms.InputTag("ak4PFJetsPAT"), addJetCorrFactors=cms.bool(False), jetCorrFactorsSource=cms.VInputTag(), addBTagInfo=cms.bool(False), addDiscriminators=cms.bool(False), discriminatorSources=cms.VInputTag(), addAssociatedTracks=cms.bool(False), addJetCharge=cms.bool(False), addGenPartonMatch=cms.bool(False),
"/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/32775AB1-6C87-E611-A388-02163E0165D4.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/30A4019E-FE86-E611-B70E-02163E0165B6.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/2C6B53B6-5387-E611-9582-FA163E75F411.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/26D33DC4-3889-E611-B1AF-FA163E743F0B.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/26181B1F-6387-E611-AC9E-02163E01304E.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/24A815DC-0E87-E611-8D96-B083FED13C9E.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/22256107-6887-E611-847F-002590DE6E86.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/20263DED-9B88-E611-9630-001E67F336E0.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/1EF43C44-DE87-E611-BB70-6C3BE5B5B340.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/128426B7-8988-E611-BB9C-008CFA0A5A10.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/1041B010-6F87-E611-BA26-02163E015FDB.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/0E90E9AF-5387-E611-9FFA-FA163EC80D44.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/0C894F1B-5289-E611-8381-0025904C5DE0.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/0C6DFDD5-4D87-E611-9CF3-FA163E0B7F2E.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/0C153439-B187-E611-96D9-002590E1E9B8.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/083DFA38-B189-E611-BD7C-A0369F7FC770.root", "/store/data/Run2016B/SingleMuon/RAW-RECO/ZMu-23Sep2016-v1/70000/02A6971D-F286-E611-8364-002590DE6E32.root" )) process.maxEvents = cms.untracked.PSet(input=cms.untracked.int32(-1)) process.out = cms.OutputModule( "PoolOutputModule", outputCommands=cms.untracked.vstring('drop *', 'keep *_muonDTDigis_*_*', 'keep *_dt4DSegments_*_*'), fileName=cms.untracked.string( '/store/user/carrillo/digis_segments_Run2016BSingleMuonRAW-RECO.root')) process.p = cms.Path(process.muonDTDigis * process.dtlocalreco) process.this_is_the_end = cms.EndPath(process.out)
process.goodZToMuMuOneTrackFinalBarrelPath = cms.Path( ~process.goodZToMuMuBarrel + ~process.zToMuMuOneStandAloneMuonBarrel + process.zToMuGlobalMuOneTrack + process.zToMuMuOneTrackBarrel + process.goodZToMuMuOneTrackBarrel + process.goodZToMuMuOneTrackFirstHLTBarrel + process.goodZToMuMuOneTrackPlotsBarrel) process.goodZToMuMuOneTrackFinalEndCapPath = cms.Path( ~process.goodZToMuMuEndCap + ~process.zToMuMuOneStandAloneMuonEndCap + process.zToMuGlobalMuOneTrack + process.zToMuMuOneTrackEndCap + process.goodZToMuMuOneTrackEndCap + process.goodZToMuMuOneTrackFirstHLTEndCap + process.goodZToMuMuOneTrackPlotsEndCap) process.goodZToMuMuOneTrackFinalBarrEndPath = cms.Path( ~process.goodZToMuMuBarrEnd + ~process.zToMuMuOneStandAloneMuonBarrEnd + process.zToMuGlobalMuOneTrack + process.zToMuMuOneTrackBarrEnd + process.goodZToMuMuOneTrackBarrEnd + process.goodZToMuMuOneTrackFirstHLTBarrEnd + process.goodZToMuMuOneTrackPlotsBarrEnd) process.out = cms.OutputModule( "PoolOutputModule", fileName=cms.untracked.string('file:./zMuSa-UML.root'), outputCommands=cms.untracked.vstring( "drop *", "keep *_goodZToMuMuOneStandAloneMuonNtuple_*_*"), SelectEvents=cms.untracked.PSet( SelectEvents=cms.vstring("goodZToMuMuOneStandAloneMuonFinalPath"))) process.endPath = cms.EndPath(process.eventInfo + process.out)
) process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(8000) ) # raw-to-digi conversion process.load("EventFilter.CTPPSRawToDigi.ctppsRawToDigi_cff") # local RP reconstruction chain with standard settings process.load("RecoCTPPS.Configuration.recoCTPPS_cff") # CTPPS DQM modules process.load("DQM.CTPPS.ctppsDQM_cff") process.path = cms.Path( process.ctppsRawToDigi * process.recoCTPPS * process.ctppsDQM ) process.end_path = cms.EndPath( process.dqmEnv + process.dqmSaver ) process.schedule = cms.Schedule( process.path, process.end_path )
process.pathALCARECOTkAlLAS = cms.Path(process.seqALCARECOTkAlLAS*process.ALCARECOTkAlLASDQM) process.pathALCARECOTkAlMinBias = cms.Path(process.seqALCARECOTkAlMinBias*process.ALCARECOTkAlMinBiasDQM) process.pathALCARECORpcCalHLT = cms.Path(process.seqALCARECORpcCalHLT) process.pathALCARECOHcalCalGammaJet = cms.Path(process.seqALCARECOHcalCalGammaJet) process.pathALCARECOMuAlBeamHaloOverlaps = cms.Path(process.seqALCARECOMuAlBeamHaloOverlaps*process.ALCARECOMuAlBeamHaloOverlapsDQM) process.pathALCARECOTkAlCosmicsCosmicTF0THLT = cms.Path(process.seqALCARECOTkAlCosmicsCosmicTF0THLT*process.ALCARECOTkAlCosmicsCosmicTF0TDQM) process.pathALCARECOHcalCalNoise = cms.Path(process.seqALCARECOHcalCalNoise) process.pathALCARECOMuAlOverlaps = cms.Path(process.seqALCARECOMuAlOverlaps*process.ALCARECOMuAlOverlapsDQM) process.pathALCARECOTkAlCosmicsCosmicTF = cms.Path(process.seqALCARECOTkAlCosmicsCosmicTF*process.ALCARECOTkAlCosmicsCosmicTFDQM) process.pathALCARECOEcalCalPhiSym = cms.Path(process.seqALCARECOEcalCalPhiSym*process.ALCARECOEcalCalPhisymDQM) process.pathALCARECOMuAlGlobalCosmics = cms.Path(process.seqALCARECOMuAlGlobalCosmics*process.ALCARECOMuAlGlobalCosmicsDQM) process.pathALCARECOTkAlJpsiMuMu = cms.Path(process.seqALCARECOTkAlJpsiMuMu*process.ALCARECOTkAlJpsiMuMuDQM) process.validation_step = cms.Path(process.validation) process.dqmoffline_step = cms.Path(process.DQMOffline) process.endjob_step = cms.Path(process.endOfProcess) process.out_step = cms.EndPath(process.output) process.ALCARECOStreamMuAlCalIsolatedMuOutPath = cms.EndPath(process.ALCARECOStreamMuAlCalIsolatedMu) process.ALCARECOStreamDtCalibOutPath = cms.EndPath(process.ALCARECOStreamDtCalib) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step,process.L1Reco_step,process.reconstruction_step,process.pathALCARECOMuAlCalIsolatedMu,process.pathALCARECODtCalib,process.validation_step,process.dqmoffline_step,process.endjob_step,process.out_step,process.ALCARECOStreamMuAlCalIsolatedMuOutPath,process.ALCARECOStreamDtCalibOutPath) # Automatic addition of the customisation function def customise(process): process.GlobalTag.toGet = cms.VPSet( cms.PSet(record = cms.string("PCastorRcd"), tag = cms.string("CASTORRECO_Geometry_Tag38YV0"), connect = cms.untracked.string("frontier://FrontierProd/CMS_COND_34X_GEOMETRY") ), cms.PSet(record = cms.string("PZdcRcd"),
# control point for all seeds process.load("Configuration.StandardSequences.SimulationRandomNumberGeneratorSeeds_cff") process.load("SimGeneral.HepPDTESSource.pythiapdt_cfi") process.load("Configuration.Spring08Production.Spring08_PhotonJetpt120_170_cfi") process.load("Configuration.EventContent.EventContent_cff") process.configurationMetadata = cms.untracked.PSet( version = cms.untracked.string('$Revision: 1.1 $'), name = cms.untracked.string('$Source: /cvs_server/repositories/CMSSW/CMSSW/Configuration/Spring08Production/data/Spring08_PhotonJetpt120-170_GEN.cfg,v $'), annotation = cms.untracked.string('FastSim PhotonJet Pthat 120-170 for Spring08') ) process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(1000) ) process.GEN = cms.OutputModule("PoolOutputModule", process.FEVTSIMEventContent, dataset = cms.untracked.PSet( dataTier = cms.untracked.string('GEN') ), fileName = cms.untracked.string('PhotonJetpt120-170.root') ) process.e = cms.EndPath(process.GEN) process.schedule = cms.Schedule(process.e)
process.famosSimHits.SimulateCalorimetry = True process.famosSimHits.SimulateTracking = True process.simulation = cms.Sequence(process.simulationWithFamos) process.HLTEndSequence = cms.Sequence(process.reconstructionWithFamos) process.Realistic7TeV2011CollisionVtxSmearingParameters.type = cms.string( "BetaFunc") process.famosSimHits.VertexGenerator = process.Realistic7TeV2011CollisionVtxSmearingParameters process.famosPileUp.VertexGenerator = process.Realistic7TeV2011CollisionVtxSmearingParameters process.mix.playback = True process.GlobalTag.globaltag = 'START42_V11::All' # Path and EndPath definitions #process.generation_step = cms.Path(process.pgen_genonly) process.generation_step = cms.Path(process.generator) process.reconstruction = cms.Path(process.reconstructionWithFamos) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.validation_step = cms.EndPath(process.validation_prod) process.dqmoffline_step = cms.EndPath(process.DQMOfflinePOGMC) process.endjob_step = cms.EndPath(process.endOfProcess) process.AODSIMoutput_step = cms.EndPath(process.AODSIMoutput) process.DQMoutput_step = cms.EndPath(process.DQMoutput) # Schedule definition process.schedule = cms.Schedule(process.generation_step, process.genfiltersummary_step) process.schedule.extend(process.HLTSchedule) process.schedule.extend([ process.reconstruction, process.validation_step, process.dqmoffline_step, process.endjob_step, process.AODSIMoutput_step, process.DQMoutput_step ])
), noLineBreaks = cms.untracked.bool(True) ), destinations = cms.untracked.vstring('detailedInfo', 'critical', 'cout') ) ##-- Config from DQMOffline.Trigger.JetMETHLTOfflineSource_cfi import * process.jetMETHLTOfflineSource.processname = cms.string("HLT") process.jetMETHLTOfflineSource.triggerSummaryLabel = cms.InputTag("hltTriggerSummaryAOD","","HLT") process.jetMETHLTOfflineSource.triggerResultsLabel = cms.InputTag("TriggerResults","","HLT") process.jetMETHLTOfflineSource.plotEff = cms.untracked.bool(True) ##-- Let's it runs process.JetMETSource_step = cms.Path( #process.L1T1coll * #process.noscraping * #process.primaryVertexFilter * process.jetMETHLTOfflineAnalyzer ) process.JetMETClient_step = cms.Path( process.jetMETHLTOfflineClient ) process.dqmsave_step = cms.Path( process.dqmSaver ) process.DQMoutput_step = cms.EndPath( process.DQMoutput ) # Schedule process.schedule = cms.Schedule(process.JetMETSource_step, process.JetMETClient_step, process.dqmsave_step, process.DQMoutput_step)
## RPC unpacking process.load("EventFilter.RPCRawToDigi.rpcUnpackingModule_cfi") ## RPC recHit process.load("Geometry.MuonCommonData.muonIdealGeometryXML_cfi") process.load("Geometry.RPCGeometry.rpcGeometry_cfi") process.load("Geometry.MuonNumbering.muonNumberingInitialization_cfi") process.load("RecoLocalMuon.RPCRecHit.rpcRecHits_cfi") process.rpcRecHits.rpcDigiLabel = cms.InputTag('rpcUnpackingModule') # process.p = cms.Path(process.DTMuonSelection * process.dtunpacker * process.twinMuxStage2Digis * process.scalersRawToDigi * process.lumiProducer * process.dtTriggerPrimitiveDigis + process.BMTFStage2Digis + process.rpcUnpackingModule + process.rpcRecHits + process.myDTNtuple) process.p = cms.Path(process.DTMuonSelection * process.dtunpacker * process.twinMuxStage2Digis * process.scalersRawToDigi * process.lumiProducer * process.dtTriggerPrimitiveDigis + process.bmtfDigis + process.rpcUnpackingModule + process.rpcRecHits + process.myDTNtuple) # Output process.out = cms.OutputModule( "PoolOutputModule", outputCommands=cms.untracked.vstring("keep *", "keep *_*_*_testRPCTwinMuxRawToDigi", "keep *_*_*_DTNTandRPC"), fileName=cms.untracked.string("file:DTNtuple.root"), SelectEvents=cms.untracked.PSet(SelectEvents=cms.vstring("p"))) process.fanout = cms.EndPath(process.out) process.schedule = cms.Schedule(process.p, process.fanout)
PartID=cms.vint32(13), MaxEta=cms.double(2.50), MaxPhi=cms.double(3.14159265359), MinEta=cms.double(1.75), MinPhi=cms.double(-3.14159265359)), Verbosity=cms.untracked.int32(0), psethack=cms.string('single electron pt 10'), AddAntiParticle=cms.bool(True), firstRun=cms.untracked.uint32(1)) process.mix.digitizers = cms.PSet(process.theDigitizersValid) # Path and EndPath definitions process.generation_step = cms.Path(process.pgen) process.simulation_step = cms.Path(process.psim) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.digitisation_step = cms.Path(process.pdigi_valid) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.FEVTDEBUGHLToutput_step = cms.EndPath(process.FEVTDEBUGHLToutput) # Output definition process.ValidationOutput = cms.OutputModule( "PoolOutputModule", outputCommands=cms.untracked.vstring('drop *', 'keep *_MEtoEDMConverter_*_*'), fileName=cms.untracked.string('file:output_digiVal_test.root'), ) process.load("DQMServices.Core.DQM_cfg")
# ), #cms.PSet(record = cms.string("EEAlignmentRcd"), #tag = cms.string("EEAlignment_measured_v05_offline"), #connect = cms.string("sqlite_file:EEAlign_2015.db") #### new 2017 #### #), #cms.PSet(record = cms.string("EBAlignmentRcd"), #tag = cms.string("EBAlignment_measured_v05_offline"), #connect = cms.string("sqlite_file:EBAlign_2015.db") #### new 2017 #### #), ) # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.reconstruction_step = cms.Path(process.reconstruction) process.endjob_step = cms.EndPath(process.endOfProcess) process.RECOSIMoutput_step = cms.EndPath(process.RECOSIMoutput) ################################## #### costumization for Stage2 #### from HLTrigger.Configuration.customizeHLTforALL import customizeHLTforAll #process = customizeHLTforAll(process,"GRun",_customInfo) from HLTrigger.Configuration.customizeHLTforCMSSW import customizeHLTforCMSSW process = customizeHLTforCMSSW(process, "GRun") ################################################################################ ################################################################################ ################################################################################ ################## create ntuple for ECAL alignment purposes ###################
PartID=cms.vint32(13), MaxEta=cms.double(2.5), MaxPhi=cms.double(3.14159265359), MinEta=cms.double(-2.5), MinPhi=cms.double(-3.14159265359)), Verbosity=cms.untracked.int32(0), psethack=cms.string('single electron pt 10'), AddAntiParticle=cms.bool(True), firstRun=cms.untracked.uint32(1)) process.mix.digitizers = cms.PSet(process.theDigitizersValid) # Path and EndPath definitions process.generation_step = cms.Path(process.pgen) process.simulation_step = cms.Path(process.psim) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.digitisation_step = cms.Path(process.pdigi_valid) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.FEVTDEBUGoutput_step = cms.EndPath(process.FEVTDEBUGoutput) process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff') # Eventually modify default geometry parameters from L1Trigger.L1THGCal.customTriggerGeometry import custom_geometry_decentralized_V11 process = custom_geometry_decentralized_V11(process) process.hgcaltriggergeomtester = cms.EDAnalyzer("HGCalTriggerGeomTesterV9Imp2") process.test_step = cms.Path(process.hgcaltriggergeomtester) # Schedule definition
process.source = cms.Source("EmptySource", firstLuminosityBlock = cms.untracked.uint32(23456), numberEventsInLuminosityBlock = cms.untracked.uint32(10) ) process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(100000) ) process.externalLHEProducer = cms.EDProducer('ExternalLHEProducer', scriptName = cms.FileInPath("GeneratorInterface/LHEInterface/data/run_madgraph_gridpack.sh"), outputFile = cms.string("W1JetsToLNu_matchingup_8TeV-madgraph_final.lhe"), args = cms.vstring('slc5_ia32_gcc434/madgraph/V5_1.3.30/8TeV_Summer12/W1JetsToLNu_matchingup_8TeV-madgraph/v1', 'W1JetsToLNu_matchingup_8TeV-madgraph','false','true','wjets','5','30','true','1','99'), nEvents = cms.uint32(process.maxEvents.input.value()) ) process.out = cms.OutputModule("PoolOutputModule", splitLevel = cms.untracked.int32(0), eventAutoFlushCompressedSize = cms.untracked.int32(5242880), outputCommands = process.LHEEventContent.outputCommands, fileName = cms.untracked.string('myOutputFile.root'), dataset = cms.untracked.PSet( filterName = cms.untracked.string(''), dataTier = cms.untracked.string('LHE') ) ) process.p = cms.Path(process.externalLHEProducer) process.e = cms.EndPath(process.externalLHEAsciiDumper) #+process.out)
'/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/90014/84558D6B-1B84-E611-BD53-001E6779250C.root', '/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/70014/2C06AA59-FE83-E611-9075-0025905B856C.root', '/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/70022/44049471-C086-E611-9DD9-0025905A60CA.root', '/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/80011/CC732537-BB83-E611-87E8-0CC47A4DEE1C.root', '/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/90003/BE4F3E40-DC81-E611-89D9-0CC47A4C8E34.root', '/store/mc/RunIISpring15PrePremix/Neutrino_E-10_gun/GEN-SIM-DIGI-RAW/PUMoriond17_80X_mcRun2_asymptotic_2016_TrancheIV_v2-v2/90006/8EF6B8E2-9282-E611-B993-02163E0176A3.root' ]) from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '80X_mcRun2_asymptotic_2016_TrancheIV_v6', '') # Path and EndPath definitions process.digitisation_step = cms.Path(process.pdigi) process.datamixing_step = cms.Path(process.pdatamix) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.digi2raw_step = cms.Path(process.DigiToRaw) process.endjob_step = cms.EndPath(process.endOfProcess) process.PREMIXRAWoutput_step = cms.EndPath(process.PREMIXRAWoutput) # Schedule definition process.schedule = cms.Schedule(process.digitisation_step,process.datamixing_step,process.L1simulation_step,process.digi2raw_step) process.schedule.extend(process.HLTSchedule) process.schedule.extend([process.endjob_step,process.PREMIXRAWoutput_step]) #Setup FWK for multithreaded process.options.numberOfThreads=cms.untracked.uint32(1) process.options.numberOfStreams=cms.untracked.uint32(0) # customisation of the process. # Automatic addition of the customisation function from Configuration.DataProcessing.Utils from Configuration.DataProcessing.Utils import addMonitoring
process.externalLHEProducer = cms.EDProducer( "ExternalLHEProducer", args=cms.vstring( 'root://eosuser.cern.ch//eos/user/c/choij/GenValidation/dyellell0j_5f_NLO_slc7_amd64_gcc630_CMSSW_9_3_16_tarball.tar.xz' ), nEvents=cms.untracked.uint32(30), numberOfParameters=cms.uint32(1), outputFile=cms.string('cmsgrid_final.lhe'), scriptName=cms.FileInPath( 'GeneratorInterface/LHEInterface/data/run_generic_tarball_xrootd.sh')) # Path and EndPath definitions process.lhe_step = cms.Path(process.externalLHEProducer) process.generation_step = cms.Path(process.pgen) process.nanoAOD_step = cms.Path(process.nanogenSequence) process.genfiltersummary_step = cms.EndPath(process.genFilterSummary) process.endjob_step = cms.EndPath(process.endOfProcess) process.NANOAODGENoutput_step = cms.EndPath(process.NANOAODGENoutput) # Schedule definition process.schedule = cms.Schedule(process.lhe_step, process.generation_step, process.genfiltersummary_step, process.nanoAOD_step, process.endjob_step, process.NANOAODGENoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # filter all path with the production filter sequence for path in process.paths: if path in ['lhe_step']: continue getattr(process, path).insert(0, process.generator)
process.options = cms.untracked.PSet(wantSummary=cms.untracked.bool(True)) process.source = cms.Source( "PoolSource", fileNames=cms.untracked.vstring( "/store/relval/CMSSW_7_2_0_pre6/SingleMu/RAW/GR_H_V38A_RelVal_mu2012D-v1/00000/001E161E-6F3F-E411-BD55-0025905A60D0.root" )) # --- ACTIVATE LogTrace IN VARIOUS MODULES - NEED TO COMPILE *EACH MODULE* WITH # scram b -j8 USER_CXXFLAGS="-DEDM_ML_DEBUG" # LogTrace output goes to cout; all other output to "junk.log" process.load("FWCore.MessageLogger.MessageLogger_cfi") process.MessageLogger.categories.append("CSCRecHit") # module label is something like "muonCSCDigis"... process.MessageLogger.debugModules = cms.untracked.vstring("*") process.MessageLogger.destinations = cms.untracked.vstring("cout", "junk") process.MessageLogger.cout = cms.untracked.PSet( threshold=cms.untracked.string("DEBUG"), default=cms.untracked.PSet(limit=cms.untracked.int32(0)), FwkReport=cms.untracked.PSet(limit=cms.untracked.int32(-1)), CSCRecHit=cms.untracked.PSet(limit=cms.untracked.int32(-1))) # Path and EndPath def process.unpack = cms.Path(process.muonCSCDigis) process.reco = cms.Path(process.csc2DRecHits) process.endjob = cms.EndPath(process.endOfProcess) # Schedule definition process.schedule = cms.Schedule(process.unpack, process.reco, process.endjob)
def __init__(self, name, input_files, num_threads, max_events, global_tag, edm_out=None, report_every=1000, *args, **kwargs): super(KarmaProcess, self).__init__(name, *args, **kwargs) # create an EndPath (for any output modules) self.outputPath = cms.EndPath() ## set explicit schedule? #self.schedule = cms.Schedule(self.mainPath, self.outputPath) # limit the number of processed events (or set to -1 for no limit) self.maxEvents = cms.untracked.PSet( input=cms.untracked.int32(max_events)) # configure process with options self.options = cms.untracked.PSet( wantSummary=cms.untracked.bool(True), allowUnscheduled=cms.untracked.bool( True), # some modules need the unscheduled mode! emptyRunLumiMode=cms.untracked.string( 'doNotHandleEmptyRunsAndLumis'), #SkipEvent=cms.untracked.vstring('ProductNotFound') # only for debugging numberOfThreads=cms.untracked.uint32(num_threads), numberOfStreams=cms.untracked.uint32(num_threads), #Rethrow=cms.untracked.vstring('StdException'), ) # set the input files super(KarmaProcess, self).__setattr__( 'source', cms.Source("PoolSource", fileNames=cms.untracked.vstring(input_files))) # -- print process configuration print "\n----- Process configuration -----" print "input: ", (self.source.fileNames[0] if len( self.source.fileNames) else ""), ("... (%d files)" % len(self.source.fileNames) if len(self.source.fileNames) > 1 else "") print "file type: ", "miniAOD" print "global tag: ", global_tag print "max events: ", (str(self.maxEvents.input)[20:-1]) print "cmssw version: ", os.environ["CMSSW_VERSION"] print "---------------------------------\n" ################# # CMSSW modules # ################# # -- CMSSW message logger self.load("FWCore.MessageLogger.MessageLogger_cfi") self.MessageLogger.cerr.FwkReport.reportEvery = report_every # ~ self.MessageLogger.default = cms.untracked.PSet( # ~ ERROR=cms.untracked.PSet(limit=cms.untracked.int32(5)), # ~ ) # -- CMSSW geometry and detector conditions # (These are needed for some PAT tuple production steps) self.load("Configuration.Geometry.GeometryRecoDB_cff" ) # new phase-1 geometry self.load( "Configuration.StandardSequences.FrontierConditions_GlobalTag_cff") self.load("Configuration.StandardSequences.MagneticField_cff") self.GlobalTag.globaltag = cms.string(global_tag) # write out original collections to a slimmed miniAOD file if edm_out: self.edmOut = cms.OutputModule( "PoolOutputModule", fileName=cms.untracked.string(edm_out), outputCommands=cms.untracked.vstring()) self.outputPath *= self.edmOut
HLTResultsLabel = cms.untracked.InputTag('TriggerResults::HLT'), associatePixel = cms.bool(False), associateStrip = cms.bool(False), associateRecoTracks = cms.bool(False), ROUList = cms.vstring( 'TrackerHitsPixelBarrelLowTof', 'TrackerHitsPixelBarrelHighTof', 'TrackerHitsPixelEndcapLowTof', 'TrackerHitsPixelEndcapHighTof'), ) # Path and EndPath definitions process.raw2digi_step = cms.Path(process.RawToDigi) process.L1Reco_step = cms.Path(process.L1Reco) process.reconstruction_step = cms.Path(process.reconstruction) process.endjob_step = cms.EndPath(process.endOfProcess) process.PixelTree_step = cms.Path(process.PixelFilter*process.siPixelRecHits*process.TrackRefitter*process.PixelTree) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step,process.L1Reco_step,process.reconstruction_step,process.endjob_step,process.PixelTree_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) #do not add changes to your config after this point (unless you know what you are doing) from FWCore.ParameterSet.Utilities import convertToUnscheduled process=convertToUnscheduled(process) # Customisation from command line # Add early deletion of temporary data products to reduce peak memory need
fileNames=cms.untracked.vstring('file:testRunMergeSPLIT100.root', 'file:testRunMergeSPLIT101.root'), lumisToProcess=cms.untracked.VLuminosityBlockRange('41:6-41:15'), ) process.thingWithMergeProducer = cms.EDProducer("ThingWithMergeProducer") process.task = cms.Task(process.thingWithMergeProducer) process.test = cms.EDAnalyzer( "TestMergeResults", # Check to see that the value we read matches what we know # was written. Expected values listed below come in sets of three # value expected in Thing # value expected in ThingWithMerge # value expected in ThingWithIsEqual # Each set of 3 is tested at endRun for the expected # run values or at endLuminosityBlock for the expected # lumi values. And then the next set of three values # is tested at the next endRun or endLuminosityBlock. # When the sequence of parameter values is exhausted it stops checking expectedBeginRunProd=cms.untracked.vint32(10001, 20004, 10003), expectedEndRunProd=cms.untracked.vint32(100001, 200004, 100003), expectedEndRunProdImproperlyMerged=cms.untracked.vint32(0, 0, 0)) process.out = cms.OutputModule( "PoolOutputModule", fileName=cms.untracked.string('testRunMergeMERGE100.root')) process.e = cms.EndPath(process.test * process.out, process.task)
#-------------------------------------------------------- from UserCode.DTDPGAnalysis.DTOfflineAnalyzer_cfi import * process.DTOfflineAnalyzer.DTLocalTriggerLabel = 'dtunpacker' process.DTOfflineAnalyzer.doSA = True ##process.DTOfflineAnalyzer.doTBox = True ##process.DTOfflineAnalyzer.doWheelm2 = False ##process.DTOfflineAnalyzer.doWheelm1 = False ##process.DTOfflineAnalyzer.doWheel0 = False ##process.DTOfflineAnalyzer.doWheel1 = False ##process.DTOfflineAnalyzer.doWheel2 = False process.load("DQM.DTMonitorModule.dtTriggerTask_cfi") process.dtTriggerMonitor.process_dcc = True process.dtTriggerMonitor.dcc_label = 'dttfunpacker' process.dtTriggerMonitor.process_seg = True #-------------------------------------------------------- process.out = cms.OutputModule( "PoolOutputModule", outputCommands=cms.untracked.vstring('drop *', 'keep *_MEtoEDMConverter_*_*'), fileName=cms.untracked.string('DQMOfflineDTDPG.root')) process.p = cms.Path(process.dtunpacker * process.dttfunpacker * process.reco * process.globalreco + process.sources + process.MEtoEDMConverter * process.DTOfflineAnalyzer) process.ep = cms.EndPath(process.out)
l1tIgnoreMask=cms.bool(False), l1techIgnorePrescales=cms.bool(False), daqPartitions=cms.uint32(1), throw=cms.bool(True)) process.load('Ponia.Modules.CHARM_chiCandProducer_cff') process.out = cms.OutputModule( "PoolOutputModule", fileName=cms.untracked.string(output_filename), outputCommands=cms.untracked.vstring( 'drop *', 'keep *_offlinePrimaryVertices_*_*', # Temporary, testing if it solves excessive use of ram in chic analysis 'keep *_dimuonProducer_UpsilonCandLorentzVector_*', 'keep *_chiCandProducer_chicand_*', 'keep *_chiCandProducer_piZeroRejectCand_*', 'keep *_refit_*_*', # This are for mc 'keep *_genParticles_*_*', 'keep *_g4SimHits__*'), SelectEvents=cms.untracked.PSet(SelectEvents=cms.vstring('p'))) process.end = cms.EndPath(process.out) process.p = cms.Path(process.triggerSelection * process.chiSequence) process.schedule = cms.Schedule(process.p, process.end) # HACK ! Need to understand ! process.dimuonProducer.addMuonlessPrimaryVertex = False
compressionLevel=cms.untracked.int32(9), dataset=cms.untracked.PSet(dataTier=cms.untracked.string('NANOAOD'), filterName=cms.untracked.string('')), fileName=cms.untracked.string('file:jetToolbox_nano_datatest4546.root'), outputCommands=process.NANOAODEventContent.outputCommands) # Additional output definition # Other statements from Configuration.AlCa.GlobalTag import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, '102X_dataRun2_Sep2018Rereco_v1', '') # Path and EndPath definitions process.nanoAOD_step = cms.Path(process.nanoSequence) process.endjob_step = cms.EndPath(process.endOfProcess) process.NANOAODoutput_step = cms.EndPath(process.NANOAODoutput) # Schedule definition process.schedule = cms.Schedule(process.nanoAOD_step, process.endjob_step, process.NANOAODoutput_step) from PhysicsTools.PatAlgos.tools.helpers import associatePatAlgosToolsTask associatePatAlgosToolsTask(process) # customisation of the process. # Automatic addition of the customisation function from PhysicsTools.NanoAOD.nano_cff from PhysicsTools.NanoAOD.nano_cff import nanoAOD_customizeData #call to customisation function nanoAOD_customizeData imported from PhysicsTools.NanoAOD.nano_cff process = nanoAOD_customizeData(process)
dataTier = cms.untracked.string('USER') ), eventAutoFlushCompressedSize = cms.untracked.int32(5242880) ) process.SKIMStreamZmmg = cms.OutputModule("PoolOutputModule", SelectEvents = cms.untracked.PSet( SelectEvents = cms.vstring('ZmmgSkimPath') ), outputCommands = (cms.untracked.vstring('drop *', 'drop *', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'drop *_hlt*_*_*', 'keep *_hltL1GtObjectMap_*_*', 'keep FEDRawDataCollection_rawDataCollector_*_*', 'keep FEDRawDataCollection_source_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep DetIdedmEDCollection_siStripDigis_*_*', 'keep DetIdedmEDCollection_siPixelDigis_*_*', 'keep *_siPixelClusters_*_*', 'keep *_siStripClusters_*_*', 'keep *_dt1DRecHits_*_*', 'keep *_dt4DSegments_*_*', 'keep *_dt1DCosmicRecHits_*_*', 'keep *_dt4DCosmicSegments_*_*', 'keep *_csc2DRecHits_*_*', 'keep *_cscSegments_*_*', 'keep *_rpcRecHits_*_*', 'keep *_hbhereco_*_*', 'keep *_hfreco_*_*', 'keep *_horeco_*_*', 'keep HBHERecHitsSorted_hbherecoMB_*_*', 'keep HORecHitsSorted_horecoMB_*_*', 'keep HFRecHitsSorted_hfrecoMB_*_*', 'keep ZDCDataFramesSorted_*Digis_*_*', 'keep ZDCRecHitsSorted_*_*_*', 'keep *_reducedHcalRecHits_*_*', 'keep *_castorreco_*_*', 'keep *_ecalPreshowerRecHit_*_*', 'keep *_ecalRecHit_*_*', 'keep *_ecalCompactTrigPrim_*_*', 'keep *_ecalTPSkim_*_*', 'keep *_selectDigi_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEE_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsEB_*_*', 'keep EcalRecHitsSorted_reducedEcalRecHitsES_*_*', 'keep *_hybridSuperClusters_*_*', 'keep recoSuperClusters_correctedHybridSuperClusters_*_*', 'keep *_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClusters_*_*', 'keep recoSuperClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoSuperClusters_correctedMulti5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusters_multi5x5SuperClustersWithPreshower_*_*', 'keep recoPreshowerClusterShapes_multi5x5PreshowerClusterShape_*_*', 'drop recoClusterShapes_*_*_*', 'drop recoBasicClustersToOnerecoClusterShapesAssociation_*_*_*', 'drop recoBasicClusters_multi5x5BasicClusters_multi5x5BarrelBasicClusters_*', 'drop recoSuperClusters_multi5x5SuperClusters_multi5x5BarrelSuperClusters_*', 'keep *_CkfElectronCandidates_*_*', 'keep *_GsfGlobalElectronTest_*_*', 'keep *_electronMergedSeeds_*_*', 'keep recoGsfTracks_electronGsfTracks_*_*', 'keep recoGsfTrackExtras_electronGsfTracks_*_*', 'keep recoTrackExtras_electronGsfTracks_*_*', 'keep TrackingRecHitsOwned_electronGsfTracks_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTrackExtras_generalTracks_*_*', 'keep TrackingRecHitsOwned_generalTracks_*_*', 'keep recoTracks_beamhaloTracks_*_*', 'keep recoTrackExtras_beamhaloTracks_*_*', 'keep TrackingRecHitsOwned_beamhaloTracks_*_*', 'keep recoTracks_regionalCosmicTracks_*_*', 'keep recoTrackExtras_regionalCosmicTracks_*_*', 'keep TrackingRecHitsOwned_regionalCosmicTracks_*_*', 'keep recoTracks_rsWithMaterialTracks_*_*', 'keep recoTrackExtras_rsWithMaterialTracks_*_*', 'keep TrackingRecHitsOwned_rsWithMaterialTracks_*_*', 'keep recoTracks_conversionStepTracks_*_*', 'keep recoTrackExtras_conversionStepTracks_*_*', 'keep TrackingRecHitsOwned_conversionStepTracks_*_*', 'keep *_ctfPixelLess_*_*', 'keep *_dedxTruncated40_*_*', 'keep *_dedxDiscrimASmi_*_*', 'keep *_dedxHarmonic2_*_*', 'keep *_trackExtrapolator_*_*', 'keep *_kt4CaloJets_*_*', 'keep *_kt6CaloJets_*_*', 'keep *_ak5CaloJets_*_*', 'keep *_ak7CaloJets_*_*', 'keep *_iterativeCone5CaloJets_*_*', 'keep *_iterativeCone15CaloJets_*_*', 'keep *_kt4PFJets_*_*', 'keep *_kt6PFJets_*_*', 'keep *_ak5PFJets_*_*', 'keep *_ak7PFJets_*_*', 'keep *_iterativeCone5PFJets_*_*', 'keep *_JetPlusTrackZSPCorJetAntiKt5_*_*', 'keep *_ak5TrackJets_*_*', 'keep *_kt4TrackJets_*_*', 'keep recoRecoChargedRefCandidates_trackRefsForJets_*_*', 'keep *_caloTowers_*_*', 'keep *_towerMaker_*_*', 'keep *_CastorTowerReco_*_*', 'keep *_ic5JetTracksAssociatorAtVertex_*_*', 'keep *_iterativeCone5JetTracksAssociatorAtVertex_*_*', 'keep *_iterativeCone5JetTracksAssociatorAtCaloFace_*_*', 'keep *_iterativeCone5JetExtender_*_*', 'keep *_kt4JetTracksAssociatorAtVertex_*_*', 'keep *_kt4JetTracksAssociatorAtCaloFace_*_*', 'keep *_kt4JetExtender_*_*', 'keep *_ak5JetTracksAssociatorAtVertex_*_*', 'keep *_ak5JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak5JetExtender_*_*', 'keep *_ak7JetTracksAssociatorAtVertex_*_*', 'keep *_ak7JetTracksAssociatorAtCaloFace_*_*', 'keep *_ak7JetExtender_*_*', 'keep *_ak5JetID_*_*', 'keep *_ak7JetID_*_*', 'keep *_ic5JetID_*_*', 'keep *_kt4JetID_*_*', 'keep *_kt6JetID_*_*', 'keep *_ak7BasicJets_*_*', 'keep *_ak7CastorJetID_*_*', 'keep double_kt6CaloJetsCentral_*_*', 'keep double_kt6PFJetsCentralChargedPileUp_*_*', 'keep double_kt6PFJetsCentralNeutral_*_*', 'keep double_kt6PFJetsCentralNeutralTight_*_*', 'keep *_fixedGridRho*_*_*', 'keep recoCaloMETs_met_*_*', 'keep recoCaloMETs_metNoHF_*_*', 'keep recoCaloMETs_metHO_*_*', 'keep recoCaloMETs_corMetGlobalMuons_*_*', 'keep recoCaloMETs_metNoHFHO_*_*', 'keep recoCaloMETs_metOptHO_*_*', 'keep recoCaloMETs_metOpt_*_*', 'keep recoCaloMETs_metOptNoHFHO_*_*', 'keep recoCaloMETs_metOptNoHF_*_*', 'keep recoMETs_htMetAK5_*_*', 'keep recoMETs_htMetAK7_*_*', 'keep recoMETs_htMetIC5_*_*', 'keep recoMETs_htMetKT4_*_*', 'keep recoMETs_htMetKT6_*_*', 'keep recoMETs_tcMet_*_*', 'keep recoMETs_tcMetWithPFclusters_*_*', 'keep recoPFMETs_pfMet_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonMETValueMapProducer_*_*', 'keep recoMuonMETCorrectionDataedmValueMap_muonTCMETValueMapProducer_*_*', 'keep recoHcalNoiseRBXs_hcalnoise_*_*', 'keep HcalNoiseSummary_hcalnoise_*_*', 'keep *HaloData_*_*_*', 'keep *BeamHaloSummary_BeamHaloSummary_*_*', 'keep *_MuonSeed_*_*', 'keep *_ancientMuonSeed_*_*', 'keep *_mergedStandAloneMuonSeeds_*_*', 'keep TrackingRecHitsOwned_globalMuons_*_*', 'keep TrackingRecHitsOwned_tevMuons_*_*', 'keep recoCaloMuons_calomuons_*_*', 'keep *_CosmicMuonSeed_*_*', 'keep recoTrackExtras_cosmicMuons_*_*', 'keep TrackingRecHitsOwned_cosmicMuons_*_*', 'keep recoTrackExtras_globalCosmicMuons_*_*', 'keep TrackingRecHitsOwned_globalCosmicMuons_*_*', 'keep recoTrackExtras_cosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_cosmicMuons1Leg_*_*', 'keep recoTrackExtras_globalCosmicMuons1Leg_*_*', 'keep TrackingRecHitsOwned_globalCosmicMuons1Leg_*_*', 'keep recoTracks_cosmicsVetoTracks_*_*', 'keep *_SETMuonSeed_*_*', 'keep recoTracks_standAloneSETMuons_*_*', 'keep recoTrackExtras_standAloneSETMuons_*_*', 'keep TrackingRecHitsOwned_standAloneSETMuons_*_*', 'keep recoTracks_globalSETMuons_*_*', 'keep recoTrackExtras_globalSETMuons_*_*', 'keep TrackingRecHitsOwned_globalSETMuons_*_*', 'keep recoMuons_muonsWithSET_*_*', 'keep *_muons_*_*', 'keep *_*_muons_*', 'drop *_muons_muons1stStep2muonsMap_*', 'keep recoTracks_standAloneMuons_*_*', 'keep recoTrackExtras_standAloneMuons_*_*', 'keep TrackingRecHitsOwned_standAloneMuons_*_*', 'keep recoTracks_globalMuons_*_*', 'keep recoTrackExtras_globalMuons_*_*', 'keep recoTracks_tevMuons_*_*', 'keep recoTrackExtras_tevMuons_*_*', 'keep recoTracks_generalTracks_*_*', 'keep recoTracksToOnerecoTracksAssociation_tevMuons_*_*', 'keep recoTracks_cosmicMuons_*_*', 'keep recoTracks_globalCosmicMuons_*_*', 'keep recoMuons_muonsFromCosmics_*_*', 'keep recoTracks_cosmicMuons1Leg_*_*', 'keep recoTracks_globalCosmicMuons1Leg_*_*', 'keep recoMuons_muonsFromCosmics1Leg_*_*', 'keep recoTracks_refittedStandAloneMuons_*_*', 'keep recoTrackExtras_refittedStandAloneMuons_*_*', 'keep TrackingRecHitsOwned_refittedStandAloneMuons_*_*', 'keep *_muIsoDepositTk_*_*', 'keep *_muIsoDepositCalByAssociatorTowers_*_*', 'keep *_muIsoDepositCalByAssociatorHits_*_*', 'keep *_muIsoDepositJets_*_*', 'keep *_muGlobalIsoDepositCtfTk_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorTowers_*_*', 'keep *_muGlobalIsoDepositCalByAssociatorHits_*_*', 'keep *_muGlobalIsoDepositJets_*_*', 'keep *_impactParameterTagInfos_*_*', 'keep *_trackCountingHighEffBJetTags_*_*', 'keep *_trackCountingHighPurBJetTags_*_*', 'keep *_jetProbabilityBJetTags_*_*', 'keep *_jetBProbabilityBJetTags_*_*', 'keep *_secondaryVertexTagInfos_*_*', 'keep *_ghostTrackVertexTagInfos_*_*', 'keep *_simpleSecondaryVertexBJetTags_*_*', 'keep *_simpleSecondaryVertexHighEffBJetTags_*_*', 'keep *_simpleSecondaryVertexHighPurBJetTags_*_*', 'keep *_combinedSecondaryVertexBJetTags_*_*', 'keep *_combinedSecondaryVertexMVABJetTags_*_*', 'keep *_ghostTrackBJetTags_*_*', 'keep *_btagSoftElectrons_*_*', 'keep *_softElectronCands_*_*', 'keep *_softPFElectrons_*_*', 'keep *_softElectronTagInfos_*_*', 'keep *_softElectronBJetTags_*_*', 'keep *_softElectronByIP3dBJetTags_*_*', 'keep *_softElectronByPtBJetTags_*_*', 'keep *_softMuonTagInfos_*_*', 'keep *_softMuonBJetTags_*_*', 'keep *_softMuonByIP3dBJetTags_*_*', 'keep *_softMuonByPtBJetTags_*_*', 'keep *_combinedMVABJetTags_*_*', 'keep *_ak5PFJetsRecoTauPiZeros_*_*', 'keep *_hpsPFTauProducer_*_*', 'keep *_hpsPFTauDiscrimination*_*_*', 'keep *_shrinkingConePFTauProducer_*_*', 'keep *_shrinkingConePFTauDiscrimination*_*_*', 'keep *_hpsTancTaus_*_*', 'keep *_hpsTancTausDiscrimination*_*_*', 'keep *_TCTauJetPlusTrackZSPCorJetAntiKt5_*_*', 'keep *_caloRecoTauTagInfoProducer_*_*', 'keep recoCaloTaus_caloRecoTauProducer*_*_*', 'keep *_caloRecoTauDiscrimination*_*_*', 'keep *_offlinePrimaryVertices__*', 'keep *_offlinePrimaryVerticesWithBS_*_*', 'keep *_offlinePrimaryVerticesFromCosmicTracks_*_*', 'keep *_nuclearInteractionMaker_*_*', 'keep *_generalV0Candidates_*_*', 'keep recoGsfElectronCores_gsfElectronCores_*_*', 'keep recoGsfElectrons_gsfElectrons_*_*', 'keep recoGsfElectronCores_uncleanedOnlyGsfElectronCores_*_*', 'keep recoGsfElectrons_uncleanedOnlyGsfElectrons_*_*', 'keep floatedmValueMap_eidRobustLoose_*_*', 'keep floatedmValueMap_eidRobustTight_*_*', 'keep floatedmValueMap_eidRobustHighEnergy_*_*', 'keep floatedmValueMap_eidLoose_*_*', 'keep floatedmValueMap_eidTight_*_*', 'keep recoPhotons_photons_*_*', 'keep recoPhotonCores_photonCore_*_*', 'keep recoConversions_conversions_*_*', 'drop *_conversions_uncleanedConversions_*', 'keep recoConversions_allConversions_*_*', 'keep recoTracks_ckfOutInTracksFromConversions_*_*')+cms.untracked.vstring('keep recoTracks_ckfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_ckfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_ckfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_ckfInOutTracksFromConversions_*_*', 'keep recoConversions_uncleanedOnlyAllConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTracks_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep recoTrackExtras_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfOutInTracksFromConversions_*_*', 'keep TrackingRecHitsOwned_uncleanedOnlyCkfInOutTracksFromConversions_*_*', 'keep *_PhotonIDProd_*_*', 'keep *_hfRecoEcalCandidate_*_*', 'keep *_hfEMClusters_*_*', 'keep *_pixelTracks_*_*', 'keep *_pixelVertices_*_*', 'drop CaloTowersSorted_towerMakerPF_*_*', 'keep recoPFRecHits_particleFlowClusterECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHO_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHFEM_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterHFHAD_Cleaned_*', 'keep recoPFRecHits_particleFlowClusterPS_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitECAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHCAL_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitHO_Cleaned_*', 'keep recoPFRecHits_particleFlowRecHitPS_Cleaned_*', 'keep recoPFClusters_particleFlowClusterECAL_*_*', 'keep recoPFClusters_particleFlowClusterHCAL_*_*', 'keep recoPFClusters_particleFlowClusterHO_*_*', 'keep recoPFClusters_particleFlowClusterPS_*_*', 'keep recoPFBlocks_particleFlowBlock_*_*', 'keep recoPFCandidates_particleFlow_*_*', 'keep recoPFCandidates_particleFlowTmp_electrons_*', 'keep recoPFDisplacedVertexs_particleFlowDisplacedVertex_*_*', 'keep *_pfElectronTranslator_*_*', 'keep *_pfPhotonTranslator_*_*', 'keep *_particleFlow_electrons_*', 'keep *_particleFlow_photons_*', 'keep *_trackerDrivenElectronSeeds_preid_*', 'keep *_offlineBeamSpot_*_*', 'keep L1GlobalTriggerReadoutRecord_gtDigis_*_*', 'keep *_l1GtRecord_*_*', 'keep *_l1GtTriggerMenuLite_*_*', 'keep *_conditionsInEdm_*_*', 'keep *_l1extraParticles_*_*', 'keep *_l1L1GtObjectMap_*_*', 'keep L1MuGMTReadoutCollection_gtDigis_*_*', 'keep L1GctEmCand*_gctDigis_*_*', 'keep L1GctJetCand*_gctDigis_*_*', 'keep L1GctEtHad*_gctDigis_*_*', 'keep L1GctEtMiss*_gctDigis_*_*', 'keep L1GctEtTotal*_gctDigis_*_*', 'keep L1GctHtMiss*_gctDigis_*_*', 'keep L1GctJetCounts*_gctDigis_*_*', 'keep L1GctHFRingEtSums*_gctDigis_*_*', 'keep L1GctHFBitCounts*_gctDigis_*_*', 'keep LumiDetails_lumiProducer_*_*', 'keep LumiSummary_lumiProducer_*_*', 'drop *_hlt*_*_*', 'keep *_hltL1GtObjectMap_*_*', 'keep edmTriggerResults_*_*_*', 'keep triggerTriggerEvent_*_*_*', 'keep L1AcceptBunchCrossings_*_*_*', 'keep L1TriggerScalerss_*_*_*', 'keep Level1TriggerScalerss_*_*_*', 'keep LumiScalerss_*_*_*', 'keep BeamSpotOnlines_*_*_*', 'keep DcsStatuss_*_*_*', 'keep *_logErrorHarvester_*_*', 'drop *_MEtoEDMConverter_*_*', 'drop *_*_*_SKIM')), fileName = cms.untracked.string('Zmmg.root'), dataset = cms.untracked.PSet( filterName = cms.untracked.string('Zmmg'), dataTier = cms.untracked.string('RAW-RECO') ), eventAutoFlushCompressedSize = cms.untracked.int32(5242880) ) # Other statements process.GlobalTag.globaltag = 'GR_R_52_V7::All' # Path and EndPath definitions process.SKIMStreamHZZOutPath = cms.EndPath(process.SKIMStreamHZZ) process.SKIMStreamLogErrorOutPath = cms.EndPath(process.SKIMStreamLogError) process.SKIMStreamLogErrorMonitorOutPath = cms.EndPath(process.SKIMStreamLogErrorMonitor) process.SKIMStreamZmmgOutPath = cms.EndPath(process.SKIMStreamZmmg) # Schedule definition process.schedule = cms.Schedule(process.pathlogerror,process.HZZ4ePath,process.HZZ2e2mPath,process.HZZ2m2ePath,process.HZZ4mPath,process.HZZem2ePath,process.HZZem2mPath,process.ZmmgSkimPath,process.pathlogerrormonitor,process.SKIMStreamHZZOutPath,process.SKIMStreamLogErrorOutPath,process.SKIMStreamLogErrorMonitorOutPath,process.SKIMStreamZmmgOutPath) process.options = cms.untracked.PSet( wantSummary = cms.untracked.bool(True) )