def cust_2017(process): # To allow simulatenous use of customisation and era while the era migration is in progress if not eras.run2_common.isChosen(): process=customisePostLS1(process,displayDeprecationWarning=False) process=customisePhase1Tk(process) #process=customise_HcalPhase0(process) return process
#process.Refitter.src = 'hiGeneralTracks' # for HI runs process.Refitter.TrajectoryInEvent = True #------------------------------------------------------- #------------------- PilotBladeStudy ------------------- process.PilotBladeStudy = cms.EDAnalyzer("PilotBladeStudy", trajectoryInput = cms.string('Refitter'), fileName = cms.string('nTuplePB'+nEvents+'.root'), usePixelCPE= cms.bool(True) ) #------------------------------------------------------- #--------------------- EndPath ------------------------- process.Refitter_step = cms.Path( process.MeasurementTrackerEvent* process.Refitter ) process.PilotBladeStudy_step = cms.Path(process.PilotBladeStudy) #------------------------------------------------------- #--------------------- Schedule ------------------------ process.schedule = cms.Schedule( process.Refitter_step, process.PilotBladeStudy_step, ) # customisation of the process from SLHCUpgradeSimulations.Configuration.postLS1Customs import customisePostLS1 process = customisePostLS1(process) #-------------------------------------------------------
def cust_2017(process): process=customisePostLS1(process) process=customisePhase1Tk(process) process=customise_HcalPhase0(process) process=fixRPCConditions(process) return process
def cust_phase2_LB4LPS_2L2S(process): process=customisePostLS1(process) process=customiseLB4LPS_2L2S(process) process=customise_ev_LB4LPS_2L2S(process) return process
def cust_phase2_BE(process): process=customisePostLS1(process) process=customise_HcalPhase1(process) process=customiseBE(process) process=customise_ev_BE(process) return process
from Configuration.AlCa.GlobalTag_condDBv2 import GlobalTag process.GlobalTag = GlobalTag(process.GlobalTag, 'MCRUN2_74_V9', '') # 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.AODSIMoutput_step = cms.EndPath(process.AODSIMoutput) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step, process.L1Reco_step, process.reconstruction_step, process.endjob_step, process.AODSIMoutput_step) # customisation of the process. # Automatic addition of the customisation function from SLHCUpgradeSimulations.Configuration.postLS1Customs from SLHCUpgradeSimulations.Configuration.postLS1Customs import customisePostLS1 #call to customisation function customisePostLS1 imported from SLHCUpgradeSimulations.Configuration.postLS1Customs process = customisePostLS1(process) # Automatic addition of the customisation function from Configuration.DataProcessing.Utils from Configuration.DataProcessing.Utils import addMonitoring #call to customisation function addMonitoring imported from Configuration.DataProcessing.Utils process = addMonitoring(process) # End of customisation functions
def cust_2019(process): process = customisePostLS1(process, displayDeprecationWarning=False) process = customisePhase1Tk(process) process = customise_HcalPhase1(process) return process
def cust_2019(process): process=customisePostLS1(process) process=customisePhase1Tk(process) process=customise_HcalPhase1(process) return process
def cust_2019(process): process=customisePostLS1(process,displayDeprecationWarning=False) process=customisePhase1Tk(process) process=customise_HcalPhase1(process) return process
def cust_2023HGCalPandora_common(process): process=customisePostLS1(process) process=customiseBE5DPixel10D(process) process=customise_HcalPhase2(process) process=customise_ev_BE5DPixel10D(process) process=customise_gem2023(process) process=customise_rpc(process) process=jetCustoms.customise_jets(process) if hasattr(process,'L1simulation_step'): process.simEcalTriggerPrimitiveDigis.BarrelOnly = cms.bool(True) if hasattr(process,'digitisation_step'): process.mix.digitizers.ecal.accumulatorType = cms.string('EcalPhaseIIDigiProducer') process.load('SimGeneral.MixingModule.hgcalDigitizer_cfi') process.mix.digitizers.hgceeDigitizer=process.hgceeDigitizer process.mix.digitizers.hgchebackDigitizer=process.hgchebackDigitizer process.mix.digitizers.hgchefrontDigitizer=process.hgchefrontDigitizer # Also need to tell the MixingModule to make the correct collections available from # the pileup, even if not creating CrossingFrames. process.mix.mixObjects.mixCH.input.append( cms.InputTag("g4SimHits",process.hgceeDigitizer.hitCollection.value()) ) process.mix.mixObjects.mixCH.input.append( cms.InputTag("g4SimHits",process.hgchebackDigitizer.hitCollection.value()) ) process.mix.mixObjects.mixCH.input.append( cms.InputTag("g4SimHits",process.hgchefrontDigitizer.hitCollection.value()) ) process.mix.mixObjects.mixCH.subdets.append( process.hgceeDigitizer.hitCollection.value() ) process.mix.mixObjects.mixCH.subdets.append( process.hgchebackDigitizer.hitCollection.value() ) process.mix.mixObjects.mixCH.subdets.append( process.hgchefrontDigitizer.hitCollection.value() ) if hasattr(process,'raw2digi_step'): process.ecalDigis.FEDs = cms.vint32( # EE-: #601, 602, 603, 604, 605, #606, 607, 608, 609, # EB-: 610, 611, 612, 613, 614, 615, 616, 617, 618, 619, 620, 621, 622, 623, 624, 625, 626, 627, # EB+: 628, 629, 630, 631, 632, 633, 634, 635, 636, 637, 638, 639, 640, 641, 642, 643, 644, 645, # EE+: #646, 647, 648, 649, 650, #651, 652, 653, 654 ) print "RAW2DIGI only for EB FEDs" if hasattr(process,'reconstruction_step'): process.particleFlowRecHitHGCNoEB = cms.Sequence(process.particleFlowRecHitHGCEE+process.particleFlowRecHitHGCHEF) process.particleFlowClusterHGCNoEB = cms.Sequence(process.particleFlowClusterHGCEE+process.particleFlowClusterHGCHEF) process.particleFlowCluster += process.particleFlowRecHitHGCNoEB process.particleFlowCluster += process.particleFlowClusterHGCNoEB if hasattr(process,'particleFlowSuperClusterECAL'): process.particleFlowSuperClusterHGCEE = process.particleFlowSuperClusterECAL.clone() process.particleFlowSuperClusterHGCEE.useHGCEmPreID = cms.bool(True) process.particleFlowSuperClusterHGCEE.PFClusters = cms.InputTag('particleFlowClusterHGCEE') process.particleFlowSuperClusterHGCEE.use_preshower = cms.bool(False) process.particleFlowSuperClusterHGCEE.PFSuperClusterCollectionEndcapWithPreshower = cms.string('') process.particleFlowCluster += process.particleFlowSuperClusterHGCEE if hasattr(process,'ecalDrivenElectronSeeds'): process.ecalDrivenElectronSeeds.endcapSuperClusters = cms.InputTag('particleFlowSuperClusterHGCEE') process.ecalDrivenElectronSeeds.SeedConfiguration.endcapHCALClusters = cms.InputTag('particleFlowClusterHGCHEF') process.ecalDrivenElectronSeeds.SeedConfiguration.hOverEMethodEndcap = cms.int32(3) process.ecalDrivenElectronSeeds.SeedConfiguration.hOverEConeSizeEndcap = cms.double(0.087) process.ecalDrivenElectronSeeds.SeedConfiguration.maxHOverEEndcaps = cms.double(0.1) process.ecalDrivenElectronSeeds.SeedConfiguration.z2MinB = cms.double(-0.15) process.ecalDrivenElectronSeeds.SeedConfiguration.z2MaxB = cms.double(0.15) if hasattr(process,'ecalDrivenGsfElectrons'): process.ecalDrivenGsfElectrons.hOverEMethodEndcap = cms.int32(3) process.ecalDrivenGsfElectrons.hOverEConeSizeEndcap = cms.double(0.087) process.ecalDrivenGsfElectrons.maxDeltaEtaEndcaps = cms.double(0.015) process.ecalDrivenGsfElectrons.hcalEndcapClusters = cms.InputTag('particleFlowClusterHGCHEF') if hasattr(process,'gsfElectrons'): process.gsfElectrons.hOverEMethodEndcap = cms.int32(3) process.gsfElectrons.hOverEConeSizeEndcap = cms.double(0.087) process.gsfElectrons.maxDeltaEtaEndcaps = cms.double(0.015) process.gsfElectrons.hcalEndcapClusters = cms.InputTag('particleFlowClusterHGCHEF') # load pandora customization (note we have removed HGC clusters entirely from standard ParticleFlow # doing this) process.load('RecoParticleFlow.PandoraTranslator.HGCalTrackCollection_cfi') process.load('RecoParticleFlow.PandoraTranslator.runPandora_cfi') process.pandorapfanew.pf_electron_output_col = process.particleFlowTmp.pf_electron_output_col process.particleFlowBlock.elementImporters[5].source = cms.InputTag('HGCalTrackCollection:TracksNotInHGCal') process.pandoraSequence = cms.Sequence(process.HGCalTrackCollection* process.particleFlowBlock* process.pandorapfanew) process.particleFlowReco.replace(process.particleFlowBlock,process.pandoraSequence) process.particleFlowBarrel = process.particleFlowTmp.clone() process.particleFlowTmp = cms.EDProducer( "PFCandidateListMerger", src = cms.VInputTag("particleFlowBarrel", "pandorapfanew"), src1 = cms.VInputTag("particleFlowBarrel:"+str(process.particleFlowTmp.pf_electron_output_col), "pandorapfanew:"+str(process.particleFlowTmp.pf_electron_output_col)), label1 = process.particleFlowTmp.pf_electron_output_col ) process.mergedParticleFlowSequence = cms.Sequence(process.particleFlowBarrel*process.particleFlowTmp) process.particleFlowReco.replace(process.particleFlowTmp,process.mergedParticleFlowSequence) #mod event content process.load('RecoLocalCalo.Configuration.hgcalLocalReco_EventContent_cff') if hasattr(process,'FEVTDEBUGHLTEventContent'): process.FEVTDEBUGHLTEventContent.outputCommands.extend(process.hgcalLocalRecoFEVT.outputCommands) process.FEVTDEBUGHLTEventContent.outputCommands.append('keep *_particleFlowSuperClusterHGCEE_*_*') process.FEVTDEBUGHLTEventContent.outputCommands.append('keep *_pandorapfanew_*_*') if hasattr(process,'RECOSIMEventContent'): process.RECOSIMEventContent.outputCommands.extend(process.hgcalLocalRecoFEVT.outputCommands) process.RECOSIMEventContent.outputCommands.append('keep *_particleFlowSuperClusterHGCEE_*_*') process.RECOSIMEventContent.outputCommands.append('keep *_pandorapfanew_*_*') return process