process.TTEffAnalysisHLTPFTauTightHPSHighPurity
)
# L1 emulator
process.L1simulation_step = cms.Path()
if runL1Emulator:
if isData:
process.load('Configuration.StandardSequences.RawToDigi_Data_cff')
else:
process.load('Configuration.StandardSequences.RawToDigi_cff')
process.L1simulation_step = cms.Path(
process.RawToDigi *
process.SimL1Emulator
)
import L1Trigger.Configuration.customise_l1EmulatorFromRaw as l1emulator
l1emulator.customise(process)
process.l1emuL1extraParticles = process.hltL1extraParticles.clone(
muonSource = cms.InputTag( 'simGmtDigis' ),
isolatedEmSource = cms.InputTag( 'simGctDigis','isoEm' ),
nonIsolatedEmSource = cms.InputTag( 'simGctDigis','nonIsoEm' ),
centralJetSource = cms.InputTag( 'simGctDigis','cenJets' ),
forwardJetSource = cms.InputTag( 'simGctDigis','forJets' ),
tauJetSource = cms.InputTag( 'simGctDigis','tauJets' ),
etTotalSource = cms.InputTag( 'simGctDigis' ),
etHadSource = cms.InputTag( 'simGctDigis' ),
etMissSource = cms.InputTag( 'simGctDigis' )
)
process.l1emuL1GtObjectMap = process.hltL1GtObjectMap.clone(
GmtInputTag = "simGmtDigis",
GctInputTag = "simGctDigis"
process.raw2digi_step = cms.Path(process.RawToDigi) process.L1simulation_step = cms.Path(process.SimL1Emulator) process.ana_step = cms.EndPath(process.HLTHIRecoJetSequenceIC5Corrected*process.patJets) process.endjob_step = cms.EndPath(process.endOfProcess*process.hltbitnew*process.icPu5JetAnalyzer*process.rechitanalyzer) #process.FEVTDEBUGHLToutput_step = cms.EndPath(process.FEVTDEBUGHLToutput) # Schedule definition process.schedule = cms.Schedule(process.raw2digi_step,process.L1simulation_step) process.schedule.extend(process.HLTSchedule) process.schedule.extend([process.ana_step]) process.schedule.extend([process.endjob_step]) # customisation of the process. # Automatic addition of the customisation function from L1Trigger.Configuration.customise_l1EmulatorFromRaw from L1Trigger.Configuration.customise_l1EmulatorFromRaw import customise #call to customisation function customise imported from L1Trigger.Configuration.customise_l1EmulatorFromRaw process = customise(process) # set l1 menu from xml #import L1Trigger.Configuration.L1Trigger_custom #process = L1Trigger.Configuration.L1Trigger_custom.customiseL1Menu( process ) # customize the HLT to use the emulated results import HLTrigger.Configuration.customizeHLTforL1Emulator process = HLTrigger.Configuration.customizeHLTforL1Emulator.switchToL1Emulator( process ) process = HLTrigger.Configuration.customizeHLTforL1Emulator.switchToSimGmtGctGtDigis( process ) # End of customisation functions
process.reconstructionHeavyIons_withPF *= process.particleTowerProducer
# load extra trigger stuff
process.load('Configuration.StandardSequences.SimL1Emulator_cff')
#process.load('HLTrigger.Configuration.HLT_HIon_cff')
# Path and EndPath definitions
process.raw2digi_step = cms.Path(process.RawToDigi)
process.L1simulation_step = cms.Path(process.SimL1Emulator)
process.L1Reco_step = cms.Path(process.L1Reco)
process.reconstruction_step = cms.Path(process.reconstructionHeavyIons_withPF)
process.endjob_step = cms.EndPath(process.endOfProcess)
process.RECODEBUGoutput_step = cms.EndPath(process.RECODEBUGoutput)
from L1Trigger.Configuration.customise_l1EmulatorFromRaw import customise
process = customise(process)
# customize the HLT to use the emulated results
#import HLTrigger.Configuration.customizeHLTforL1Emulator
#process = HLTrigger.Configuration.customizeHLTforL1Emulator.switchToL1Emulator( process )
#process = HLTrigger.Configuration.customizeHLTforL1Emulator.switchToSimGtDigis( process )
#process.hltTrigReport.HLTriggerResults = cms.InputTag('TriggerResults','','RECO' )
#process.HLTSchedule.remove(process.hltTrigReport)
# Schedule definition
#process.schedule = cms.Schedule(process.raw2digi_step,process.L1Reco_step,process.reconstruction_step,process.endjob_step,process.RECODEBUGoutput_step)
process.schedule = cms.Schedule(process.raw2digi_step,
process.L1simulation_step, process.L1Reco_step,
process.reconstruction_step)
#process.schedule.extend(process.HLTSchedule)
outputFileName="tteffAnalysis-hltpftau-hpspftau-highpurity.root")
process.runTTEffAnaHighPurity = cms.Path(
process.commonSequence + process.highPuritySequence +
process.TTEffAnalysisHLTPFTauHPSHighPurity)
# L1 emulator
process.L1simulation_step = cms.Path()
if runL1Emulator:
if isData:
process.load('Configuration.StandardSequences.RawToDigi_Data_cff')
else:
process.load('Configuration.StandardSequences.RawToDigi_cff')
process.L1simulation_step = cms.Path(process.RawToDigi *
process.SimL1Emulator)
import L1Trigger.Configuration.customise_l1EmulatorFromRaw as l1emulator
l1emulator.customise(process)
process.l1emuL1extraParticles = process.hltL1extraParticles.clone(
muonSource=cms.InputTag('simGmtDigis'),
isolatedEmSource=cms.InputTag('simGctDigis', 'isoEm'),
nonIsolatedEmSource=cms.InputTag('simGctDigis', 'nonIsoEm'),
centralJetSource=cms.InputTag('simGctDigis', 'cenJets'),
forwardJetSource=cms.InputTag('simGctDigis', 'forJets'),
tauJetSource=cms.InputTag('simGctDigis', 'tauJets'),
etTotalSource=cms.InputTag('simGctDigis'),
etHadSource=cms.InputTag('simGctDigis'),
etMissSource=cms.InputTag('simGctDigis'))
process.l1emuL1GtObjectMap = process.hltL1GtObjectMap.clone(
GmtInputTag="simGmtDigis", GctInputTag="simGctDigis")
process.L1simulation_step *= (process.l1emuL1extraParticles *
process.l1emuL1GtObjectMap)
