diff --git a/Calibration/HcalAlCaRecoProducers/python/ALCARECOHcalCalPedestalLocal_cff.py b/Calibration/HcalAlCaRecoProducers/python/ALCARECOHcalCalPedestalLocal_cff.py new file mode 100644 index 0000000000000..74e5b0f4c3fa2 --- /dev/null +++ b/Calibration/HcalAlCaRecoProducers/python/ALCARECOHcalCalPedestalLocal_cff.py @@ -0,0 +1,136 @@ +import FWCore.ParameterSet.Config as cms + +#------------------------------------------------ +#AlCaReco filtering for HCAL minbias: +#------------------------------------------------ + +from Calibration.HcalAlCaRecoProducers.ALCARECOHcalCalMinBiasNoise_cff import * +hcalDigiAlCaMB.InputLabel = 'source' + +import HLTrigger.HLTfilters.hltHighLevel_cfi +hcalminbiasHLT = HLTrigger.HLTfilters.hltHighLevel_cfi.hltHighLevel.clone( +# HLTPaths = ['HLT_HcalPhiSym'], + eventSetupPathsKey='HcalCalMinBias', + throw = False #dont throw except on unknown path name +) + +import RecoLocalCalo.HcalRecProducers.HBHEPhase1Reconstructor_cfi +hbherecoMBNZS = RecoLocalCalo.HcalRecProducers.HBHEPhase1Reconstructor_cfi.hbheprereco.clone( + digiLabelQIE8 = cms.InputTag("hcalDigiAlCaMB"), + digiLabelQIE11 = cms.InputTag("hcalDigiAlCaMB"), +### tsFromDB = cms.bool(False), + dropZSmarkedPassed = cms.bool(False), + algorithm = dict( + useMahi = cms.bool(False), + useM2 = cms.bool(False), + useM3 = cms.bool(False) + ), + processQIE11 = cms.bool(False), + setNegativeFlagsQIE8 = cms.bool(False), + setNegativeFlagsQIE11 = cms.bool(False), + setNoiseFlagsQIE8 = cms.bool(True), + setNoiseFlagsQIE11 = cms.bool(False), + setPulseShapeFlagsQIE8 = cms.bool(False), + setPulseShapeFlagsQIE11 = cms.bool(False), + setLegacyFlagsQIE8 = cms.bool(False), + setLegacyFlagsQIE11 = cms.bool(False), +) + +hbherecoMBNZS.algorithm.firstSampleShift = 0 # explicitly repeating the default + +import RecoLocalCalo.HcalRecProducers.hosimplereco_cfi +horecoMBNZS = RecoLocalCalo.HcalRecProducers.hosimplereco_cfi.hosimplereco.clone() + +horecoMBNZS.firstSample = 4 +horecoMBNZS.samplesToAdd = 4 +horecoMBNZS.digiLabel = 'hcalDigiAlCaMB' +horecoMBNZS.tsFromDB = cms.bool(False) +horecoMBNZS.dropZSmarkedPassed = cms.bool(False) + +import RecoLocalCalo.HcalRecProducers.hfsimplereco_cfi +hfrecoMBNZS = RecoLocalCalo.HcalRecProducers.hfsimplereco_cfi.hfsimplereco.clone() + +hfrecoMBNZS.firstSample = 2 # Run 2 default before 2017 +hfrecoMBNZS.samplesToAdd = 2 +hfrecoMBNZS.digiLabel = 'hcalDigiAlCaMB' +hfrecoMBNZS.tsFromDB = cms.bool(False) +hfrecoMBNZS.dropZSmarkedPassed = cms.bool(False) + +seqALCARECOHcalCalMinBiasDigi = cms.Sequence(hcalminbiasHLT*hcalDigiAlCaMB*gtDigisAlCaMB) +seqALCARECOHcalCalMinBiasDigiNoHLT = cms.Sequence(hcalDigiAlCaMB*gtDigisAlCaMB) + +seqALCARECOHcalCalMinBias = cms.Sequence(hbherecoMBNZS*horecoMBNZS*hbherecoNoise*hfrecoNoise*hfrecoMBNZS*horecoNoise) +#seqALCARECOHcalCalMinBias = cms.Sequence(hbherecoMBNZS*hbherecoNoise*hfrecoNoise*hfrecoMBNZS) + +import RecoLocalCalo.HcalRecProducers.hfprereco_cfi +hfprerecoNoise = RecoLocalCalo.HcalRecProducers.hfprereco_cfi.hfprereco.clone( + digiLabel = cms.InputTag("hcalDigiAlCaMB"), + dropZSmarkedPassed = cms.bool(False), + tsFromDB = cms.bool(False), + sumAllTimeSlices = cms.bool(False), + forceSOI = cms.int32(0) +) +hfprerecoMBNZS = RecoLocalCalo.HcalRecProducers.hfprereco_cfi.hfprereco.clone( + digiLabel = cms.InputTag("hcalDigiAlCaMB"), + dropZSmarkedPassed = cms.bool(False), + tsFromDB = cms.bool(False), + sumAllTimeSlices = cms.bool(True), + forceSOI = cms.int32(1) +) + +import RecoLocalCalo.HcalRecProducers.HFPhase1Reconstructor_cfi +_phase1_hfrecoNoise = RecoLocalCalo.HcalRecProducers.HFPhase1Reconstructor_cfi.hfreco.clone( + inputLabel = cms.InputTag("hfprerecoNoise"), + setNoiseFlags = cms.bool(False), + algorithm = dict( + Class = cms.string("HFSimpleTimeCheck"), + rejectAllFailures = cms.bool(False) + ), +) +_phase1_hfrecoMBNZS = RecoLocalCalo.HcalRecProducers.HFPhase1Reconstructor_cfi.hfreco.clone( + inputLabel = cms.InputTag("hfprerecoMBNZS"), + setNoiseFlags = cms.bool(False), + algorithm = dict( + Class = cms.string("HFSimpleTimeCheck"), + rejectAllFailures = cms.bool(False) + ), +) + +_phase1_seqALCARECOHcalCalMinBias = seqALCARECOHcalCalMinBias.copy() +_phase1_seqALCARECOHcalCalMinBias.insert(0,hfprerecoMBNZS) +_phase1_seqALCARECOHcalCalMinBias.insert(0,hfprerecoNoise) + +from Configuration.Eras.Modifier_run2_HF_2017_cff import run2_HF_2017 +run2_HF_2017.toReplaceWith( seqALCARECOHcalCalMinBias, _phase1_seqALCARECOHcalCalMinBias ) +run2_HF_2017.toReplaceWith( hfrecoNoise, _phase1_hfrecoNoise ) +run2_HF_2017.toReplaceWith( hfrecoMBNZS, _phase1_hfrecoMBNZS ) + +import RecoLocalCalo.HcalRecProducers.hbheplan1_cfi +hbheplan1MBNZS = RecoLocalCalo.HcalRecProducers.hbheplan1_cfi.hbheplan1.clone( + hbheInput = cms.InputTag("hbheprerecoMBNZS") +) +hbheplan1Noise = RecoLocalCalo.HcalRecProducers.hbheplan1_cfi.hbheplan1.clone( + hbheInput = cms.InputTag("hbheprerecoNoise") +) + +from Configuration.Eras.Modifier_run2_HCAL_2017_cff import run2_HCAL_2017 +run2_HCAL_2017.toModify( hbherecoMBNZS, + processQIE11 = cms.bool(True), +# temporarily disabled until RecoLocalCalo/HcalRecProducers/python/HBHEPhase1Reconstructor_cfi.py:flagParametersQIE11 is filled +# setNoiseFlagsQIE11 = cms.bool(True), +) +run2_HCAL_2017.toModify( hbherecoNoise, + processQIE11 = cms.bool(True), +# temporarily disabled until RecoLocalCalo/HcalRecProducers/python/HBHEPhase1Reconstructor_cfi.py:flagParametersQIE11 is filled +# setNoiseFlagsQIE11 = cms.bool(True), +) + +_plan1_seqALCARECOHcalCalMinBias = _phase1_seqALCARECOHcalCalMinBias.copy() +hbheprerecoMBNZS = hbherecoMBNZS.clone() +hbheprerecoNoise = hbherecoNoise.clone() +_plan1_seqALCARECOHcalCalMinBias.insert(0,hbheprerecoNoise) +_plan1_seqALCARECOHcalCalMinBias.insert(0,hbheprerecoMBNZS) +from Configuration.Eras.Modifier_run2_HEPlan1_2017_cff import run2_HEPlan1_2017 +run2_HEPlan1_2017.toReplaceWith(hbherecoMBNZS, hbheplan1MBNZS) +run2_HEPlan1_2017.toReplaceWith(hbherecoNoise, hbheplan1Noise) +run2_HEPlan1_2017.toReplaceWith(seqALCARECOHcalCalMinBias, _plan1_seqALCARECOHcalCalMinBias)