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ECALHCAL.py
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1 import FWCore.ParameterSet.Config as cms
2 def customise(process):
3 
4 # extend the particle gun acceptance
5 
6  process.generator.AddAntiParticle = cms.bool(False)
7 
8 # no magnetic field
9 
10  process.g4SimHits.UseMagneticField = cms.bool(False)
11  process.UniformMagneticFieldESProducer = cms.ESProducer("UniformMagneticFieldESProducer",
12  ZFieldInTesla = cms.double(0.0)
13  )
14 
15  process.prefer("UniformMagneticFieldESProducer")
16 
17 # add ECAL and HCAL specific Geant4 hits objects
18 
19  process.g4SimHits.Watchers = cms.VPSet(cms.PSet(
20  instanceLabel = cms.untracked.string('EcalValidInfo'),
21  type = cms.string('EcalSimHitsValidProducer'),
22  verbose = cms.untracked.bool(False)
23  ))
24 
25  # use directly the generator output, no Hector
26 
27  process.g4SimHits.Generator.HepMCProductLabel = cms.string('generator')
28 
29  # modify the content
30 
31  #process.output.outputCommands.append("keep *_simHcalUnsuppressedDigis_*_*")
32  process.outputModules_().iteritems().next()[1].outputCommands.append("keep *_simHcalUnsuppressedDigis_*_*")
33 
34 # user schedule: use only calorimeters digitization and local reconstruction
35 
36  del process.schedule[:]
37 
38  process.schedule.append(process.generation_step)
39  process.schedule.append(process.simulation_step)
40 
41  process.ecalGlobalUncalibRecHit.EBdigiCollection = cms.InputTag("simEcalDigis","ebDigis")
42  process.ecalGlobalUncalibRecHit.EEdigiCollection = cms.InputTag("simEcalDigis","eeDigis")
43  process.ecalPreshowerRecHit.ESdigiCollection = cms.InputTag("simEcalPreshowerDigis")
44 
45  delattr(process,"hbhereco")
46  process.hbhereco = process.hbheprereco.clone()
47  process.hcalLocalRecoSequence.replace(process.hbheprereco,process.hbhereco)
48  process.hbhereco.digiLabel = cms.InputTag("simHcalUnsuppressedDigis")
49  process.horeco.digiLabel = cms.InputTag("simHcalUnsuppressedDigis")
50  process.hfreco.digiLabel = cms.InputTag("simHcalUnsuppressedDigis")
51  process.ecalRecHit.recoverEBIsolatedChannels = cms.bool(False)
52  process.ecalRecHit.recoverEEIsolatedChannels = cms.bool(False)
53  process.ecalRecHit.recoverEBFE = cms.bool(False)
54  process.ecalRecHit.recoverEEFE = cms.bool(False)
55 
56  process.reducedEcalRecHitsSequence.remove( process.interestingTrackEcalDetIds )
57 
58 # process.local_digireco = cms.Path(process.mix * process.calDigi * process.ecalLocalRecoSequence * process.hbhereco * process.hfreco * process.horeco * (process.ecalClusters+process.caloTowersRec) * process.reducedEcalRecHitsSequence )
59 
60  process.local_digireco = cms.Path(process.mix * process.calDigi * process.ecalPacker * process.esDigiToRaw * process.hcalRawData * process.rawDataCollector * process.ecalDigis * process.ecalPreshowerDigis * process.hcalDigis * process.calolocalreco *(process.ecalClusters+process.caloTowersRec) * process.reducedEcalRecHitsSequence )
61 
62  process.schedule.append(process.local_digireco)
63 
64  # add HcalNoiseRBXCollection product for Validation/CaloTowers Validation/HcalRecHits
65  process.load( "RecoMET.METProducers.hcalnoiseinfoproducer_cfi" )
66  process.hcalnoise_path = cms.Path( process.hcalnoise )
67  process.schedule.append( process.hcalnoise_path )
68 
69  process.load("Validation/Configuration/ecalSimValid_cff")
70  process.load("Validation/Configuration/hcalSimValid_cff")
71  process.local_validation = cms.Path(process.ecalSimValid+process.hcalSimValid)
72  process.schedule.append(process.local_validation)
73 
74  process.schedule.append(process.endjob_step)
75  #process.schedule.append(process.out_step)
76  process.schedule.append(getattr(process,process.outputModules_().iteritems().next()[0]+"_step"))
77 
78  return(process)
ECALHCAL.customise
def customise
Definition: ECALHCAL.py:2
GetRecoTauVFromDQM_MC_cff.next
tuple next
Definition: GetRecoTauVFromDQM_MC_cff.py:30
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