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import FWCore.ParameterSet.Config as cms
from Configuration.ProcessModifiers.dd4hep_cff import dd4hep
from Configuration.Eras.Modifier_h2tb_cff import h2tb
process = cms.Process("PROD", dd4hep, h2tb)
process.load('FWCore.MessageService.MessageLogger_cfi')
process.load("SimGeneral.HepPDTESSource.pdt_cfi")
process.load("Geometry.EcalCommonData.ecalSimulationParameters_cff")
process.load("Geometry.HcalTestBeamData.hcalDDDSimConstants_cff")
process.load('GeneratorInterface.Core.generatorSmeared_cfi')
process.load("Configuration.EventContent.EventContent_cff")
process.load("SimG4Core.Application.g4SimHits_cfi")
process.maxEvents = cms.untracked.PSet(
input = cms.untracked.int32(10)
)
process.DDDetectorESProducer = cms.ESSource("DDDetectorESProducer",
confGeomXMLFiles = cms.FileInPath('Geometry/HcalTestBeamData/data/dd4hep/cms-test-ddTB2004-algorithm.xml'),
appendToDataLabel = cms.string('')
)
process.DDCompactViewESProducer = cms.ESProducer("DDCompactViewESProducer",
appendToDataLabel = cms.string('')
)
process.TFileService = cms.Service("TFileService",
fileName = cms.string('hcaltb04.root')
)
process.MessageLogger.cerr.FwkReport.reportEvery = 5
if hasattr(process,'MessageLogger'):
process.MessageLogger.HCalGeom=dict()
process.MessageLogger.EcalGeom=dict()
process.MessageLogger.HcalSim=dict()
process.MessageLogger.HcalTBSim=dict()
process.MessageLogger.EcalSim=dict()
process.MessageLogger.CaloSim=dict()
process.MessageLogger.SimHCalData=dict()
process.MessageLogger.VertexGenerator=dict()
process.load("IOMC.RandomEngine.IOMC_cff")
process.RandomNumberGeneratorService.generator.initialSeed = 456789
process.RandomNumberGeneratorService.g4SimHits.initialSeed = 9876
process.RandomNumberGeneratorService.VtxSmeared.initialSeed = 123456789
beamPosition = -521.5
process.common_beam_direction_parameters = cms.PSet(
MinEta = cms.double(0.5655),
MaxEta = cms.double(0.5655),
MinPhi = cms.double(-0.1309),
MaxPhi = cms.double(-0.1309),
BeamPosition = cms.double(beamPosition)
)
from IOMC.EventVertexGenerators.VtxSmearedParameters_cfi import *
process.VtxSmeared = cms.EDProducer("BeamProfileVtxGenerator",
process.common_beam_direction_parameters,
VtxSmearedCommon,
BeamMeanX = cms.double(0.0),
BeamMeanY = cms.double(0.0),
BeamSigmaX = cms.double(0.0001),
BeamSigmaY = cms.double(0.0001),
Psi = cms.double(999.9),
GaussianProfile = cms.bool(False),
BinX = cms.int32(50),
BinY = cms.int32(50),
File = cms.string('beam.profile'),
UseFile = cms.bool(False),
TimeOffset = cms.double(0.)
)
process.source = cms.Source("EmptySource")
process.generator = cms.EDProducer("FlatRandomEGunProducer",
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),
firstRun = cms.untracked.uint32(1)
)
process.o1 = cms.OutputModule("PoolOutputModule",
process.FEVTSIMEventContent,
fileName = cms.untracked.string('sim2004.root')
)
process.Timing = cms.Service("Timing")
process.p1 = cms.Path(process.generator*process.VtxSmeared*process.generatorSmeared*process.g4SimHits)
process.outpath = cms.EndPath(process.o1)
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.hcalParameters.fromDD4hep = True
process.caloSimulationParameters.fromDD4hep = True
process.g4SimHits.StackingAction.KillGamma = False
process.g4SimHits.CaloSD.BeamPosition = beamPosition
process.g4SimHits.CaloTrkProcessing.TestBeam = True
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 = 0.05
process.g4SimHits.ECalSD.Detectors = 1
process.g4SimHits.HCalSD.UseBirkLaw = True
process.g4SimHits.HCalSD.BirkC1 = 0.0052
process.g4SimHits.HCalSD.BirkC2 = 0.142
process.g4SimHits.HCalSD.BirkC3 = 1.75
process.g4SimHits.HCalSD.UseLayerWt = False
process.g4SimHits.HCalSD.WtFile = ' '
process.g4SimHits.HCalSD.UseShowerLibrary = False
process.g4SimHits.HCalSD.TestNumberingScheme = True
process.g4SimHits.HCalSD.UseHF = False
process.g4SimHits.HCalSD.ForTBHCAL = True
process.g4SimHits.HCalSD.ForTBH2 = True
process.g4SimHits.OnlySDs = ['HcalTB06BeamDetector',
'EcalSensitiveDetector',
'CaloTrkProcessing',
'HcalSensitiveDetector']
process.g4SimHits.Watchers = cms.VPSet(cms.PSet(
HcalTB04Analysis = cms.PSet(
process.common_beam_direction_parameters,
HcalOnly = cms.bool(False),
Type = cms.int32(2),
Mode = cms.int32(1),
ScaleHB0 = cms.double(0.5),
ScaleHB16 = cms.double(0.5),
ScaleHE0 = cms.double(0.5),
ScaleHO = cms.double(0.4),
EcalNoise = cms.double(0.13),
Names = cms.vstring('HcalHits', 'EcalHitsEB'),
Verbose = cms.untracked.bool(True),
FileName = cms.untracked.string('HcalTB04.root'),
ETtotMax = cms.untracked.double(20.0),
EHCalMax = cms.untracked.double(2.0)
),
HcalQie = cms.PSet(
NumOfBuckets = cms.int32(10),
BaseLine = cms.int32(4),
BinOfMax = cms.int32(6),
PreSamples = cms.int32(0),
EDepPerPE = cms.double(0.0005),
SignalBuckets = cms.int32(2),
SigmaNoise = cms.double(0.5),
qToPE = cms.double(4.0)
),
type = cms.string('HcalTB04Analysis')
))
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