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/afs/cern.ch/work/a/aaltunda/public/www/CMSSW_5_3_14/src/SimMuon/DTDigitizer/python/muonDTDigis_cfi.py

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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 simMuonDTDigis = cms.EDProducer("DTDigitizer",
00004     # Velocity of signal propagation along the wire (cm/ns)
00005     # For the default value
00006     # cfr. CMS-IN 2000-021:   (2.56+-0.17)x1e8 m/s
00007     #      CMS NOTE 2003-17:  (0.244)  m/ns
00008     vPropWire = cms.double(24.4),
00009     # The Synchronization Algo Name. Algos Type= [DTDigiSyncTOFCorr,DTDigiSyncFromTable]
00010     SyncName = cms.string('DTDigiSyncTOFCorr'),
00011     # configure the creation of Digi-Sim links: 
00012     #   one-to-one correspondence between digis and SimHits (MultipleLinks=false)
00013     #   or association of SimHits within a given time window (of the order of the resolution, in ns)
00014     MultipleLinks = cms.bool(True),
00015     # constant drift velocity for the IdealModel (cm/ns)
00016     IdealModelConstantDriftVelocity = cms.double(0.0055),
00017     interpolate = cms.bool(True),
00018     # further configurable smearing
00019     Smearing = cms.double(2.4),
00020     # Dead time for signals on the same wire (number from M. Pegoraro)  
00021     deadTime = cms.double(150.0),
00022     #Name of Collection used for create the XF 
00023     InputCollection = cms.string('g4SimHitsMuonDTHits'),
00024     debug = cms.untracked.bool(False),
00025     # Its parameters
00026     pset = cms.PSet(
00027         TOFCorrection = cms.int32(3),
00028         offset = cms.double(500.0)
00029     ),
00030     # ideal model. Used for debug.
00031     # It uses constant drift velocity and it hasn't any external delay  
00032     IdealModel = cms.bool(False),
00033     LinksTimeWindow = cms.double(10.0),
00034     onlyMuHits = cms.bool(False),
00035     GeometryType = cms.string('idealForDigi')                          
00036 )
00037 
00038 
00039