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/data/refman/pasoursint/CMSSW_5_3_3/src/Calibration/HcalCalibAlgos/python/diJetCalib.py

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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 process = cms.Process("hcalCalib")
00004 
00005 process.load("Configuration.StandardSequences.GeometryHCAL_cff")
00006 
00007 # no CMS input files
00008 process.maxEvents = cms.untracked.PSet( input = cms.untracked.int32(0) )
00009 process.source = cms.Source("EmptySource")
00010 
00011                           
00012 process.hcalCalib = cms.EDAnalyzer("HcalCalibrator",
00013 
00014 
00015 
00016 #-------- File containing the list of the input root files
00017   inputFileList = cms.untracked.string("test/inputFiles_DiJetCalib.list"),
00018                                    
00019 #-------- calibration type: ISO_TRACK or DI_JET
00020   calibType = cms.untracked.string("DI_JET"),
00021 
00022 #-------- calibration method: L3, MATRIX_INV_OF_ETA_AVE, L3_AND_MTRX_INV
00023 #-------- for diJets use only L3!!!
00024   calibMethod = cms.untracked.string("L3"),
00025 
00026 # --------min target energy: ref jet (had) energy, or isotrack momentum
00027   minTargetE = cms.untracked.double(30.0),
00028 
00029 # ------- max target energy: ref jet (had) energy, or isotrack momentum                                   
00030   maxTargetE = cms.untracked.double(9999.0),
00031 
00032 # ------- min energy in the cell                                   
00033   minCellE = cms.untracked.double(0.0),
00034 
00035 # ------- minimum e/p to accept an IsoTrack for calibration (not used for DiJets)  
00036   minEOverP = cms.untracked.double(0.2),
00037 
00038 # ------- maximum e/p to accept an IsoTrack for calibration (not used for DiJets)  
00039   maxEOverP = cms.untracked.double(999.0),
00040 
00041 # ------- MIP cut: maximum EM energy associated with the track (not used for DiJEts)  
00042   maxTrkEmE = cms.untracked.double(1.0),                                  
00043                                    
00044 #--------Maximum Et allowed for third jet in the event (affects only DiJets)                                   
00045   maxEtThirdJet = cms.untracked.double(5.0),
00046 
00047 # ------- Minimum deltaPhi for the dijets in degrees: 0-180  (affects only DiJets)
00048   minDPhiDiJets = cms.untracked.double(150.0),
00049 
00050 # ------- logical flag to sum depths in HCAL                                   
00051   sumDepths = cms.untracked.bool(True),
00052 
00053 # ------- logical flag to combine phi in HCAL                                   
00054   combinePhi = cms.untracked.bool(True),
00055 
00056 # ------- logical flag to sum depths 1,2 in HB for towers 15,16.
00057 # --------If sumDepths="true" this flag has no effect
00058   sumSmallDepths = cms.untracked.bool(True),
00059 
00060 # ------- cluster size in HB for isotracks: 3 or 5 (means 3x3, 5x5)                                   
00061   hbClusterSize = cms.untracked.int32(3),
00062 
00063 # ------- cluster size in HE for isotracks: 3 or 5 (means 3x3, 5x5)
00064   heClusterSize = cms.untracked.int32(5),
00065 
00066 # -------- flag to use cone clustering -> overrides the above cluster sizes
00067 # -------- and uses cone size as specified below
00068  useConeClustering = cms.untracked.bool(True),
00069 
00070 # -------- size of the cone (when useConeClustering=True)
00071  maxConeDist = cms.untracked.double(26.2),
00072 
00073 # ------- max ABS(iEta) used in the calibration: for matrix inversion sets the range for performing inversion
00074 # ------- For all methods: controls the range of correction factors are saved in the output file                                   
00075   calibAbsIEtaMax  = cms.untracked.int32(41),
00076 
00077 # ------- min ABS(iEta) used in the calibration: for matrix inversion sets the range for performing inversion
00078 # ------- For all methods: controls the range of correction factors are saved in the output file                                     
00079   calibAbsIEtaMin  = cms.untracked.int32(21),
00080                                    
00081 # ------- max EmFraction of probe jet allowed (does not affect isotracks)
00082   maxProbeJetEmFrac  = cms.untracked.double(0.1),
00083 
00084 # ------- max EmFraction of tag jet allowed (does not affect isotracks)
00085   maxTagJetEmFrac = cms.untracked.double(1.0),
00086                                    
00087 # ------- max abs(eta) of tag jet allowed (does not affect isotracks)
00088   maxTagJetAbsEta = cms.untracked.double(1.0),
00089 
00090 # ------- min Et of tag jet allowed (does not affect isotracks)
00091   minTagJetEt = cms.untracked.double(30.0),
00092 
00093 # ------- min abs(eta) of probe jet allowed (does not affect isotracks)
00094   minProbeJetAbsEta = cms.untracked.double(1.4),
00095                                    
00096 # ------- file containing the phi symmetry corrections (to apply on the fly in isoTrack calibration)
00097 # ------- USER PROVIDED!
00098   phiSymCorFileName = cms.untracked.string("phiSymCor.txt"),
00099 
00100 # ------- Flag to read phi symmetry corrections and apply on the fly (can be used for isoTrack)
00101 # ------- Set to false if already applied in Analyzer
00102   applyPhiSymCorFlag = cms.untracked.bool(False),
00103 
00104 # ------- output file with correction factors
00105   outputCorCoefFileName = cms.untracked.string("calibConst_DiJet.txt"),
00106                                    
00107 # ------- output file with some hisograms
00108   histoFileName = cms.untracked.string("histoFile.root")
00109 
00110 ) 
00111 
00112 
00113 process.p = cms.Path(process.hcalCalib)