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00001 import FWCore.ParameterSet.Config as cms
00002 
00003 ##
00004 ## Modules for shifting and smearing 4-vectors' energies of Objects
00005 ##
00006 ## Parameters:
00007 ## - InputTag scaledObject: 
00008 ##   Specify objects to shift & smear.
00009 ##   Object type should correspond to module (e.g. Electron in module ElectronEnergyScale) 
00010 ## - bool fixMass:
00011 ##   Set to "true", if mass should not be smeared, e.g. for leptons with known masses.
00012 ##   IMPORTANT: Don't trust this feature at the moment !!! (s. remarks below)
00013 ## - double shiftFactor:
00014 ##   Scales the 4-vector with this fixed value.
00015 ##   E.g. to have all muon energies increased by 12.5%, set "1.125" here.
00016 ##   Default is "1.", which has -- of course -- no effect
00017 ## - bool useDefaultInitialResolution:
00018 ##   Objects contain individual 4-vector resolutions (in terms of Et, theta/eta, phi).
00019 ##   Set this to "true" if these should be used to compute initial resolutions for the smearing.
00020 ## - double initialResolution:
00021 ##   Initial resolution to be used for the energy smearing.
00022 ##   Can be an absolute value (in GeV) or a factor giving the fraction of the smeared energy.
00023 ##   Overwritten, if 'useDefaultInitialResolution' is "true".
00024 ## - bool initialResolutionByFraction:
00025 ##   Flags the usage mode of 'initialResolution'.
00026 ##   E.g. to set the initial resolution to 5% of the energy, set this to "true" and 'initialResolution' to "0.05".
00027 ##   To use a fixed resolution of 1GeV, set this to "false" and 'initialResolution' to "1.".
00028 ## - double worsenResolution:
00029 ##   Used to calculate the final resolution (after smearing) from the initial resolution.
00030 ##   Can be an absolute value (in GeV) or a factor.
00031 ##   The energy is smeared with a Gaussion of
00032 ##   mu    = energy and
00033 ##   sigma = sqrt(finalRes^2-iniRes^2)
00034 ##   with a cut-off at 0.
00035 ## - bool worsenResolutionByFactor:
00036 ##   Flags the usage mode of 'worsenResolution'.
00037 ##
00038 ## Examples:
00039 ## - smear Electron 4-vector (fixed mass) with a fixed initial resolution of 500MeV to as final resolution of 1.25GeV:
00040 ##  scaledElectrons = cms.module(ElectronEnergyScale) {
00041 ##    scaledObject                = cms.InputTag("selectedPatElectrons")
00042 ##    fixMass                     = cms.bool(True)
00043 ##    shiftFactor                 = cms.double(1.)
00044 ##    useDefaultInitialResolution = cms.bool(False)
00045 ##    initialResolution           = cms.double(0.5)
00046 ##    initialResolutionByFraction = cms.bool(False)   ## alternative:
00047 ##    worsenResolution            = cms.double(0.75)  ## 2.5
00048 ##    worsenResolutionByFactor    = cms.bool(False)   ## true
00049 ##   }
00050 ## - smear Muon 4-vector (fixed mass) with a initial resolution of 10% to as final resoltion of 20%:
00051 ##  scaledMuons = cms.module(MuonEnergyScale) {
00052 ##    scaledObject                = cms.InputTag("selectedPatMuons")
00053 ##    fixMass                     = cms.bool(True)
00054 ##    shiftFactor                 = cms.double(1.)
00055 ##    useDefaultInitialResolution = cms.bool(True)
00056 ##    initialResolution           = cms.double(0.1)
00057 ##    initialResolutionByFraction = cms.bool(True)
00058 ##    worsenResolution            = cms.double(2.)
00059 ##    worsenResolutionByFactor    = cms.bool(True)
00060 ##   }
00061 ## - smear Jet 4-vector to a final resoltion of 150% of the default initial resolution:
00062 ##  scaledJets = cms.module(JetEnergyScale) {
00063 ##    scaledObject                = cms.InputTag("selectedPatAK5CaloJets")
00064 ##    fixMass                     = cms.bool(False)  ## ===> no fixed mass for the jet
00065 ##    shiftFactor                 = cms.double(1.)
00066 ##    useDefaultInitialResolution = cms.bool(True)
00067 ##    initialResolution           = cms.double(0.05) ## ===> overwritten by "useDefaultInitialResolution = true"
00068 ##    initialResolutionByFraction = cms.bool(True)
00069 ##    worsenResolution            = cms.double(1.5)
00070 ##    worsenResolutionByFactor    = cms.bool(True)
00071 ##   }
00072 ##
00073 ## Remarks:
00074 ## - Due to the inclusion of the default initial resolutions, these modules are limited to Objects for the moment.
00075 ## - The smearing takes care, that final resolutions do not become smaller than initial resolutions.
00076 ##   E.g. if (worsenResolution=0.6 && worsenResolutionByFactor=true) is set, it is assumed that the final resolution
00077 ##   should be 40% worse than the initial resolution. So, 'worsenResolution' is set to 1.4 internally.
00078 ##   (Analogously for (worsenResolution<0. && worsenResolutionByFactor=false).)
00079 ## - To switch off energy shifting, use (shiftFactor=1.).
00080 ## - To switch off energy smearing, use (worsenResolution=0. && worsenResolutionByFactor=false) or
00081 ##   (worsenResolution=1. && worsenResolutionByFactor=true).
00082 ## - In the standard sequence at the bottom of this file, Taus are commented.
00083 ## - (fixMass=true) isn't reliable so far :-(
00084 ##   The input provided by class Particle is not yet understood (Negative mass for positive mass^2 in contradiction to ROOT::TLorentzVector).
00085 ##
00086 ## Contact: volker.adler@cern.ch
00087 ##
00088 
00089 
00090 ## initialize random number generator
00091 RandomNumberGeneratorService = cms.Service("RandomNumberGeneratorService",
00092     scaledElectrons = cms.PSet(
00093         initialSeed = cms.untracked.uint32(897867),
00094         engineName = cms.untracked.string('HepJamesRandom')
00095     ),
00096     scaledMuons = cms.PSet(
00097         initialSeed = cms.untracked.uint32(17987),
00098         engineName = cms.untracked.string('HepJamesRandom')
00099     ),
00100     theSource = cms.PSet(
00101         initialSeed = cms.untracked.uint32(7893456),
00102         engineName = cms.untracked.string('HepJamesRandom')
00103     ),
00104     scaledTaus = cms.PSet(
00105         initialSeed = cms.untracked.uint32(38476),
00106         engineName = cms.untracked.string('HepJamesRandom')
00107     ),
00108     scaledJets = cms.PSet(
00109         initialSeed = cms.untracked.uint32(61587),
00110         engineName = cms.untracked.string('HepJamesRandom')
00111     ),
00112     scaledMETs = cms.PSet(
00113         initialSeed = cms.untracked.uint32(3489766),
00114         engineName = cms.untracked.string('HepJamesRandom')
00115     )
00116 )
00117 
00118 ## Electrons
00119 scaledElectrons = cms.EDFilter("ElectronEnergyScale",
00120  scaledObject                = cms.InputTag("selectedPatElectrons"),
00121  fixMass                     = cms.bool(False),
00122  shiftFactor                 = cms.double(1.),
00123  useDefaultInitialResolution = cms.bool(True),
00124  initialResolution           = cms.double(0.),
00125  initialResolutionByFraction = cms.bool(True),
00126  worsenResolution            = cms.double(1.),
00127  worsenResolutionByFactor    = cms.bool(True),
00128 )
00129 
00130 ## Muons
00131 scaledMuons = cms.EDFilter("MuonEnergyScale",
00132  scaledObject                = cms.InputTag("selectedPatMuons"),
00133  fixMass                     = cms.bool(False),
00134  shiftFactor                 = cms.double(1.),
00135  useDefaultInitialResolution = cms.bool(True),
00136  initialResolution           = cms.double(0.),
00137  initialResolutionByFraction = cms.bool(True),
00138  worsenResolution            = cms.double(1.),
00139  worsenResolutionByFactor    = cms.bool(True),
00140 )
00141 
00142 ## Taus
00143 scaledTaus = cms.EDFilter("TauEnergyScale",
00144  scaledObject                = cms.InputTag("selectedPatTaus"),
00145  fixMass                     = cms.bool(False),
00146  shiftFactor                 = cms.double(1.),
00147  useDefaultInitialResolution = cms.bool(True),
00148  initialResolution           = cms.double(0.),
00149  initialResolutionByFraction = cms.bool(True),
00150  worsenResolution            = cms.double(1.),
00151  worsenResolutionByFactor    = cms.bool(True),
00152 )
00153 
00154 ## Jets
00155 scaledJets = cms.EDFilter("JetEnergyScale",
00156  scaledObject                = cms.InputTag("selectedPatJets"),
00157  fixMass                     = cms.bool(False),
00158  shiftFactor                 = cms.double(1.),
00159  useDefaultInitialResolution = cms.bool(True),
00160  initialResolution           = cms.double(0.),
00161  initialResolutionByFraction = cms.bool(True),
00162  worsenResolution            = cms.double(1.),
00163  worsenResolutionByFactor    = cms.bool(True),
00164 )
00165 
00166 ## METs
00167 scaledMETs = cms.EDFilter("METEnergyScale",
00168  scaledObject                = cms.InputTag("selectedPatMETs"),
00169  fixMass                     = cms.bool(False),
00170  shiftFactor                 = cms.double(1.),
00171  useDefaultInitialResolution = cms.bool(True),
00172  initialResolution           = cms.double(0.),
00173  initialResolutionByFraction = cms.bool(True),
00174  worsenResolution            = cms.double(1.),
00175  worsenResolutionByFactor    = cms.bool(True),
00176 )
00177 
00178 ## Standard sequence for all Objects
00179 scaledObjects = cms.Sequence(
00180     scaledElectrons + 
00181     scaledMuons + 
00182     scaledJets + 
00183 #   scaledTaus +
00184     scaledMETs
00185 )