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Functions | Variables
Scenarios_cff Namespace Reference

Functions

def TECRing7Shift (shift)
 

Variables

 Dets
 
 DetUnits
 
 distribution = cms.string('gaussian'),
 
 dXlocal = cms.double(0.00027),
 
 dYlocal = cms.double(0.00027),
 
 dZlocal = cms.double(0.00027)
 
 ExampleScenario
 
 LS1BPixRepair_P1PXBHalfBarrel2
 
 LS1BPixRepairAndTECRing7Minus133mmScenario
 
 LS1BPixRepairAndTECRing7Plus133mmScenario
 
 LS1BPixRepairScenario
 
 MisalignedP1PXB
 
 MisalignedP1PXEC
 
 MisalignedTEC
 
 MisalignedTIB
 
 MisalignedTID
 
 MisalignedTOB
 
 MisalignmentAPEScenarioBase
 
 MisalignmentScenario100Mu
 
 MisalignmentScenario10Mu
 
 MisalignmentScenario200Mu
 
 MisalignmentScenario300Mu
 
 MisalignmentScenario_10mu
 
 MisalignmentScenario_15mu
 
 MisalignmentScenario_20mu
 
 MisalignmentScenario_20muGlobalX
 
 MisalignmentScenario_20muGlobalXY
 
 MisalignmentScenario_20muGlobalXYZ
 
 MisalignmentScenario_20muGlobalY
 
 MisalignmentScenario_20muGlobalZ
 
 MisalignmentScenario_20muLocalX
 
 MisalignmentScenario_20muLocalXY
 
 MisalignmentScenario_20muLocalXYZ
 
 MisalignmentScenario_20muLocalY
 
 MisalignmentScenario_20muLocalZ
 
 MisalignmentScenario_5mu
 
 MisalignmentScenario_BPIX20muGlobalX
 
 MisalignmentScenario_BPIX20muGlobalY
 
 MisalignmentScenario_BPIX20muGlobalZ
 
 MisalignmentScenario_BPIX20muLocalX
 
 MisalignmentScenario_BPIX20muLocalY
 
 MisalignmentScenario_BPIX20muLocalZ
 
 MisalignmentScenario_NonMisalignedBPIX
 
 MisalignmentScenario_PhaseI_PseudoAsymptotic
 
 MisalignmentScenarioBPIX100Mu
 
 MisalignmentScenarioDifferentSubdetectors
 
 MisalignmentScenarioDifferentSubdetectorsLarge
 
 MisalignmentScenarioDifferentSubdetectorsLocal
 
 MisalignmentScenarioSettings
 
 Muon0inversePbScenario2008
 
 Muon100InversepbScenario
 
 Muon100inversePbScenario2008
 
 Muon10InversepbScenario
 
 Muon10inversePbScenario2008
 
 MuonLongTermScenario
 
 MuonMisalignmentScenarioSettings
 
 MuonNoMovementsScenario
 
 MuonShortTermScenario
 
 MuonSurveyOnlyScenario
 
 NoMovementsScenario
 
 P1PXBBarrels
 
 P1PXBHalfBarrel1
 
 P1PXBHalfBarrel2
 
 P1PXBHalfBarrels
 
 P1PXECEndcap1
 
 P1PXECEndcap2
 
 P1PXECEndcaps
 
 PixelTrackerDicedShiftsAndRotations
 
 PixelTrackerFixedShiftsAndRotations
 
 PixelTrackerOnlyZShift
 
 scale = cms.double(0.01),
 
 seed = cms.int32(1234567),
 
 setError = cms.bool(True)
 
 setRotations = cms.bool(True),
 
 setTranslations = cms.bool(True),
 
 shift_00002_05em04
 
 shift_0006_000027
 
 shift_0010_10em06
 
 shift_0050_10em06
 
 TECEndcaps
 
 TECRing7Minus133mmScenario
 
 TECRing7Plus133mmScenario
 
 TECRings1000pb_1D
 
 TECRings1000pb_2D
 
 TECRings100pb_1D
 
 TECRings100pb_2D
 
 TECRings10pb_1D
 
 TECRings10pb_2D
 
 TECRingsSurveyLASCosmics_1D
 
 TECRingsSurveyLASCosmics_2D
 
 TECRingsSurveyLASOnly_1D
 
 TECRingsSurveyLASOnly_2D
 
 TECRingsTrackerNoKnowledge_1D
 
 TECRingsTrackerNoKnowledge_2D
 
 TIBHalfBarrels
 
 TIDEndcaps
 
 TOBHalfBarrel1
 
 TOBHalfBarrels
 
 Tracker1000pbScenario
 
 Tracker100pbScenario
 
 Tracker10pbScenario
 
 TrackerCRAFTScenario
 
 TrackerCSA14_BarrelsGeneralSettings
 
 TrackerCSA14_OtherThanBarrels
 
 TrackerCSA14_P1PXBHalfBarrel1
 
 TrackerCSA14AndLS1BPixRepairScenario
 
 TrackerCSA14Scenario
 
 TrackerExampleScenario
 
 TrackerNoKnowledgeScenario
 
 TrackerSurveyLASCosmicsScenario
 
 TrackerSurveyLASOnlyScenario
 

Function Documentation

def Scenarios_cff.TECRing7Shift (   shift)

Definition at line 43 of file Scenarios_cff.py.

43 def TECRing7Shift(shift):
44  shift_Ring7_Units = cms.PSet( DetUnits = cms.PSet(dYlocal = cms.double(shift)))
45  scenario = cms.PSet(
46  MisalignmentScenarioSettings,
47  TECEndcaps = cms.PSet(
48  distribution = cms.string('fixed'),
49  TECDisk1_2_3 = cms.PSet(
50  TECRing7 = cms.PSet( shift_Ring7_Units )# TECRing7
51  ),
52  TECDisk4_5_6 = cms.PSet(
53  TECRing6 = cms.PSet( shift_Ring7_Units )# TECRing6
54  ),
55  TECDisk7_8 = cms.PSet(
56  TECRing5 = cms.PSet( shift_Ring7_Units )# TECRing5
57  ),
58  TECDisk9 = cms.PSet(
59  TECRing4 = cms.PSet( shift_Ring7_Units )# TECRing4
60  )
61  )#TECEndcaps
62  )#scenario
63  return scenario
64 
65 
def TECRing7Shift(shift)

Variable Documentation

Scenarios_cff.Dets
Initial value:
1 = cms.PSet(
2  dZlocal = cms.double(0.0022),
3  phiXlocal = cms.double(5e-05),
4  dYlocal = cms.double(0.0022),
5  phiZlocal = cms.double(5e-05),
6  dXlocal = cms.double(0.0022),
7  phiYlocal = cms.double(5e-05)
8  )

Definition at line 294 of file Scenarios_cff.py.

Referenced by SiStripFedCablingFakeESSource.make(), and SiStripHashedDetIdFakeESSource.make().

Scenarios_cff.DetUnits
Initial value:
1 = cms.PSet( dXlocal = cms.double(0.0001), dYlocal = cms.double(0.0001),
2  dZlocal = cms.double(0.0001), phiXlocal = cms.double(0.5e-04),
3  phiYlocal = cms.double(0.5e-04), phiZlocal = cms.double(0.5e-04))

Definition at line 169 of file Scenarios_cff.py.

Scenarios_cff.distribution = cms.string('gaussian'),

Definition at line 31 of file Scenarios_cff.py.

Scenarios_cff.dXlocal = cms.double(0.00027),

Definition at line 80 of file Scenarios_cff.py.

Scenarios_cff.dYlocal = cms.double(0.00027),

Definition at line 81 of file Scenarios_cff.py.

Scenarios_cff.dZlocal = cms.double(0.00027)

Definition at line 82 of file Scenarios_cff.py.

Scenarios_cff.ExampleScenario
Initial value:
1 = cms.PSet(
2  MuonMisalignmentScenarioSettings,
3  DTSectors = cms.PSet(
4  scale = cms.double(1.0),
5  dZ = cms.double(1.0),
6  dX = cms.double(0.0),
7  dY = cms.double(0.0),
8  distribution = cms.string('gaussian'),
9  phiZ = cms.double(0.001),
10  phiY = cms.double(0.0),
11  phiX = cms.double(0.0)
12  )
13  #Muon = cms.PSet(
14  # scale = cms.double(1.0),
15  # dZ = cms.double(0.1),
16  # dX = cms.double(0.1),
17  # dY = cms.double(0.2),
18  # distribution = cms.string('gaussian'),
19  # phiZ = cms.double(0.0),
20  # phiY = cms.double(0.0),
21  # phiX = cms.double(0.0)
22  #)
23 )

Definition at line 21 of file Scenarios_cff.py.

Scenarios_cff.LS1BPixRepair_P1PXBHalfBarrel2

Definition at line 85 of file Scenarios_cff.py.

Scenarios_cff.LS1BPixRepairAndTECRing7Minus133mmScenario

Definition at line 111 of file Scenarios_cff.py.

Scenarios_cff.LS1BPixRepairAndTECRing7Plus133mmScenario

Definition at line 106 of file Scenarios_cff.py.

Scenarios_cff.LS1BPixRepairScenario

Definition at line 101 of file Scenarios_cff.py.

Scenarios_cff.MisalignedP1PXB

Definition at line 3270 of file Scenarios_cff.py.

Scenarios_cff.MisalignedP1PXEC

Definition at line 3283 of file Scenarios_cff.py.

Scenarios_cff.MisalignedTEC

Definition at line 3335 of file Scenarios_cff.py.

Scenarios_cff.MisalignedTIB

Definition at line 3296 of file Scenarios_cff.py.

Scenarios_cff.MisalignedTID

Definition at line 3322 of file Scenarios_cff.py.

Scenarios_cff.MisalignedTOB

Definition at line 3309 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentAPEScenarioBase

Definition at line 3349 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario100Mu

Definition at line 3093 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario10Mu

Definition at line 3046 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario200Mu

Definition at line 3147 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario300Mu

Definition at line 3201 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_10mu

Definition at line 2227 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_15mu

Definition at line 2270 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20mu

Definition at line 2313 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muGlobalX

Definition at line 2356 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muGlobalXY

Definition at line 2601 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muGlobalXYZ

Definition at line 2694 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muGlobalY

Definition at line 2438 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muGlobalZ

Definition at line 2519 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muLocalX

Definition at line 2397 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muLocalXY

Definition at line 2647 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muLocalXYZ

Definition at line 2747 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muLocalY

Definition at line 2478 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_20muLocalZ

Definition at line 2560 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_5mu

Definition at line 2184 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muGlobalX

Definition at line 2800 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muGlobalY

Definition at line 2811 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muGlobalZ

Definition at line 2822 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muLocalX

Definition at line 2833 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muLocalY

Definition at line 2844 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_BPIX20muLocalZ

Definition at line 2855 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_NonMisalignedBPIX

Definition at line 2866 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenario_PhaseI_PseudoAsymptotic

Definition at line 3411 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenarioBPIX100Mu

Definition at line 3256 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenarioDifferentSubdetectors

Definition at line 2917 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenarioDifferentSubdetectorsLarge

Definition at line 2961 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenarioDifferentSubdetectorsLocal

Definition at line 3005 of file Scenarios_cff.py.

Scenarios_cff.MisalignmentScenarioSettings

Definition at line 27 of file Scenarios_cff.py.

Scenarios_cff.Muon0inversePbScenario2008

Definition at line 163 of file Scenarios_cff.py.

Scenarios_cff.Muon100InversepbScenario

Definition at line 102 of file Scenarios_cff.py.

Scenarios_cff.Muon100inversePbScenario2008

Definition at line 329 of file Scenarios_cff.py.

Scenarios_cff.Muon10InversepbScenario

Definition at line 52 of file Scenarios_cff.py.

Scenarios_cff.Muon10inversePbScenario2008

Definition at line 246 of file Scenarios_cff.py.

Scenarios_cff.MuonLongTermScenario

Definition at line 476 of file Scenarios_cff.py.

Scenarios_cff.MuonMisalignmentScenarioSettings
Initial value:
1 = cms.PSet(
2  setRotations = cms.bool(True),
3  setTranslations = cms.bool(True),
4  seed = cms.int32(1234567),
5  distribution = cms.string('gaussian'),
6  setError = cms.bool(True),
7 )

Definition at line 12 of file Scenarios_cff.py.

Scenarios_cff.MuonNoMovementsScenario
Initial value:
1 = cms.PSet(
2  MuonMisalignmentScenarioSettings
3 )

Definition at line 46 of file Scenarios_cff.py.

Scenarios_cff.MuonShortTermScenario

Definition at line 440 of file Scenarios_cff.py.

Scenarios_cff.MuonSurveyOnlyScenario

Definition at line 404 of file Scenarios_cff.py.

Scenarios_cff.NoMovementsScenario

Definition at line 36 of file Scenarios_cff.py.

Scenarios_cff.P1PXBBarrels
Initial value:
1 = cms.PSet(
2  TrackerCSA14_BarrelsGeneralSettings,
3  TrackerCSA14_P1PXBHalfBarrel1
4  )

Definition at line 238 of file Scenarios_cff.py.

Scenarios_cff.P1PXBHalfBarrel1
Initial value:
1 = cms.PSet(
2  P1PXBLayer3 = cms.PSet(
3  P1PXBLadder1 = cms.PSet(
4  DetUnit1 = cms.PSet( shift_0050_10em06 ),
5  DetUnit2 = cms.PSet( shift_0050_10em06 ),
6  DetUnit3 = cms.PSet( shift_0050_10em06 ),
7  DetUnit4 = cms.PSet( shift_0050_10em06 ),
8  DetUnit5 = cms.PSet( shift_0050_10em06 ),
9  DetUnit6 = cms.PSet( shift_0050_10em06 ),
10  DetUnit7 = cms.PSet( shift_0050_10em06 ),
11  DetUnit8 = cms.PSet( shift_0050_10em06 ),
12  ), # P1PXBLadder1
13  P1PXBLadder3 = cms.PSet(
14  DetUnit1 = cms.PSet( shift_0050_10em06 ),
15  DetUnit2 = cms.PSet( shift_0050_10em06 ),
16  DetUnit3 = cms.PSet( shift_0050_10em06 ),
17  DetUnit4 = cms.PSet( shift_0050_10em06 ),
18  ), # P1PXBLadder3
19  P1PXBLadder9 = cms.PSet(
20  DetUnit6 = cms.PSet( shift_0050_10em06 ),
21  DetUnit7 = cms.PSet( shift_0050_10em06 ),
22  DetUnit8 = cms.PSet( shift_0050_10em06 ),
23  ), # P1PXBLadder9
24  P1PXBLadder21 = cms.PSet(
25  DetUnit1 = cms.PSet( shift_0050_10em06 ),
26  DetUnit2 = cms.PSet( shift_0050_10em06 ),
27  DetUnit3 = cms.PSet( shift_0050_10em06 )
28  )# P1PXBLadder21
29  )# P1PXBLayer3
30  )

Definition at line 132 of file Scenarios_cff.py.

Scenarios_cff.P1PXBHalfBarrel2
Initial value:
1 = cms.PSet(
2  P1PXBLayers=cms.PSet(
3  dX= cms.double(0.01),
4  dY= cms.double(0.01),
5  dZ= cms.double(0.02),
6  P1PXBLadders=cms.PSet(
7  DetUnit1=cms.PSet( shift_0006_000027 ),#DetUnit1
8  DetUnit2=cms.PSet( shift_0006_000027 ),#DetUnit2
9  DetUnit3=cms.PSet( shift_0006_000027 ),#DetUnit3
10  DetUnit4=cms.PSet( shift_0006_000027 ) #DetUnit4
11  )#P1PXBLadders
12  )#P1PXBLayers
13  )

Definition at line 86 of file Scenarios_cff.py.

Scenarios_cff.P1PXBHalfBarrels
Initial value:
1 = cms.PSet( distribution = cms.string('flat'), dX = cms.double(0.0005), dY = cms.double(0.0010),
2  dZ = cms.double(0.0050), phiX = cms.double(30e-6),
3  phiY = cms.double(30e-06), phiZ = cms.double(30e-06)),

Definition at line 166 of file Scenarios_cff.py.

Scenarios_cff.P1PXECEndcap1
Initial value:
1 = cms.PSet(
2  distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
3  dX = cms.double(0.01), dY = cms.double(0.01), dZ = cms.double(0.01),
4  phiX = cms.double(10e-06), phiY = cms.double(10e-06), phiZ = cms.double(10e-06)
5  ),

Definition at line 187 of file Scenarios_cff.py.

Scenarios_cff.P1PXECEndcap2
Initial value:
1 = cms.PSet(
2  distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
3  P1PXECPanels = cms.PSet ( shift_0010_10em06 ), # P1PXECPanels
4  P1PXECHalfCylinder1 = cms.PSet(
5  P1PXECHalfDisk1 = cms.PSet(
6  P1PXECBlade1 = cms.PSet(
7  P1PXECPanel1 = cms.PSet(
8  DetUnits = cms.PSet( shift_0010_10em06 )#DetUnits
9  )# P1PXECPanel1
10  ), #P1PXECBlade1
11  P1PXECBlade8 = cms.PSet(
12  P1PXECPanel2 = cms.PSet(
13  DetUnits = cms.PSet( shift_0010_10em06 ) #DetUnits
14  )# P1PXECPanel2
15  )#P1PXECBlade8
16  )#P1PXECHalfDisk1
17  ),#P1PXECHalfCylinder1
18  P1PXECHalfCylinder2 = cms.PSet(
19  P1PXECHalfDisk1 = cms.PSet(
20  P1PXECBlade9 = cms.PSet(
21  P1PXECPanel2 = cms.PSet(
22  DetUnits = cms.PSet( shift_0010_10em06 ) #DetUnits
23  )# P1PXECPanel2
24  )#P1PXECBlade9
25  )#P1PXECHalfDisk1
26  )#P1PXECHalfCylinder2
27  ),

Definition at line 192 of file Scenarios_cff.py.

Scenarios_cff.P1PXECEndcaps

Definition at line 477 of file Scenarios_cff.py.

Scenarios_cff.PixelTrackerDicedShiftsAndRotations

Definition at line 2167 of file Scenarios_cff.py.

Scenarios_cff.PixelTrackerFixedShiftsAndRotations

Definition at line 2141 of file Scenarios_cff.py.

Scenarios_cff.PixelTrackerOnlyZShift

Definition at line 2129 of file Scenarios_cff.py.

Scenarios_cff.scale = cms.double(0.01),

Definition at line 2186 of file Scenarios_cff.py.

Referenced by evf.__attribute__(), AlignableModifier.addDeformation(), FWPFCandidateWithHitsProxyBuilder.addHitsForCandidate(), algorithm(), myFastSimVal.analyze(), CMSDAS11DijetAnalyzer.analyze(), JetCorExample< Jet >.analyze(), corrResps.analyze(), corrGains.analyze(), JetCorrectorOnTheFly< Jet >.analyze(), JetTester.analyze(), TauJetCorrectorExample.analyze(), JetMETHLTOfflineSource.analyze(), JetAnalyzer.analyze(), OverlapValidation.analyze(), METAnalyzer.analyze(), ExoticaDQM.analyze(), ExoticaDQM.analyzeDiJets(), DTnoiseDBValidation.beginRun(), FWCaloRecHitDigitSetProxyBuilder.build(), FWL1EmParticleProxyBuilder.build(), FWL1EtMissParticleProxyBuilder.build(), FWL1JetParticleProxyBuilder.build(), FWL1MuonParticleProxyBuilder.build(), MTDGeomBuilderFromGeometricTimingDet.buildPlaneWithMaterial(), TrackerGeomBuilderFromGeometricDet.buildPlaneWithMaterial(), FWPFRhoPhiRecHit.buildRecHit(), TrackerGeomBuilderFromGeometricDet.buildSilicon(), L1TDTTFClient.buildSummaries(), FWPFLegoRecHit.buildTower(), GsfElectronAlgo::ElectronData.calculateMomentum(), GsfElectronAlgo.calculateShowerShape(), PhotonEnergyCalibratorRun2.calibrate(), ElectronEnergyCalibratorRun2.calibrate(), ElectronEnergyCalibrator.calibrate(), npstat::ArrayND< Numeric, StackLen, StackDim >.cdfArray(), RPCRecHitStandardAlgo.compute(), MuonME0DigisHarvestor.ComputeBKG(), convert_boolean(), FFTJetCorrector< Jet, Adjustable >.correct(), ElectronMomentumCorrector.correct(), ChainedJetCorrector.correction(), JetPlusTrackCorrector.correction(), heppy::Davismt2.Davismt2(), HcalTimeSlewSim.delay(), fftjetcms.densePeakTreeFromStorable(), npstat::ArrayND< Numeric, StackLen, StackDim >.derivative(), TwoBodyDecayTrajectoryState.derivatives(), MultiGaussianState< N >.dimension(), SurveyPxbDicer.doDice(), IsoValueMapProducer< T >.doMiniIso(), IsoValueMapProducer< T >.doPFIsoEle(), IsoValueMapProducer< T >.doPFIsoPho(), Pythia8::PowhegHooksBB4L.doVetoFSR(), Pythia8::PowhegHooksBB4L.doVetoFSREmission(), Pythia8::PowhegHooksBB4L.doVetoPartonLevel(), TrackingMaterialPlotter.draw(), drawMap(), Phase2TrackerDigitizerAlgorithm.DriftDirection(), PixelCPEBase.driftDirection(), SiPixelDigitizerAlgorithm.DriftDirection(), HLTrigReport.dumpReport(), CalorimetryManager.EMShowerSimulation(), MuonGeometryArrange.endHist(), fireworks.energyTower3DCorners(), fireworks.etScaledBox3DCorners(), DDHGCalCell.execute(), DDHGCalWafer8.execute(), CastorQIEShape.expand(), HcalQIEShape.expand(), FFTGenericScaleCalculator.FFTGenericScaleCalculator(), FWECALDetailViewBuilder.fillData(), Rivet::HiggsTemplateCrossSections.finalize(), Pythia8::PowhegHooksBB4L.findresscale(), FFTJetProducer.genJetPreclusters(), heppy::Davismt2.get_mt2(), EcalBarrelGeometry.getCells(), metsig::METSignificance.getCovariance(), CastorSD.getEnergyDeposit(), FSQ::HandlerTemplate< TInputCandidateType, TOutputCandidateType, filter >.getFilteredCands(), CastorSD.getFromLibrary(), EgammaHcalIsolation.getHcalSum(), L1GctGlobalEnergyAlgos.getHtMissPhiColl(), l1t::GlobalScales.getHTMScales(), getintegratedlumiuptorun(), AngleConverter.getProcessorPhi(), KKCorrectionFactors.getScale(), EcalLaserAnalyzer2.getShapes(), FactorizedJetCorrectorCalculator.getSubCorrections(), HcalDDDRecConstants.getThickActive(), HiEvtPlaneFlatten.getW(), reco::MustacheKernel.inDynamicDPhiWindow(), SimpleDiskBounds.inside(), GeneralNSurfaceDelimitedBounds.inside(), RectangularPlaneBounds.inside(), Bounds.inside(), FWCaloRecHitDigitSetProxyBuilder.invertBox(), FWPFLegoRecHit.isTallest(), GenericMinL3Algorithm.iterate(), MinL3Algorithm.iterate(), HouseholderDecomposition.iterate(), MinL3AlgoUniv< IDdet >.iterate(), FWTGLViewer.MakeFboHeight(), FWTGLViewer.MakeFboWidth(), L1TDTTFClient.makeSummary(), FFTGenericScaleCalculator.mapFFTJet(), MergeRootfile(), HcalConstantsXMLWriter.newCellLine(), L1TDTTFClient.normalize(), PiecewiseScalingPolynomial.operator()(), ScalingExponential.operator()(), fftjetcms::PeakEtaMagSsqDependent.operator()(), parse_jet_member_function(), parse_peak_member_function(), l1t::TriggerMenuParser.parsePhi_Trig_LUTS(), l1t::TriggerMenuParser.parseScales(), DTBlockedROChannelsTest.performClientDiagnostic(), PlotOccupancyMapGeneric(), PlotOnTrackOccupancyGeneric(), PlotTrackerXsect(), FullModelHadronicProcess.PostStepDoIt(), heppy::Davismt2.print(), EgammaHLTPixelMatchElectronAlgo.process(), GsfTrajectorySmootherESProducer.produce(), DeepMETProducer.produce(), PseudoTopProducer.produce(), JetTracksAssociationToTrackRefs.produce(), MVAJetPuIdProducer.produce(), reco::CorrectedJetProducer< T >.produce(), magneticfield::AutoParametrizedMagneticFieldProducer.produce(), cms::JetCorrectionProducer< T >.produce(), PileupJetIdProducer.produce(), ListGroups.produceAndSaveSummaryPlot(), TrackInfoProducerAlgorithm.project(), FastTrackerRecHitMatcher.project(), SiStripRecHitMatcher.project(), TestHits.projectHit(), TestSmoothHits.projectHit(), TestTrackHits.projectHit(), SiStripRecHitsValid.projectHit(), GlobalRecHitsAnalyzer.projectHit(), GlobalRecHitsProducer.projectHit(), SiStripTrackingRecHitsValid.projectHit(), JetPlusTrackCorrector.rebuildJta(), SingleGaussianState< N >.rescaleWeight(), runlistfromlumifile(), scalebylumi(), WPlusJetsEventSelector.scaleJets(), FWCaloRecHitDigitSetProxyBuilder.scaleProduct(), FWPFCandidateWithHitsProxyBuilder.scaleProduct(), PowhegResHook.scaleResonance(), HGCalParameters.scaleTrForm(), PrimaryVertexSorting.score(), CandCommonVertexFitterBase.set(), PFCandCommonVertexFitterBase.set(), CandKinematicVertexFitter.set(), heppy::Davismt2.set_mn(), heppy::Davismt2.set_momenta(), PFElectronAlgo.SetCandidates(), CaloTowersCreationAlgo.setEBEScale(), CaloTowersCreationAlgo.setEcalChStatusFromDB(), CaloTowersCreationAlgo.setEEEScale(), L1MuTriggerScales.setGMTEtaScale(), CaloTowersCreationAlgo.setHBEScale(), CaloTowersCreationAlgo.setHEDEScale(), CaloTowersCreationAlgo.setHESEScale(), CaloTowersCreationAlgo.setHF1EScale(), CaloTowersCreationAlgo.setHF2EScale(), CaloTowersCreationAlgo.setHOEScale(), SETFilter.setLastButOneUpdatedTSOS(), PhotonEnergyCalibrator.setMinEt(), ElectronEnergyCalibrator.setMinEt(), L1GctJetEtCalibrationLut.setOutputEtScale(), L1MuTriggerScales.setPhiScale(), FWMET3DProxyBuilder::Arrow.setScale(), FWBoxRecHit.setupEveBox(), FWPFLegoRecHit.setupEveBox(), LinearFitErrorsIn2Coord.slope(), npstat::ArrayND< Num1, Len1, Dim1 >.strides(), LinkByRecHit.testECALAndPSByRecHit(), DiskSectorBounds.thickness(), SimpleCylinderBounds.thickness(), MTDShapeBase.timeAtThr(), MTDShapeBase.timeToRise(), EmbeddingLHEProducer.transform_mumu_to_tautau(), FWPFRhoPhiRecHit.updateScale(), FWBoxRecHit.updateScale(), FWPFLegoRecHit.updateScale(), GaussianSumUtilities1D.variance(), FWCaloRecHitDigitSetProxyBuilder.viewContextBoxScale(), TrapezoidalPlaneBounds.widthAtHalfLength(), CSCLayerGeometry.yLimitsOfStripPlane(), EGEtScaleSysModifier.~EGEtScaleSysModifier(), FWBoxRecHit.~FWBoxRecHit(), FWEcalRecHitProxyBuilder.~FWEcalRecHitProxyBuilder(), and tauImpactParameter::MultiProngTauSolver.~MultiProngTauSolver().

Scenarios_cff.seed = cms.int32(1234567),

Definition at line 30 of file Scenarios_cff.py.

Scenarios_cff.setError = cms.bool(True)

Definition at line 32 of file Scenarios_cff.py.

Scenarios_cff.setRotations = cms.bool(True),

Definition at line 28 of file Scenarios_cff.py.

Scenarios_cff.setTranslations = cms.bool(True),

Definition at line 29 of file Scenarios_cff.py.

Scenarios_cff.shift_00002_05em04

Definition at line 180 of file Scenarios_cff.py.

Scenarios_cff.shift_0006_000027

Definition at line 79 of file Scenarios_cff.py.

Scenarios_cff.shift_0010_10em06

Definition at line 174 of file Scenarios_cff.py.

Scenarios_cff.shift_0050_10em06

Definition at line 125 of file Scenarios_cff.py.

Scenarios_cff.TECEndcaps
Initial value:
1 = cms.PSet(distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
2  DetUnits = cms.PSet( shift_00002_05em04 )#DetUnits
3  )

Definition at line 230 of file Scenarios_cff.py.

Scenarios_cff.TECRing7Minus133mmScenario

Definition at line 67 of file Scenarios_cff.py.

Scenarios_cff.TECRing7Plus133mmScenario

Definition at line 66 of file Scenarios_cff.py.

Scenarios_cff.TECRings1000pb_1D

Definition at line 837 of file Scenarios_cff.py.

Scenarios_cff.TECRings1000pb_2D

Definition at line 847 of file Scenarios_cff.py.

Scenarios_cff.TECRings100pb_1D

Definition at line 559 of file Scenarios_cff.py.

Scenarios_cff.TECRings100pb_2D

Definition at line 569 of file Scenarios_cff.py.

Scenarios_cff.TECRings10pb_1D

Definition at line 283 of file Scenarios_cff.py.

Scenarios_cff.TECRings10pb_2D

Definition at line 293 of file Scenarios_cff.py.

Scenarios_cff.TECRingsSurveyLASCosmics_1D

Definition at line 1429 of file Scenarios_cff.py.

Scenarios_cff.TECRingsSurveyLASCosmics_2D

Definition at line 1439 of file Scenarios_cff.py.

Scenarios_cff.TECRingsSurveyLASOnly_1D

Definition at line 1114 of file Scenarios_cff.py.

Scenarios_cff.TECRingsSurveyLASOnly_2D

Definition at line 1124 of file Scenarios_cff.py.

Scenarios_cff.TECRingsTrackerNoKnowledge_1D

Definition at line 1733 of file Scenarios_cff.py.

Scenarios_cff.TECRingsTrackerNoKnowledge_2D

Definition at line 1743 of file Scenarios_cff.py.

Scenarios_cff.TIBHalfBarrels
Initial value:
1 = cms.PSet(distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
2  DetUnits = cms.PSet( shift_00002_05em04 )#DetUnits
3  ),

Definition at line 219 of file Scenarios_cff.py.

Scenarios_cff.TIDEndcaps
Initial value:
1 = cms.PSet(distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
2  DetUnits = cms.PSet( shift_00002_05em04 )#DetUnits
3  ),

Definition at line 227 of file Scenarios_cff.py.

Scenarios_cff.TOBHalfBarrel1
Initial value:
1 = cms.PSet(
2  TOBLayers = cms.PSet(
3  dX = cms.double(0.1)
4  ),
5  TOBLayer1 = cms.PSet(
6  dX = cms.double(0.2)
7  )
8  ),

Definition at line 263 of file Scenarios_cff.py.

Scenarios_cff.TOBHalfBarrels
Initial value:
1 = cms.PSet(distribution = cms.string('gaussian'), scale = cms.double(1.0), scaleError = cms.double(1.0),
2  DetUnits = cms.PSet( dXlocal = cms.double(0.0005), dYlocal = cms.double(0.0005),
3  dZlocal = cms.double(0.0005), phiXlocal = cms.double(0.5e-04),
4  phiYlocal = cms.double(0.5e-04), phiZlocal = cms.double(0.5e-04),)#DetUnits
5  ),

Definition at line 222 of file Scenarios_cff.py.

Scenarios_cff.Tracker1000pbScenario

Definition at line 858 of file Scenarios_cff.py.

Scenarios_cff.Tracker100pbScenario

Definition at line 580 of file Scenarios_cff.py.

Scenarios_cff.Tracker10pbScenario

Definition at line 304 of file Scenarios_cff.py.

Scenarios_cff.TrackerCRAFTScenario

Definition at line 2121 of file Scenarios_cff.py.

Scenarios_cff.TrackerCSA14_BarrelsGeneralSettings

Definition at line 164 of file Scenarios_cff.py.

Scenarios_cff.TrackerCSA14_OtherThanBarrels

Definition at line 186 of file Scenarios_cff.py.

Scenarios_cff.TrackerCSA14_P1PXBHalfBarrel1

Definition at line 131 of file Scenarios_cff.py.

Scenarios_cff.TrackerCSA14AndLS1BPixRepairScenario

Definition at line 247 of file Scenarios_cff.py.

Scenarios_cff.TrackerCSA14Scenario

Definition at line 235 of file Scenarios_cff.py.

Scenarios_cff.TrackerExampleScenario

Definition at line 261 of file Scenarios_cff.py.

Scenarios_cff.TrackerNoKnowledgeScenario

Definition at line 1754 of file Scenarios_cff.py.

Scenarios_cff.TrackerSurveyLASCosmicsScenario

Definition at line 1450 of file Scenarios_cff.py.

Scenarios_cff.TrackerSurveyLASOnlyScenario

Definition at line 1135 of file Scenarios_cff.py.