Variables | |
tuple | ALCARECODtCalibHLTFilter = copy.deepcopy(hltHighLevel) |
tuple | dt4DSegmentsNoWire = dt4DSegmentsCfiRef.dt4DSegments.clone() |
tuple | noscraping |
tuple | primaryVertexFilter |
tuple | seqALCARECODtCalib = cms.Sequence(primaryVertexFilter * noscraping * ALCARECODtCalibHLTFilter * DTCalibMuonSelection * dt4DSegmentsNoWire) |
tuple | seqALCARECODtCalibCosmics = cms.Sequence(DTCalibMuonSelection * dt4DSegmentsNoWire) |
tuple ALCARECODtCalib_cff::ALCARECODtCalibHLTFilter = copy.deepcopy(hltHighLevel) |
Definition at line 9 of file ALCARECODtCalib_cff.py.
tuple ALCARECODtCalib_cff::dt4DSegmentsNoWire = dt4DSegmentsCfiRef.dt4DSegments.clone() |
Definition at line 16 of file ALCARECODtCalib_cff.py.
00001 cms.EDFilter("FilterOutScraping", 00002 applyfilter = cms.untracked.bool(True), 00003 debugOn = cms.untracked.bool(False), 00004 numtrack = cms.untracked.uint32(10), 00005 thresh = cms.untracked.double(0.25) 00006 )
Definition at line 27 of file ALCARECODtCalib_cff.py.
00001 cms.EDFilter("VertexSelector", 00002 src = cms.InputTag("offlinePrimaryVertices"), 00003 cut = cms.string("!isFake && ndof > 4 && abs(z) <= 15 && position.Rho <= 2"), # tracksSize() > 3 for the older cut 00004 filter = cms.bool(True), # otherwise it won't filter the events, just produce an empty vertex collection. 00005 )
Definition at line 21 of file ALCARECODtCalib_cff.py.
tuple ALCARECODtCalib_cff::seqALCARECODtCalib = cms.Sequence(primaryVertexFilter * noscraping * ALCARECODtCalibHLTFilter * DTCalibMuonSelection * dt4DSegmentsNoWire) |
Definition at line 34 of file ALCARECODtCalib_cff.py.
tuple ALCARECODtCalib_cff::seqALCARECODtCalibCosmics = cms.Sequence(DTCalibMuonSelection * dt4DSegmentsNoWire) |
Definition at line 36 of file ALCARECODtCalib_cff.py.