process.FEVTDEBUGHLToutput_step = cms.EndPath(process.FEVTDEBUGHLToutput)
if doEmulatedTracks:
process.load(
"L1Trigger.TrackFindingTracklet.L1TrackletEmulationTracks_cff")
process.TTTracksEmulation = cms.Path(process.L1TrackletEmulationTracks)
# ---------------------------------------------------------------------------
# here we define our custom chain for HGC TPs
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
chain = HGCalTriggerChains()
chain.register_vfe("VFEfp7", vfe.create_compression)
chain.register_concentrator("tcTh", concentrator.create_threshold)
# chain.register_concentrator("sTC", concentrator.create_supertriggercell)
# chain.register_backend1("dRNNC2d", clustering2d.create_constrainedtopological)
chain.register_backend1("dummyC2d", clustering2d.create_dummy)
chain.register_backend2("histoMaxC3dVR",
clustering3d.create_histoMax_variableDr)
# chain.register_backend2("histoMaxC3dVRPhiBins", lambda p, i: clustering3d.create_histoMax_variableDr(p, i, nBins_Phi=108))
# chain.register_backend2("dRC3d", clustering3d.create_distance)
# chain.register_chain('VFEfp7', 'tcTh', 'dummyC2d', 'histoMaxC3d')
chain.register_chain('VFEfp7', 'tcTh', 'dummyC2d', 'histoMaxC3dVR')
# chain.register_chain('VFEfp7', 'tcTh', 'dummyC2d', 'histoMaxC3dVRPhiBins')
# chain.register_chain('VFEfp7', 'sTC', 'dummyC2d', 'histoMaxC3dVR')
# chain.register_chain('VFEfp7', 'tcTh', 'dRNNC2d', 'dRC3d')
# chain.register_chain('Floatingpoint7', 'Threshold', 'Dummy', 'Histothreshold')
# Other statements
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
chains.register_concentrator("Threshold", concentrator.create_threshold)
## BE1
chains.register_backend1("Ref2d", clustering2d.create_constrainedtopological)
chains.register_backend1("Dummy", clustering2d.create_dummy)
## BE2
chains.register_backend2("Ref3d", clustering3d.create_distance)
chains.register_backend2("Histomax", clustering3d.create_histoMax)
chains.register_backend2(
process.load('SimCalorimetry.HcalTrigPrimProducers.hcaltpdigi_cff')
process.load('CalibCalorimetry.CaloTPG.CaloTPGTranscoder_cfi')
# Path and EndPath definitions
process.L1simulation_step = cms.Path(process.SimL1Emulator)
process.endjob_step = cms.EndPath(process.endOfProcess)
# process.FEVTDEBUGHLToutput_step = cms.EndPath(process.FEVTDEBUGHLToutput)
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
chain = HGCalTriggerChains()
chain.register_vfe("VFEfp7", vfe.create_compression)
chain.register_concentrator("tcTh", concentrator.create_threshold)
chain.register_concentrator("sTC", concentrator.create_supertriggercell)
chain.register_backend1("dRNNC2d", clustering2d.create_constrainedtopological)
chain.register_backend1("dummyC2d", clustering2d.create_dummy)
chain.register_backend2("histoMaxC3dVR",
clustering3d.create_histoMax_variableDr)
chain.register_backend2(
"histoMaxC3dVRPhiBins",
lambda p, i: clustering3d.create_histoMax_variableDr(p, i, nBins_Phi=108))
chain.register_backend2("dRC3d", clustering3d.create_distance)
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
# Change seed position to energy weigted barycenter
process.histoMax_C3d_params.seed_position = cms.string('TCWeighted')
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
chains.register_concentrator(
"Supertriggercell4444fixed",
lambda p, i: concentrator.create_supertriggercell(
p, i, stcSize=cms.vuint32(4, 8, 8, 8), fixedDataSizePerHGCROC=True))
chains.register_concentrator(
"Equalshare", lambda p, i: concentrator.create_supertriggercell(
p,
i,
# Other statements
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8", lambda p : vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Supertriggercell", concentrator.create_supertriggercell)
chains.register_concentrator("Threshold", concentrator.create_threshold)
## BE1
chains.register_backend1("Ref2d", clustering2d.create_constrainedtopological)
chains.register_backend1("Dummy", clustering2d.create_dummy)
## BE2
chains.register_backend2("Ref3d", clustering3d.create_distance)
chains.register_backend2("Histomax", clustering3d.create_histoMax)
chains.register_backend2("Histomaxvardrth0", lambda p,i : clustering3d.create_histoMax_variableDr(p,i,seed_threshold=0.))
chains.register_backend2("Histomaxvardrth10", lambda p,i : clustering3d.create_histoMax_variableDr(p,i,seed_threshold=10.))
chains.register_backend2("Histomaxvardrth20", lambda p,i : clustering3d.create_histoMax_variableDr(p,i,seed_threshold=20.))
'')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.truth_prod as truth_prod
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint", vfe.create_vfe)
## TRUTH PRODUCER
chains.register_truth_prod("TruthProd", truth_prod.create_truth_prod)
## BE1
chains.register_backend1("TruthDummy", clustering2d.create_truth_dummy)
## BE2
chains.register_backend2("Histomax", clustering3d.create_histoMax)
# Register selector
chains.register_selector("Genmatch", selectors.create_genmatch)
# Register ntuples
ntuple_list = ['event', 'gen', 'multiclusters']
chains.register_ntuple("Genclustersntuple",
lambda p, i: ntuple.create_ntuple(p, i, ntuple_list))
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
# Change seed position to energy weigted barycenter
process.histoMax_C3d_params.seed_position = cms.string('TCWeighted')
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p : vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Threshold",
concentrator.create_threshold)
chains.register_concentrator('Threshold0',
lambda p,i :concentrator.create_threshold(p,i,
threshold_silicon=0.,threshold_scintillator=0.))
chains.register_concentrator('Threshold1',
lambda p,i :concentrator.create_threshold(p,i,
threshold_silicon=1.,threshold_scintillator=1.))
chains.register_concentrator("Bestchoice",
concentrator.create_bestchoice)
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
process.ntuple_multiclusters.FillLayerInfo = cms.bool(True)
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
chains.register_vfe("Floatingpoint7",
lambda p: vfe.create_compression(p, 4, 3, True))
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
chains.register_concentrator("Threshold", concentrator.create_threshold)
chains.register_concentrator("Bestchoice", concentrator.create_bestchoice)
chains.register_concentrator(
"Supertriggercell4444Fixed",
lambda p, i: concentrator.create_supertriggercell(
p, i, stcSize=cms.vuint32(4, 8, 8, 8), fixedDataSizePerHGCROC=True))
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic_T15',
'')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint", vfe.CreateVfe())
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.CreateSuperTriggerCell())
chains.register_concentrator("Threshold", concentrator.CreateThreshold())
chains.register_concentrator("Bestchoice", concentrator.CreateBestChoice())
chains.register_concentrator("AutoEncoder", concentrator.CreateAutoencoder())
## BE1
chains.register_backend1("Dummy", clustering2d.CreateDummy())
## BE2
chains.register_backend2("Histomax", clustering3d.CreateHistoMax())
# Register selector
chains.register_selector("Genmatch", selectors.CreateGenMatch())
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.truth_prod as truth_prod
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
## TRUTH PRODUCER
chains.register_truth_prod("TruthProd", truth_prod.create_truth_prod)
## BE1
chains.register_backend1("TruthDummy", clustering2d.create_truth_dummy)
## BE2
chains.register_backend2("Histomax", clustering3d.create_histoMax)
chains.register_backend2(
"Histomaxvardrth0", lambda p, i: clustering3d.create_histoMax_variableDr(
p, i, seed_threshold=0.))
chains.register_backend2(
"Histomaxvardrth10", lambda p, i: clustering3d.create_histoMax_variableDr(
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint", vfe.create_vfe)
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
chains.register_concentrator("Threshold", concentrator.create_threshold)
chains.register_concentrator("Bestchoice", concentrator.create_bestchoice)
## BE1
chains.register_backend1("Dummy", clustering2d.create_dummy)
## BE2
chains.register_backend2("Histomax", clustering3d.create_histoMax)
# Register selector
chains.register_selector("Genmatch", selectors.create_genmatch)
# Register ntuples
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.HGC3DClusterGenMatchSelector_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.selectors as selectors
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
chains.register_concentrator("Threshold", concentrator.create_threshold)
chains.register_concentrator("Bestchoice", concentrator.create_bestchoice)
## BE1
chains.register_backend1("Dummy", clustering2d.create_dummy)
## BE2
chains.register_backend2("Histomax", clustering3d.create_histoMax)
chains.register_backend2(
"Histomaxvardrth0", lambda p, i: clustering3d.create_histoMax_variableDr(
# Other statements
from Configuration.AlCa.GlobalTag import GlobalTag
process.GlobalTag = GlobalTag(process.GlobalTag, 'auto:phase2_realistic', '')
# load HGCAL TPG simulation
process.load('L1Trigger.L1THGCal.hgcalTriggerPrimitives_cff')
process.load('L1Trigger.L1THGCalUtilities.hgcalTriggerNtuples_cff')
from L1Trigger.L1THGCalUtilities.hgcalTriggerChains import HGCalTriggerChains
import L1Trigger.L1THGCalUtilities.vfe as vfe
import L1Trigger.L1THGCalUtilities.concentrator as concentrator
import L1Trigger.L1THGCalUtilities.clustering2d as clustering2d
import L1Trigger.L1THGCalUtilities.clustering3d as clustering3d
import L1Trigger.L1THGCalUtilities.customNtuples as ntuple
chains = HGCalTriggerChains()
# Register algorithms
## VFE
chains.register_vfe("Floatingpoint8",
lambda p: vfe.create_compression(p, 4, 4, True))
## ECON
chains.register_concentrator("Threshold", concentrator.create_threshold)
chains.register_concentrator("Supertriggercell",
concentrator.create_supertriggercell)
## BE1
chains.register_backend1("Dummy", clustering2d.create_dummy)
## BE2
chains.register_backend2(
"Histomaxvardr",
lambda p, i: clustering3d.create_histoMax_variableDr(p, i))
# Register ntuples
