def __init__(self, name="TrigTauRecMerged_TauCaloOnly"): super(TrigTauRecMerged_TauCaloOnly, self).__init__(name) self.MonTool = tauMonitoringCaloOnly() self._mytools = [] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] taualgs.setPrefix("TrigTauCaloOnly_") # Only include tools needed for calo pre-selection # Set seedcalo energy scale (Full RoI) tools.append(taualgs.getJetSeedBuilder()) # Set LC energy scale (0.2 cone) and intermediate axis (corrected for vertex: useless at trigger) tools.append(taualgs.getTauAxis()) # Calibrate to TES tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy', caloOnly=True)) # Calculate cell-based quantities: strip variables, EM and Had energies/radii, centFrac, isolFrac and ring energies tools.append(taualgs.getCellVariables(cellConeSize=0.2)) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' self.Tools = tools ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_Tau"): super(TrigTauRecMerged_Tau, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] #what should run in trigger??? #same as tauRec (but without Pi0 cluster finder) tools.append(taualgs.getJetSeedBuilder()) tools.append(taualgs.getTauVertexFinder( doUseTJVA=False)) #don't use TJVA by default tools.append(taualgs.getTauAxis()) tools.append(taualgs.getTauTrackFinder()) tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy')) tools.append(taualgs.getCellVariables(cellConeSize=0.4)) #tools.append(taualgs.getElectronVetoVars()) #needed? #tools.append(taualgs.getEnergyCalibrationEM()) ## tools.append(taualgs.getTauEflowTrackMatchCells()) ## tools.append(taualgs.getTauEflowAddCaloInfo()) ## tools.append(taualgs.getTauEflowVariables()) tools.append(taualgs.getTauVertexVariables()) tools.append(taualgs.getTauCommonCalcVars()) tools.append(taualgs.getTauSubstructure()) #tools.append(taualgs.getEnergyCalibrationLC(correctEnergy=False, correctAxis=True, postfix='_onlyAxis')) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_TauCaloOnlyMVA"): super(TrigTauRecMerged_TauCaloOnlyMVA, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] taualgs.setPrefix("TrigTauCaloOnlyMVA_") # Collection name - not stored self.OutputCollection = "TrigTauRecCaloOnly" # Only include tools needed for calo pre-selection # Set seedcalo energy scale (Full RoI) tools.append(taualgs.getJetSeedBuilder()) # Set LC energy scale (0.2 cone) and intermediate axis (corrected for vertex: useless at trigger) tools.append(taualgs.getTauAxis()) # Calibrate to TES tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy', caloOnly=True)) # Calculate cell-based quantities: strip variables, EM and Had energies/radii, centFrac, isolFrac and ring energies tools.append(taualgs.getCellVariables(cellConeSize=0.2)) # Compute MVA TES (ATR-17649), stores MVA TES as default tau pt() tools.append(taualgs.getMvaTESVariableDecorator()) tools.append(taualgs.getMvaTESEvaluator()) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_Tau2012"): super(TrigTauRecMerged_Tau2012, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] # Don't try to retrieve for now, should be handled globally #if not hasattr(ToolSvc, "LumiBlockMuTool"): # from LumiBlockComps.LumiBlockCompsConf import LumiBlockMuTool # ToolSvc += CfgMgr.LumiBlockMuTool("LumiBlockMuTool") import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] taualgs.setPrefix("TrigTau2012_") #what should run in trigger??? #same as tauRec (but without Pi0 cluster finder) tools.append(taualgs.getJetSeedBuilder()) tools.append(taualgs.getTauVertexFinder( doUseTJVA=False)) #don't use TJVA by default tools.append(taualgs.getTauAxis()) tools.append(taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=2)) tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy')) tools.append( taualgs.getCellVariables(cellConeSize=0.2)) #cellConeSize 0.2!! #tools.append(taualgs.getElectronVetoVars()) #needed? tools.append(taualgs.getTauVertexVariables()) tools.append(taualgs.getTauCommonCalcVars()) tools.append(taualgs.getTauSubstructure()) tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=False, correctAxis=True, postfix='_onlyAxis')) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools #necessary to write out deltaZ0 between tracks and lead trk #self.theTauPVTool = taualgs.getTauPVTrackTool() #self.useTauPVTool = True; ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_TauPrecisionMVA", doMVATES=False, doTrackBDT=False, doRNN=False): super(TrigTauRecMerged_TauPrecisionMVA, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] # using same prefix as in TauPrecision sequence should be safe if tools with different configurations have different names # e.g. TauTrackFinder in 2016 using dz0=2mm instead of 1mm in 2017 taualgs.setPrefix("TrigTau_") # Collection name self.OutputCollection = "TrigTauRecMerged" # Include full set of tools # Set seedcalo energy scale (Full RoI) tools.append(taualgs.getJetSeedBuilder()) # Associate RoI vertex or Beamspot to tau - don't use TJVA tools.append(taualgs.getTauVertexFinder( doUseTJVA=False)) #don't use TJVA by default # Set LC energy scale (0.2 cone) and intermediate axis (corrected for vertex: useless at trigger) tools.append(taualgs.getTauAxis()) # for now, use 'doMVATES=False' to detect tracktwoEF, instead of introducing new flag if not doMVATES: # Count tracks with deltaZ0 cut of 1mm for tracktwoEF tools.append( taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=1)) else: # tightened to 0.75 mm for tracktwoMVA (until the track BDT can be used) tools.append( taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=0.75, prefix='TrigTauTightDZ_')) if doTrackBDT: # BDT track classification tools.append(taualgs.getTauTrackClassifier()) # Calibrate to calo TES tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy')) if doMVATES: # Compute MVA TES (ATR-17649), stores MVA TES as default tau pt() tools.append(taualgs.getMvaTESVariableDecorator()) tools.append(taualgs.getMvaTESEvaluator()) # Calculate cell-based quantities: strip variables, EM and Had energies/radii, centFrac, isolFrac and ring energies tools.append(taualgs.getCellVariables(cellConeSize=0.2)) # tools.append(taualgs.getElectronVetoVars()) # Lifetime variables tools.append(taualgs.getTauVertexVariables()) # Variables combining tracking and calorimeter information tools.append(taualgs.getTauCommonCalcVars()) # Cluster-based sub-structure, with dRMax also tools.append(taualgs.getTauSubstructure()) # tools.append(taualgs.getEnergyCalibrationLC(correctEnergy=False, correctAxis=True, postfix='_onlyAxis')) tools.append(taualgs.getPileUpCorrection()) if doRNN: # RNN tau ID tools.append( taualgs.getTauJetRNNEvaluator( NetworkFile0P="rnnid_config_0p_v3.json", NetworkFile1P="rnnid_config_1p_v3.json", NetworkFile3P="rnnid_config_mp_v3.json", MaxTracks=10, MaxClusters=6, MaxClusterDR=1.0)) # flattened RNN score and WP tools.append(taualgs.getTauWPDecoratorJetRNN()) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_TauPrecision"): super(TrigTauRecMerged_TauPrecision, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] taualgs.setPrefix("TrigTau_") # Collection name self.OutputCollection = "TrigTauRecMerged" # Include full set of tools # Set seedcalo energy scale (Full RoI) tools.append(taualgs.getJetSeedBuilder()) # Associate RoI vertex or Beamspot to tau - don't use TJVA tools.append(taualgs.getTauVertexFinder( doUseTJVA=False)) #don't use TJVA by default # Set LC energy scale (0.2 cone) and intermediate axis (corrected for vertex: useless at trigger) tools.append(taualgs.getTauAxis()) # Count tracks with deltaZ0 cut of 2mm for 2016 and 1mm for 2017 (see ATR-15845) if TriggerFlags.run2Config == '2016': tools.append( taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=2, prefix='TrigTau2016_')) else: tools.append( taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=1)) # Calibrate to TES tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy')) # Calculate cell-based quantities: strip variables, EM and Had energies/radii, centFrac, isolFrac and ring energies tools.append(taualgs.getCellVariables(cellConeSize=0.2)) # tools.append(taualgs.getElectronVetoVars()) # Lifetime variables tools.append(taualgs.getTauVertexVariables()) # Variables combining tracking and calorimeter information tools.append(taualgs.getTauCommonCalcVars()) # Cluster-based sub-structure, with dRMax also tools.append(taualgs.getTauSubstructure()) # tools.append(taualgs.getEnergyCalibrationLC(correctEnergy=False, correctAxis=True, postfix='_onlyAxis')) tools.append(taualgs.getPileUpCorrection()) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()
def __init__(self, name="TrigTauRecMerged_TauFTK"): super(TrigTauRecMerged_TauFTK, self).__init__(name) self._mytools = [] # monitoring part. To switch off do in topOption TriggerFlags.enableMonitoring = [] from TrigTauRec.TrigTauRecMonitoring import TrigTauRecValidationMonitoring, TrigTauRecOnlineMonitoring validation = TrigTauRecValidationMonitoring() online = TrigTauRecOnlineMonitoring() from TrigTimeMonitor.TrigTimeHistToolConfig import TrigTimeHistToolConfig time = TrigTimeHistToolConfig("Time") self.AthenaMonTools = [time, validation, online] import TrigTauRec.TrigTauAlgorithmsHolder as taualgs tools = [] taualgs.setPrefix("TrigTauFTK_") # Collection name self.OutputCollection = "TrigTauRecPreselection" # Only include tools needed for pre-selection # Set seedcalo energy scale (Full RoI) tools.append(taualgs.getJetSeedBuilder()) #use FTK vertices tools.append(taualgs.getTauVertexFinder(doUseTJVA=True)) # Set LC energy scale (0.2 cone) and intermediate axis (corrected for vertex: useless at trigger) tools.append(taualgs.getTauAxis()) # Count tracks with deltaZ0 cut of 2mm -> Need to remove quality criteria for fast-tracks here # Insert bypass later? tools.append( taualgs.getTauTrackFinder(applyZ0cut=True, maxDeltaZ0=2, noSelector=False)) # Calibrate to TES tools.append( taualgs.getEnergyCalibrationLC(correctEnergy=True, correctAxis=False, postfix='_onlyEnergy')) # Calculate cell-based quantities: strip variables, EM and Had energies/radii, centFrac, isolFrac and ring energies tools.append(taualgs.getCellVariables(cellConeSize=0.2)) # tools.append(taualgs.getElectronVetoVars()) # Variables combining tracking and calorimeter information tools.append(taualgs.getTauCommonCalcVars()) # Cluster-based sub-structure, with dRMax also tools.append(taualgs.getTauSubstructure()) # tools.append(taualgs.getEnergyCalibrationLC(correctEnergy=False, correctAxis=True, postfix='_onlyAxis')) tools.append(taualgs.getPileUpCorrection()) for tool in tools: tool.inTrigger = True tool.calibFolder = 'TrigTauRec/00-11-02/' pass self.Tools = tools #necessary to write out deltaZ0 between tracks and lead trk #self.theTauPVTool = taualgs.getTauPVTrackTool() #self.useTauPVTool = True; ## add beam type flag from AthenaCommon.BeamFlags import jobproperties self.BeamType = jobproperties.Beam.beamType()