#_______________________________________________________________________________ #Module.Begin CDBConnectTask #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGPP/PilotTrain/AddTaskCDBconnect.C #Module.MacroArgs #Module.Deps #Module.Owner mfasel #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SetFallBackToRaw(kTRUE); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin EmbeddingHelper #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWG/EMCAL/macros/AddTaskEmcalEmbeddingHelper.C #Module.MacroArgs #Module.Deps CDBConnectTask,MultSelectionTask #Module.Owner jmulliga #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); __R_ADDTASK__->SetRandomFileAccess(kTRUE); // Setup pt hard autoconfiguration // The configure wagon should still set the identifier! __R_ADDTASK__->SetAutoConfigurePtHardBins(true); //__R_ADDTASK__->SetAutoConfigureBasePath("alien:///alice/cern.ch/user/a/alitrain/"); __R_ADDTASK__->SetAutoConfigureBasePath("/home/alitrain/train-workdir/"); __R_ADDTASK__->SetAutoConfigureTrainTypePath("PWGJE/Jets_EMC_PbPb/"); // DO NOT call Initialize() here! #Module.EndConfig #_______________________________________________________________________________ #Module.Begin MultSelectionTask #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/OADB/COMMON/MULTIPLICITY/macros/AddTaskMultSelection.C #Module.MacroArgs kFALSE #Module.Deps CDBConnectTask #Module.Owner jmazer #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(kComPhysSel); /* Actually the multiplicity task does need to run on AODs as well if (strcmp(kDatatype,"AOD")==0) { // AOD data sets don't need centrality task cout << "*** Removing centrality task because AOD dataset" << endl; AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager(); TObjArray *array = mgr->GetTasks(); array->Remove(__R_ADDTASK__); } */ #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_Embedder #Module.Libs pythia6_4_25 #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWG/EMCAL/macros/ConfigureEmcalEmbeddingHelperOnLEGOTrain.C #Module.MacroArgs #Module.Deps MultSelectionTask,EmbeddingHelper #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetNPtHardBins(20); __R_ADDTASK__->SetFilePattern("alien:///alice/sim/2016/LHC16j5/%d/"); __R_ADDTASK__->SetInputFilename("*/AOD200/*/AliAOD.root"); __R_ADDTASK__->SetTriggerMask(AliVEvent::kAny); // Equivalent to 0 __R_ADDTASK__->SetConfigurationPath("alien:///alice/cern.ch/user/r/rhaake/ConfigFiles/embeddingHelperConfiguration.yaml"); // runlist EMCAL_good is set here __R_ADDTASK__->SetRandomFileAccess(kTRUE); __R_ADDTASK__->SetRandomEventNumberAccess(kTRUE); __R_ADDTASK__->SetMCRejectOutliers(); __R_ADDTASK__->SetZVertexCut(10.); // Set the pt hard auto config identifier __R_ADDTASK__->SetAutoConfigureIdentifier("rhaake_20190418_1"); // It is very important to call Initialize() with true! __R_ADDTASK__->Initialize(true); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R020_JetExtractor #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskJetExtractor.C #Module.MacroArgs "tracks", "", "Jet_AKTChargedR020_tracks_pT0150_E_scheme", "RhoR020KT", 0.2, "allJets" #Module.Deps Response_R020_JF_DetLevel_PYTHIA_TrackEff100,Response_Rho,Response_RhoMass,Response_R020_JF_DetLevel_Hybrid #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kAA); __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetSaveConstituents(1); __R_ADDTASK__->SetSaveConstituentsIP(0); __R_ADDTASK__->SetSaveConstituentPID(0); __R_ADDTASK__->SetSaveJetShapes(1); __R_ADDTASK__->SetSaveSecondaryVertices(0); __R_ADDTASK__->SetSaveTriggerTracks(0); __R_ADDTASK__->SetSaveMCInformation(1); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(-20,0, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(0,10, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(10,20, 0.005); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(20,40, 0.01); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(40,60, 0.02); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(60,80, 0.05); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(80,100, 0.08); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(100,150, 0.1); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(150,200, 0.15); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->ActivateJetMatching("JetPY100_AKTChargedR020_tracks_pT0150_E_scheme"); __R_ADDTASK__->GetJetContainer(0)->SetRhoMassName("RhoR020_mass"); __R_ADDTASK__->GetJetContainer(0)->SetJetRadius(0.2); __R_ADDTASK__->GetJetContainer(0)->SetPercAreaCut(0.557); __R_ADDTASK__->GetJetContainer(0)->SetJetEtaLimits(-(0.9-0.2), (0.9-0.2)); // In addition to the already existing "tracks" (PbPb) container, add "tracks" (PYTHIA) container AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(0.15); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptTrackContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R020_JF_DetLevel_Hybrid #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.2, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "Jet", 0, kFALSE, kFALSE #Module.Deps Response_Rho,Response_RhoMass,Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kTrackPtCut); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptParticleContainer(trackCont); AliEmcalJetUtilityGenSubtractor* genSub = (AliEmcalJetUtilityGenSubtractor*)__R_ADDTASK__->AddUtility(new AliEmcalJetUtilityGenSubtractor("GenSubtractor")); genSub->SetGenericSubtractionJetMass(kTRUE); genSub->SetGenericSubtractionExtraJetShapes(kTRUE); genSub->SetUseExternalBkg(kTRUE); genSub->SetRhoName("RhoR020KT"); genSub->SetRhomName("RhoR020_mass"); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R020_JF_DetLevel_PYTHIA_TrackEff100 #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.2, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "JetPY100", 0, kFALSE, kFALSE #Module.Deps Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); __R_ADDTASK__->SetTrackEfficiency(1.0); // Set tracks as embedded AliTrackContainer * detTracks = __R_ADDTASK__->GetTrackContainer(0); detTracks->SetIsEmbedding(kTRUE); detTracks->SetFilterHybridTracks(kTRUE); detTracks->SetParticlePtCut(kTrackPtCut); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R040_JetExtractor #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskJetExtractor.C #Module.MacroArgs "tracks", "", "Jet_AKTChargedR040_tracks_pT0150_E_scheme", "RhoR020KT", 0.4, "allJets" #Module.Deps Response_R040_JF_DetLevel_PYTHIA_TrackEff100,Response_Rho,Response_RhoMass,Response_R040_JF_DetLevel_Hybrid #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kAA); __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetSaveConstituents(1); __R_ADDTASK__->SetSaveConstituentsIP(0); __R_ADDTASK__->SetSaveConstituentPID(0); __R_ADDTASK__->SetSaveJetShapes(1); __R_ADDTASK__->SetSaveSecondaryVertices(0); __R_ADDTASK__->SetSaveTriggerTracks(0); __R_ADDTASK__->SetSaveMCInformation(1); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(-20,0, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(0,10, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(10,20, 0.005); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(20,40, 0.01); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(40,60, 0.02); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(60,80, 0.03); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(80,100, 0.05); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(100,150, 0.08); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(150,200, 0.10); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->ActivateJetMatching("JetPY100_AKTChargedR040_tracks_pT0150_E_scheme"); __R_ADDTASK__->GetJetContainer(0)->SetRhoMassName("RhoR020_mass"); // In addition to the already existing "tracks" (PbPb) container, add "tracks" (PYTHIA) container AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(0.15); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptTrackContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R040_JF_DetLevel_Hybrid #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.4, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "Jet", 0, kFALSE, kFALSE #Module.Deps Response_Rho,Response_RhoMass,Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kTrackPtCut); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptParticleContainer(trackCont); AliEmcalJetUtilityGenSubtractor* genSub = (AliEmcalJetUtilityGenSubtractor*)__R_ADDTASK__->AddUtility(new AliEmcalJetUtilityGenSubtractor("GenSubtractor")); genSub->SetGenericSubtractionJetMass(kTRUE); genSub->SetGenericSubtractionExtraJetShapes(kTRUE); genSub->SetUseExternalBkg(kTRUE); genSub->SetRhoName("RhoR020KT"); genSub->SetRhomName("RhoR020_mass"); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R040_JF_DetLevel_PYTHIA_TrackEff100 #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.4, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "JetPY100", 0, kFALSE, kFALSE #Module.Deps Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); __R_ADDTASK__->SetTrackEfficiency(1.0); // Set tracks as embedded AliTrackContainer * detTracks = __R_ADDTASK__->GetTrackContainer(0); detTracks->SetIsEmbedding(kTRUE); detTracks->SetFilterHybridTracks(kTRUE); detTracks->SetParticlePtCut(kTrackPtCut); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R060_JetExtractor #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskJetExtractor.C #Module.MacroArgs "tracks", "", "Jet_AKTChargedR060_tracks_pT0150_E_scheme", "RhoR020KT", 0.6, "allJets" #Module.Deps Response_R060_JF_DetLevel_PYTHIA_TrackEff100,Response_Rho,Response_RhoMass,Response_R060_JF_DetLevel_Hybrid #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kAA); __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetSaveConstituents(1); __R_ADDTASK__->SetSaveConstituentsIP(0); __R_ADDTASK__->SetSaveConstituentPID(0); __R_ADDTASK__->SetSaveJetShapes(1); __R_ADDTASK__->SetSaveSecondaryVertices(0); __R_ADDTASK__->SetSaveTriggerTracks(0); __R_ADDTASK__->SetSaveMCInformation(1); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(-20,0, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(0,10, 0.001); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(10,20, 0.005); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(20,40, 0.01); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(40,60, 0.01); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(60,80, 0.02); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(80,100, 0.03); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(100,150, 0.05); __R_ADDTASK__->GetJetTree()->AddExtractionPercentage(150,200, 0.10); __R_ADDTASK__->GetJetContainer(0)->SetJetEtaLimits(-(0.9-0.6), (0.9-0.6)); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->ActivateJetMatching("JetPY100_AKTChargedR060_tracks_pT0150_E_scheme"); __R_ADDTASK__->GetJetContainer(0)->SetRhoMassName("RhoR020_mass"); // In addition to the already existing "tracks" (PbPb) container, add "tracks" (PYTHIA) container AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(0.15); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptTrackContainer(trackCont); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R060_JF_DetLevel_Hybrid #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.6, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "Jet", 0, kFALSE, kFALSE #Module.Deps Response_Rho,Response_RhoMass,Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetFilterHybridTracks(kTRUE); trackCont->SetParticlePtCut(kTrackPtCut); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptParticleContainer(trackCont); AliEmcalJetUtilityGenSubtractor* genSub = (AliEmcalJetUtilityGenSubtractor*)__R_ADDTASK__->AddUtility(new AliEmcalJetUtilityGenSubtractor("GenSubtractor")); genSub->SetGenericSubtractionJetMass(kTRUE); genSub->SetGenericSubtractionExtraJetShapes(kTRUE); genSub->SetUseExternalBkg(kTRUE); genSub->SetRhoName("RhoR020KT"); genSub->SetRhomName("RhoR020_mass"); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_R060_JF_DetLevel_PYTHIA_TrackEff100 #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks", "", AliJetContainer::antikt_algorithm, 0.6, AliJetContainer::kChargedJet, 0.15, 0.0, kGhostArea, AliJetContainer::E_scheme, "JetPY100", 0, kFALSE, kFALSE #Module.Deps Response_Embedder #Module.Owner rhaake #Module.OutputFile EventStat_temp.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetForceBeamType(AliAnalysisTaskEmcal::kpp); __R_ADDTASK__->SetTrackEfficiency(1.0); // Set tracks as embedded AliTrackContainer * detTracks = __R_ADDTASK__->GetTrackContainer(0); detTracks->SetIsEmbedding(kTRUE); detTracks->SetFilterHybridTracks(kTRUE); detTracks->SetParticlePtCut(kTrackPtCut); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_Rho #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskRhoNew.C #Module.MacroArgs "tracks", "", "RhoR020KT", 0.2, AliJetContainer::kTPCfid, AliJetContainer::kChargedJet, kTRUE, AliJetContainer::E_scheme, "Rho_ExLJ" #Module.Deps Response_Rho_JF #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_Rho_JF #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskEmcalJet.C #Module.MacroArgs "tracks","", AliJetContainer::kt_algorithm, 0.2, AliJetContainer::kChargedJet, 0.15, 0.3, 0.005, AliJetContainer::E_scheme, "Jet", 0., kFALSE, kFALSE #Module.Deps MultSelectionTask #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); AliTrackContainer* trackCont = new AliTrackContainer("tracks"); trackCont->SetIsEmbedding(kTRUE); __R_ADDTASK__->AdoptParticleContainer(trackCont); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); #Module.EndConfig #_______________________________________________________________________________ #Module.Begin Response_RhoMass #Module.Libs #Module.DataTypes ESD, AOD, MC #Module.MacroName $ALICE_PHYSICS/PWGJE/EMCALJetTasks/macros/AddTaskRhoMass.C #Module.MacroArgs "Jet_KTChargedR020_tracks_pT0150_E_scheme", "tracks", "", "RhoR020_mass", 0.2, "TPC", 0.01,0,0,2,kTRUE,"RhoMass" #Module.Deps Response_Rho_JF #Module.Owner rhaake #Module.OutputFile AnalysisResults.root #Module.StartConfig __R_ADDTASK__->SetVzRange(-10,10); __R_ADDTASK__->SelectCollisionCandidates(AliVEvent::kINT7); __R_ADDTASK__->SetNeedEmcalGeom(kFALSE); __R_ADDTASK__->SetUseNewCentralityEstimation(kTRUE); #Module.EndConfig