diff --git a/RecFCCeeCalorimeter/CMakeLists.txt b/RecFCCeeCalorimeter/CMakeLists.txt index 3f2c04e5..69686b19 100644 --- a/RecFCCeeCalorimeter/CMakeLists.txt +++ b/RecFCCeeCalorimeter/CMakeLists.txt @@ -50,10 +50,3 @@ add_test(NAME FCCeeLAr_benchmarkCorrection WORKING_DIRECTORY ${PROJECT_SOURCE_DIR} ) set_test_env(FCCeeLAr_benchmarkCorrection) - -# test for ALLEGRO addNoise, to be moved ddsim+k4run -add_test(NAME FCCeeLAr_ecalNoise - COMMAND k4run RecFCCeeCalorimeter/tests/options/runEcalBarrel_addNoise_thetamodulemerged.py - WORKING_DIRECTORY ${PROJECT_SOURCE_DIR} -) -set_test_env(FCCeeLAr_ecalNoise) diff --git a/RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.cpp b/RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.cpp similarity index 80% rename from RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.cpp rename to RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.cpp index 17bef729..89f8d11d 100644 --- a/RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.cpp +++ b/RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.cpp @@ -1,20 +1,24 @@ -#include "TubeLayerModuleThetaMergedCaloTool.h" +#include "TubeLayerModuleThetaCaloTool.h" -// segm +// dd4hep #include "DD4hep/Detector.h" #include "DD4hep/MultiSegmentation.h" + +// k4geo #include "detectorCommon/DetUtils_k4geo.h" + +// k4FWCore #include "k4Interface/IGeoSvc.h" -DECLARE_COMPONENT(TubeLayerModuleThetaMergedCaloTool) +DECLARE_COMPONENT(TubeLayerModuleThetaCaloTool) -TubeLayerModuleThetaMergedCaloTool::TubeLayerModuleThetaMergedCaloTool(const std::string& type, const std::string& name, +TubeLayerModuleThetaCaloTool::TubeLayerModuleThetaCaloTool(const std::string& type, const std::string& name, const IInterface* parent) : AlgTool(type, name, parent), m_geoSvc("GeoSvc", name) { declareInterface(this); } -StatusCode TubeLayerModuleThetaMergedCaloTool::initialize() { +StatusCode TubeLayerModuleThetaCaloTool::initialize() { StatusCode sc = AlgTool::initialize(); if (sc.isFailure()) return sc; @@ -24,7 +28,7 @@ StatusCode TubeLayerModuleThetaMergedCaloTool::initialize() { return StatusCode::FAILURE; } if (m_readoutName != "") { - // Check if readouts exist + // Check if readout exists info() << "Readout: " << m_readoutName << endmsg; if (m_geoSvc->getDetector()->readouts().find(m_readoutName) == m_geoSvc->getDetector()->readouts().end()) { error() << "Readout <<" << m_readoutName << ">> does not exist." << endmsg; @@ -34,25 +38,17 @@ StatusCode TubeLayerModuleThetaMergedCaloTool::initialize() { return sc; } -StatusCode TubeLayerModuleThetaMergedCaloTool::finalize() { return AlgTool::finalize(); } +StatusCode TubeLayerModuleThetaCaloTool::finalize() { return AlgTool::finalize(); } -StatusCode TubeLayerModuleThetaMergedCaloTool::prepareEmptyCells(std::unordered_map& aCells) { +StatusCode TubeLayerModuleThetaCaloTool::prepareEmptyCells(std::unordered_map& aCells) { // Get the total number of active volumes in the geometry - auto highestVol = gGeoManager->GetTopVolume(); - unsigned int numLayers; - if (!m_activeVolumesNumber) { - numLayers = det::utils::countPlacedVolumes(highestVol, m_activeVolumeName); - } else { - // used when MergeLayers tool is used. To be removed once MergeLayer gets replaced by RedoSegmentation. - numLayers = m_activeVolumesNumber; - } + unsigned int numLayers = m_activeVolumesNumber; info() << "Number of active layers " << numLayers << endmsg; // get segmentation dd4hep::DDSegmentation::Segmentation *aSegmentation = m_geoSvc->getDetector()->readout(m_readoutName).segmentation().segmentation(); std::string segmentationType = aSegmentation->type(); info() << "Segmentation type : " << segmentationType << endmsg; - dd4hep::DDSegmentation::FCCSWGridModuleThetaMerged_k4geo *moduleThetaSegmentation = nullptr; if (segmentationType == "FCCSWGridModuleThetaMerged_k4geo") { moduleThetaSegmentation = dynamic_cast(aSegmentation); @@ -72,7 +68,9 @@ StatusCode TubeLayerModuleThetaMergedCaloTool::prepareEmptyCells(std::unordered_ for (unsigned int ilayer = 0; ilayer < numLayers; ilayer++) { dd4hep::DDSegmentation::CellID volumeId = 0; - (*decoder)["system"].set(volumeId, 4); + for (unsigned int it = 0; it < m_fieldNames.size(); it++) { + decoder->set(volumeId, m_fieldNames[it], m_fieldValues[it]); + } (*decoder)["layer"].set(volumeId, ilayer); (*decoder)["theta"].set(volumeId, 0); (*decoder)["module"].set(volumeId, 0); diff --git a/RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.h b/RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.h similarity index 76% rename from RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.h rename to RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.h index b414da0e..46dddd3f 100644 --- a/RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.h +++ b/RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.h @@ -1,5 +1,5 @@ -#ifndef RECCALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H -#define RECCALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H +#ifndef RECFCCEECALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H +#define RECFCCEECALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H // from Gaudi #include "GaudiKernel/AlgTool.h" @@ -9,8 +9,8 @@ class IGeoSvc; -/** @class TubeLayerModuleThetaMergedCaloTool Reconstruction/RecCalorimeter/src/components/TubeLayerModuleThetaMergedCaloTool.h - *TubeLayerModuleThetaMergedCaloTool.h +/** @class TubeLayerModuleThetaCaloTool k4RecCalorimeter/RecFCCeeCalorimeter/src/components/TubeLayerModuleThetaCaloTool.h + * TubeLayerModuleThetaCaloTool.h * * Tool for geometry-dependent settings of the digitisation. * It assumes cylindrical geometry (layers) and phi-theta segmentation. @@ -19,10 +19,10 @@ class IGeoSvc; * @author Zhibo Wu */ -class TubeLayerModuleThetaMergedCaloTool : public AlgTool, virtual public ICalorimeterTool { +class TubeLayerModuleThetaCaloTool : public AlgTool, virtual public ICalorimeterTool { public: - TubeLayerModuleThetaMergedCaloTool(const std::string& type, const std::string& name, const IInterface* parent); - virtual ~TubeLayerModuleThetaMergedCaloTool() = default; + TubeLayerModuleThetaCaloTool(const std::string& type, const std::string& name, const IInterface* parent); + virtual ~TubeLayerModuleThetaCaloTool() = default; virtual StatusCode initialize() final; virtual StatusCode finalize() final; /** Prepare a map of all existing cells in current geometry. @@ -52,8 +52,8 @@ class TubeLayerModuleThetaMergedCaloTool : public AlgTool, virtual public ICalor Gaudi::Property> m_fieldNames{this, "fieldNames"}; /// Values of the fields describing the segmented volume Gaudi::Property> m_fieldValues{this, "fieldValues"}; - /// Temporary: for use with MergeLayer tool + /// Number of layers Gaudi::Property m_activeVolumesNumber{this, "activeVolumesNumber", 0}; }; -#endif /* RECCALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H */ +#endif /* RECFCCEECALORIMETER_TUBELAYERMODULETHETAMERGEDCALOTOOL_H */ diff --git a/RecFCCeeCalorimeter/tests/options/ALLEGRO_o1_v03_digi_reco.py b/RecFCCeeCalorimeter/tests/options/ALLEGRO_o1_v03_digi_reco.py index 2aa04472..aadac237 100644 --- a/RecFCCeeCalorimeter/tests/options/ALLEGRO_o1_v03_digi_reco.py +++ b/RecFCCeeCalorimeter/tests/options/ALLEGRO_o1_v03_digi_reco.py @@ -53,7 +53,7 @@ # cluster energy corrections # simple parametrisations of up/downstream losses for ECAL-only clusters # not to be applied for ECAL+HCAL clustering -# superseded by MVA calibration, but turned on here for the purpose of testing that the code is not broken +# superseded by MVA calibration, but turned on here for the purpose of testing that the code is not broken - will end up in separate cluster collection applyUpDownstreamCorrections = True # BDT regression from total cluster energy and fraction of energy in each layer (after correction for sampling fraction) @@ -68,6 +68,7 @@ # not run by default in production, but to be turned on here for the purpose of testing that the code is not broken # currently off till we provide the onnx files runPhotonIDTool = False +logEWeightInPhotonID = False # # ALGORITHMS AND SERVICES SETUP @@ -147,6 +148,12 @@ readoutName=ecalBarrelReadoutName, OutputLevel=INFO ) +# the noise tool needs the positioning tool, but if I reuse the previous one the code crashes.. +cellPositionEcalBarrelToolForNoise = CellPositionsECalBarrelModuleThetaSegTool( + "CellPositionsECalBarrelForNoise", + readoutName=ecalBarrelReadoutName, + OutputLevel=INFO +) if resegmentECalBarrel: cellPositionEcalBarrelTool2 = CellPositionsECalBarrelModuleThetaSegTool( "CellPositionsECalBarrel2", @@ -273,50 +280,54 @@ ecalBarrelNoiseRMSHistName = "h_elecNoise_fcc_" from Configurables import NoiseCaloCellsVsThetaFromFileTool noiseBarrel = NoiseCaloCellsVsThetaFromFileTool("NoiseBarrel", - cellPositionsTool=cellPositionEcalBarrelTool, + cellPositionsTool=cellPositionEcalBarrelToolForNoise, readoutName=ecalBarrelReadoutName, noiseFileName=ecalBarrelNoisePath, elecNoiseRMSHistoName=ecalBarrelNoiseRMSHistName, setNoiseOffset=False, activeFieldName="layer", addPileup=False, - filterNoiseThreshold=0, + filterNoiseThreshold=1, numRadialLayers=11, scaleFactor=1 / 1000., # MeV to GeV OutputLevel=INFO) - # needs to be migrated! - # from Configurables import TubeLayerPhiEtaCaloTool - # barrelGeometry = TubeLayerPhiEtaCaloTool("EcalBarrelGeo", - # readoutName=ecalBarrelReadoutNamePhiEta, - # activeVolumeName="LAr_sensitive", - # activeFieldName="layer", - # activeVolumesNumber=12, - # fieldNames=["system"], - # fieldValues=[4]) + from Configurables import TubeLayerModuleThetaCaloTool + barrelGeometry = TubeLayerModuleThetaCaloTool("EcalBarrelGeo", + readoutName=ecalBarrelReadoutName, + activeVolumeName="LAr_sensitive", + activeFieldName="layer", + activeVolumesNumber=11, + fieldNames=["system"], + fieldValues=[4], + OutputLevel=INFO) # cells with noise not filtered - # createEcalBarrelCellsNoise = CreateCaloCells("CreateECalBarrelCellsNoise", - # doCellCalibration=False, - # addCellNoise=True, - # filterCellNoise=False, - # OutputLevel=INFO, - # hits="ECalBarrelCellsStep2", - # noiseTool=noiseBarrel, - # geometryTool=barrelGeometry, - # cells=EcalBarrelCellsName) + createEcalBarrelCellsNoise = CreatePositionedCaloCells("CreatePositionedECalBarrelCellsWithNoise", + doCellCalibration=True, + positionsTool=cellPositionEcalBarrelTool, + calibTool=calibEcalBarrel, + addCellNoise=True, + filterCellNoise=False, + noiseTool=noiseBarrel, + geometryTool=barrelGeometry, + OutputLevel=INFO, + hits=ecalBarrelReadoutName, # uncalibrated & unpositioned cells without noise + cells=ecalBarrelPositionedCellsName + "WithNoise") # cells with noise filtered - # createEcalBarrelCellsNoise = CreateCaloCells("CreateECalBarrelCellsNoise_filtered", - # doCellCalibration=False, - # addCellNoise=True, - # filterCellNoise=True, - # OutputLevel=INFO, - # hits="ECalBarrelCellsStep2", - # noiseTool=noiseBarrel, - # geometryTool=barrelGeometry, - # cells=EcalBarrelCellsName) - + createEcalBarrelCellsNoiseFiltered = CreatePositionedCaloCells("CreateECalBarrelCellsWithNoiseFiltered", + doCellCalibration=True, + calibTool=calibEcalBarrel, + positionsTool=cellPositionEcalBarrelTool, + addCellNoise=True, + filterCellNoise=True, + noiseTool=noiseBarrel, + geometryTool=barrelGeometry, + OutputLevel=INFO, + hits=ecalBarrelReadoutName, # uncalibrated & unpositioned cells without noise + cells=ecalBarrelPositionedCellsName + "WithNoiseFiltered" + ) if runHCal: # Apply calibration and positioning to cells in HCal barrel @@ -526,6 +537,7 @@ layerFieldNames=["layer"], thetaRecalcWeights=[ecalBarrelThetaWeights], do_photon_shapeVar=runPhotonIDTool, + do_widthTheta_logE_weights=logEWeightInPhotonID, OutputLevel=INFO ) @@ -705,6 +717,7 @@ layerFieldNames=["layer"], thetaRecalcWeights=[ecalBarrelThetaWeights], do_photon_shapeVar=runPhotonIDTool, + do_widthTheta_logE_weights=logEWeightInPhotonID, OutputLevel=INFO) if applyMVAClusterEnergyCalibration: @@ -882,6 +895,13 @@ ] createEcalBarrelCells.AuditExecute = True createEcalEndcapCells.AuditExecute = True +if addNoise: + TopAlg += [ + createEcalBarrelCellsNoise, + createEcalBarrelCellsNoiseFiltered + ] + createEcalBarrelCellsNoise.AuditExecute = True + createEcalBarrelCellsNoiseFiltered.AuditExecute = True if resegmentECalBarrel: TopAlg += [ diff --git a/RecFCCeeCalorimeter/tests/options/runEcalBarrel_addNoise_thetamodulemerged.py b/RecFCCeeCalorimeter/tests/options/runEcalBarrel_addNoise_thetamodulemerged.py deleted file mode 100644 index 4f0ba9bd..00000000 --- a/RecFCCeeCalorimeter/tests/options/runEcalBarrel_addNoise_thetamodulemerged.py +++ /dev/null @@ -1,593 +0,0 @@ -# -# IMPORTS -# -from Configurables import ApplicationMgr -from Configurables import AuditorSvc, ChronoAuditor -# Input/output -from Configurables import k4DataSvc, PodioInput -from Configurables import PodioOutput -# Geometry -from Configurables import GeoSvc -# Create cells -from Configurables import CreateCaloCells -from Configurables import CreateEmptyCaloCellsCollection -# Cell positioning tools -from Configurables import CreateCaloCellPositionsFCCee -from Configurables import CellPositionsECalBarrelModuleThetaSegTool -from Configurables import CellPositionsECalEndcapTurbineSegTool -# Redo segmentation for ECAL and HCAL -from Configurables import RedoSegmentation -# Read noise values from file and generate noise in cells -from Configurables import NoiseCaloCellsVsThetaFromFileTool -# Apply sampling fraction corrections -from Configurables import CalibrateCaloHitsTool -from Configurables import CalibrateInLayersTool -# Up/down stream correction -from Configurables import CorrectCaloClusters -# SW clustering -from Configurables import CaloTowerToolFCCee -from Configurables import CreateCaloClustersSlidingWindowFCCee -# Topo clustering -from Configurables import CaloTopoClusterInputTool -from Configurables import TopoCaloNeighbours -from Configurables import TopoCaloNoisyCells -from Configurables import CaloTopoClusterFCCee -# Decorate clusters with shower shape parameters -from Configurables import AugmentClustersFCCee -# Logger -from Gaudi.Configuration import INFO, VERBOSE, DEBUG -# units and physical constants -from GaudiKernel.SystemOfUnits import GeV, tesla, mm -from GaudiKernel.PhysicalConstants import pi, halfpi, twopi -# python libraries -import os -from math import cos, sin, tan - -# -# SETTINGS -# - -# - general settings -# -inputfile = "https://fccsw.web.cern.ch/fccsw/filesForSimDigiReco/ALLEGRO/ALLEGRO_o1_v03/ALLEGRO_sim.root" # input file produced with ddsim -Nevts = 2 # -1 means all events -addNoise = True # add noise or not to the cell energy -dumpGDML = False # create GDML file of detector model - -# - what to save in output file -# -# for big productions, save significant space removing hits and cells -# however, hits and cluster cells might be wanted for small productions for detailed event displays -# cluster cells are not needed for the training of the MVA energy regression nor the photon ID since needed quantities are stored in cluster shapeParameters -# saveHits = False -# saveCells = False -# saveClusterCells = False -saveHits = True -saveCells = True -saveClusterCells = True - -# ECAL barrel parameters for digitisation -samplingFraction=[0.3800493723322256] * 1 + [0.13494147915064658] * 1 + [0.142866851721152] * 1 + [0.14839315921940666] * 1 + [0.15298362570665006] * 1 + [0.15709704561942747] * 1 + [0.16063717490147533] * 1 + [0.1641723795419055] * 1 + [0.16845490287689746] * 1 + [0.17111520115997653] * 1 + [0.1730605163148862] * 1 -upstreamParameters = [[0.028158491043365624, -1.564259408365951, -76.52312805346982, 0.7442903558010191, -34.894692961350195, -74.19340877431723]] -downstreamParameters = [[0.00010587711361028165, 0.0052371999097777355, 0.69906696456064, -0.9348243433360095, -0.0364714212117143, 8.360401126995626]] - -ecalBarrelLayers = len(samplingFraction) -resegmentECalBarrel = False - -# - parameters for clustering -# -doSWClustering = True -doTopoClustering = True - -# cluster energy corrections -# simple parametrisations of up/downstream losses -# not to be applied for ECAL+HCAL clustering -applyUpDownstreamCorrections = False - -# calculate cluster energy and barycenter per layer and save it as extra parameters -addShapeParameters = True -ecalBarrelThetaWeights = [-1, 3.0, 3.0, 3.0, 4.25, 4.0, 4.0, 4.0, 4.0, 4.0, 4.0] # to be recalculated for V03, separately for topo and calo clusters... - -# -# ALGORITHMS AND SERVICES SETUP -# - -# Input: load the output of the SIM step -podioevent = k4DataSvc('EventDataSvc') -podioevent.input = inputfile -input_reader = PodioInput('InputReader') - - -# Detector geometry -# prefix all xmls with path_to_detector -# if K4GEO is empty, this should use relative path to working directory -geoservice = GeoSvc("GeoSvc") -path_to_detector = os.environ.get("K4GEO", "") -detectors_to_use = [ - 'FCCee/ALLEGRO/compact/ALLEGRO_o1_v03/ALLEGRO_o1_v03.xml' -] -geoservice.detectors = [ - os.path.join(path_to_detector, _det) for _det in detectors_to_use -] -geoservice.OutputLevel = INFO - -# GDML dump of detector model -if dumpGDML: - from Configurables import GeoToGdmlDumpSvc - gdmldumpservice = GeoToGdmlDumpSvc("GeoToGdmlDumpSvc") - -# Digitisation (merging hits into cells, EM scale calibration via sampling fractions) - -# - ECAL readouts -ecalBarrelReadoutName = "ECalBarrelModuleThetaMerged" # barrel, original segmentation (baseline) -ecalBarrelReadoutName2 = "ECalBarrelModuleThetaMerged2" # barrel, after re-segmentation (for optimisation studies) -ecalEndcapReadoutName = "ECalEndcapTurbine" # endcap, turbine-like (baseline) -# - HCAL readouts -hcalBarrelReadoutName = "" -hcalBarrelReadoutName2 = "" -hcalEndcapReadoutName = "" - -# - EM scale calibration (sampling fraction) -# * ECAL barrel -calibEcalBarrel = CalibrateInLayersTool("CalibrateECalBarrel", - samplingFraction=samplingFraction, - readoutName=ecalBarrelReadoutName, - layerFieldName="layer") -# * ECAL endcap -calibEcalEndcap = CalibrateInLayersTool("CalibrateECalEndcap", - samplingFraction = [0.16419] * 1 + [0.192898] * 1 + [0.18783] * 1 + [0.193203] * 1 + [0.193928] * 1 + [0.192286] * 1 + [0.199959] * 1 + [0.200153] * 1 + [0.212635] * 1 + [0.180345] * 1 + [0.18488] * 1 + [0.194762] * 1 + [0.197775] * 1 + [0.200504] * 1 + [0.205555] * 1 + [0.203601] * 1 + [0.210877] * 1 + [0.208376] * 1 + [0.216345] * 1 + [0.201452] * 1 + [0.202134] * 1 + [0.207566] * 1 + [0.208152] * 1 + [0.209889] * 1 + [0.211743] * 1 + [0.213188] * 1 + [0.215864] * 1 + [0.22972] * 1 + [0.192515] * 1 + [0.0103233] * 1, - readoutName=ecalEndcapReadoutName, - layerFieldName="layer") - -# Create cells in ECal barrel (needed if one wants to apply cell calibration, -# which is not performed by ddsim) -# - merge hits into cells according to initial segmentation -ecalBarrelCellsName = "ECalBarrelCells" -if not addNoise: # Create ECAL barrel cells without adding noise - createEcalBarrelCells = CreateCaloCells("CreateECalBarrelCells", - doCellCalibration=True, - calibTool=calibEcalBarrel, - addCellNoise=False, - filterCellNoise=False, - addPosition=True, - OutputLevel=INFO, - hits=ecalBarrelReadoutName, - cells=ecalBarrelCellsName) - -# - add to Ecal barrel cells the position information -# (good for physics, all coordinates set properly) -cellPositionEcalBarrelTool = CellPositionsECalBarrelModuleThetaSegTool( - "CellPositionsECalBarrel", - readoutName=ecalBarrelReadoutName, - OutputLevel=INFO -) -ecalBarrelPositionedCellsName = ecalBarrelReadoutName + "Positioned" -createEcalBarrelPositionedCells = CreateCaloCellPositionsFCCee( - "CreateECalBarrelPositionedCells", - OutputLevel=INFO -) -createEcalBarrelPositionedCells.positionsTool = cellPositionEcalBarrelTool -createEcalBarrelPositionedCells.hits.Path = ecalBarrelCellsName -createEcalBarrelPositionedCells.positionedHits.Path = ecalBarrelPositionedCellsName - -# - now, if we want to also save cells with coarser granularity: -if resegmentECalBarrel: - # 2. step - rewrite the cellId using the merged theta-module segmentation - # (merging several modules and severla theta readout cells). - # Add noise at this step if you derived the noise already assuming merged cells - # Step 2a: compute new cellID of cells based on new readout - # (merged module-theta segmentation with variable merging vs layer) - resegmentEcalBarrelTool = RedoSegmentation("ReSegmentationEcal", - # old bitfield (readout) - oldReadoutName=ecalBarrelReadoutName, - # specify which fields are going to be altered (deleted/rewritten) - oldSegmentationIds=["module", "theta"], - # new bitfield (readout), with new segmentation (merged modules and theta cells) - newReadoutName=ecalBarrelReadoutName2, - OutputLevel=INFO, - debugPrint=200, - inhits=ecalBarrelCellsName, - outhits="ECalBarrelCellsMerged") - - # Step 2b: merge new cells with same cellID together - # do not apply cell calibration again since cells were already - # calibrated in Step 1 - ecalBarrelCellsName2 = "ECalBarrelCells2" - createEcalBarrelCells2 = CreateCaloCells("CreateECalBarrelCells2", - doCellCalibration=False, - addCellNoise=False, - filterCellNoise=False, - OutputLevel=INFO, - hits="ECalBarrelCellsMerged", - cells=ecalBarrelCellsName2) - - - cellPositionEcalBarrelTool2 = CellPositionsECalBarrelModuleThetaSegTool( - "CellPositionsECalBarrel2", - readoutName=ecalBarrelReadoutName2, - OutputLevel=INFO - ) - createEcalBarrelPositionedCells2 = CreateCaloCellPositionsFCCee( - "CreateECalBarrelPositionedCells2", - OutputLevel=INFO - ) - createEcalBarrelPositionedCells2.positionsTool = cellPositionEcalBarrelTool2 - createEcalBarrelPositionedCells2.hits.Path = ecalBarrelCellsName2 - createEcalBarrelPositionedCells2.positionedHits.Path = ecalBarrelReadoutName2 + "Positioned" - - -# Create cells in ECal endcap (needed if one wants to apply cell calibration, -# which is not performed by ddsim) -ecalEndcapCellsName = "ECalEndcapCells" -createEcalEndcapCells = CreateCaloCells("CreateEcalEndcapCaloCells", - doCellCalibration=True, - calibTool=calibEcalEndcap, - addCellNoise=False, - filterCellNoise=False, - OutputLevel=INFO, - hits=ecalEndcapReadoutName, - cells=ecalEndcapCellsName) - -# Add to Ecal endcap cells the position information -# (good for physics, all coordinates set properly) -cellPositionEcalEndcapTool = CellPositionsECalEndcapTurbineSegTool( - "CellPositionsECalEndcap", - readoutName=ecalEndcapReadoutName, - OutputLevel=INFO -) -ecalEndcapPositionedCellsName = ecalEndcapReadoutName + "Positioned" -createEcalEndcapPositionedCells = CreateCaloCellPositionsFCCee( - "CreateECalEndcapPositionedCells", - OutputLevel=INFO -) -createEcalEndcapPositionedCells.positionsTool = cellPositionEcalEndcapTool -createEcalEndcapPositionedCells.hits.Path = ecalEndcapCellsName -createEcalEndcapPositionedCells.positionedHits.Path = ecalEndcapPositionedCellsName - - -if addNoise: - # FIXME Input histograms of ECAL noise needs to be updated to match the latest ALLEGRO geometry - ecalBarrelNoisePath = "https://fccsw.web.cern.ch/fccsw/filesForSimDigiReco/ALLEGRO/ALLEGRO_o1_v03/elecNoise_ecalBarrelFCCee_theta.root" - ecalBarrelNoiseRMSHistName = "h_elecNoise_fcc_" - from Configurables import NoiseCaloCellsVsThetaFromFileTool - noiseBarrel = NoiseCaloCellsVsThetaFromFileTool("NoiseBarrel", - cellPositionsTool=cellPositionEcalBarrelTool, - readoutName=ecalBarrelReadoutName, - noiseFileName=ecalBarrelNoisePath, - elecNoiseRMSHistoName=ecalBarrelNoiseRMSHistName, - setNoiseOffset=False, - activeFieldName="layer", - addPileup=False, - filterNoiseThreshold=0, - numRadialLayers=11, - scaleFactor=1 / 1000., # MeV to GeV - OutputLevel=INFO) - - # barrel geometry tool is migrated to match ALLEGRO v3 segmentation - from Configurables import TubeLayerModuleThetaMergedCaloTool - barrelGeometry = TubeLayerModuleThetaMergedCaloTool("EcalBarrelGeo", - readoutName=ecalBarrelReadoutName, - activeVolumeName="LAr_sensitive", - activeFieldName="layer", - activeVolumesNumber=11, - fieldNames=["system"], - fieldValues=[4]) - - # cells with noise not filtered - createEcalBarrelCells = CreateCaloCells("CreateECalBarrelCellsNoise", - doCellCalibration=True, - calibTool=calibEcalBarrel, - addCellNoise=True, - filterCellNoise=False, - noiseTool=noiseBarrel, - addPosition=True, - geometryTool=barrelGeometry, - OutputLevel=INFO, - hits=ecalBarrelReadoutName, - cells=ecalBarrelCellsName) - - # cells with noise filtered - # createEcalBarrelCellsNoise = CreateCaloCells("CreateECalBarrelCellsNoise_filtered", - # doCellCalibration=False, - # addCellNoise=True, - # filterCellNoise=True, - # OutputLevel=INFO, - # hits="ECalBarrelCellsStep2", - # noiseTool=noiseBarrel, - # geometryTool=barrelGeometry, - # cells=EcalBarrelCellsName) - -hcalBarrelCellsName = "emptyCaloCells" -hcalBarrelPositionedCellsName = "emptyCaloCells" -hcalBarrelCellsName2 = "emptyCaloCells" -hcalBarrelPositionedCellsName2 = "emptyCaloCells" -cellPositionHcalBarrelTool = None -cellPositionHcalBarrelTool2 = None - -# Empty cells for parts of calorimeter not implemented yet -createemptycells = CreateEmptyCaloCellsCollection("CreateEmptyCaloCells") -createemptycells.cells.Path = "emptyCaloCells" - -# Produce sliding window clusters -if doSWClustering: - towers = CaloTowerToolFCCee("towers", - deltaThetaTower=4 * 0.009817477 / 4, deltaPhiTower=2 * 2 * pi / 1536., - ecalBarrelReadoutName=ecalBarrelReadoutName, - ecalEndcapReadoutName=ecalEndcapReadoutName, - ecalFwdReadoutName="", - hcalBarrelReadoutName=hcalBarrelReadoutName2, - hcalExtBarrelReadoutName="", - hcalEndcapReadoutName="", - hcalFwdReadoutName="", - OutputLevel=INFO) - towers.ecalBarrelCells.Path = ecalBarrelPositionedCellsName - towers.ecalEndcapCells.Path = "emptyCaloCells" - towers.ecalFwdCells.Path = "emptyCaloCells" - towers.hcalBarrelCells.Path = hcalBarrelPositionedCellsName2 - towers.hcalExtBarrelCells.Path = "emptyCaloCells" - towers.hcalEndcapCells.Path = "emptyCaloCells" - towers.hcalFwdCells.Path = "emptyCaloCells" - - # Cluster variables - windT = 9 - windP = 17 - posT = 5 - posP = 11 - dupT = 7 - dupP = 13 - finT = 9 - finP = 17 - # Minimal energy to create a cluster in GeV (FCC-ee detectors have to reconstruct low energy particles) - threshold = 0.040 - - createClusters = CreateCaloClustersSlidingWindowFCCee("CreateClusters", - towerTool=towers, - nThetaWindow=windT, nPhiWindow=windP, - nThetaPosition=posT, nPhiPosition=posP, - nThetaDuplicates=dupT, nPhiDuplicates=dupP, - nThetaFinal=finT, nPhiFinal=finP, - energyThreshold=threshold, - energySharingCorrection=False, - attachCells=True, - OutputLevel=INFO - ) - createClusters.clusters.Path = "CaloClusters" - createClusters.clusterCells.Path = "CaloClusterCells" - - if applyUpDownstreamCorrections: - correctCaloClusters = CorrectCaloClusters("CorrectCaloClusters", - inClusters=createClusters.clusters.Path, - outClusters="Corrected" + createClusters.clusters.Path, - systemIDs=[4], - numLayers=[ecalBarrelLayers], - firstLayerIDs=[0], - lastLayerIDs=[ecalBarrelLayers-1], - readoutNames=[ecalBarrelReadoutName], - upstreamParameters=upstreamParameters, - upstreamFormulas=[ - ['[0]+[1]/(x-[2])', '[0]+[1]/(x-[2])']], - downstreamParameters=downstreamParameters, - downstreamFormulas=[ - ['[0]+[1]*x', '[0]+[1]/sqrt(x)', '[0]+[1]/x']], - OutputLevel=INFO - ) - - if addShapeParameters: - augmentCaloClusters = AugmentClustersFCCee("augmentCaloClusters", - inClusters=createClusters.clusters.Path, - outClusters="Augmented" + createClusters.clusters.Path, - systemIDs=[4], - systemNames=["EMB"], - numLayers=[ecalBarrelLayers], - readoutNames=[ecalBarrelReadoutName], - layerFieldNames=["layer"], - thetaRecalcWeights=[ecalBarrelThetaWeights], - do_photon_shapeVar=False, - OutputLevel=INFO - ) - -if doTopoClustering: - # Produce topoclusters (ECAL only or ECAL+HCAL) - createTopoInput = CaloTopoClusterInputTool("CreateTopoInput", - ecalBarrelReadoutName=ecalBarrelReadoutName, - ecalEndcapReadoutName="", - ecalFwdReadoutName="", - hcalBarrelReadoutName=hcalBarrelReadoutName2, - hcalExtBarrelReadoutName="", - hcalEndcapReadoutName="", - hcalFwdReadoutName="", - OutputLevel=INFO) - - createTopoInput.ecalBarrelCells.Path = ecalBarrelPositionedCellsName - createTopoInput.ecalEndcapCells.Path = "emptyCaloCells" - createTopoInput.ecalFwdCells.Path = "emptyCaloCells" - createTopoInput.hcalBarrelCells.Path = hcalBarrelPositionedCellsName2 - createTopoInput.hcalExtBarrelCells.Path = "emptyCaloCells" - createTopoInput.hcalEndcapCells.Path = "emptyCaloCells" - createTopoInput.hcalFwdCells.Path = "emptyCaloCells" - cellPositionHcalBarrelNoSegTool = None - cellPositionHcalExtBarrelTool = None - - neighboursMap = "https://fccsw.web.cern.ch/fccsw/filesForSimDigiReco/ALLEGRO/ALLEGRO_o1_v03/neighbours_map_ecalB_thetamodulemerged.root" - noiseMap = "https://fccsw.web.cern.ch/fccsw/filesForSimDigiReco/ALLEGRO/ALLEGRO_o1_v03/cellNoise_map_electronicsNoiseLevel_ecalB_thetamodulemerged.root" - readNeighboursMap = TopoCaloNeighbours("ReadNeighboursMap", - fileName=neighboursMap, - OutputLevel=INFO) - - # Noise levels per cell - readNoisyCellsMap = TopoCaloNoisyCells("ReadNoisyCellsMap", - fileName=noiseMap, - OutputLevel=INFO) - - createTopoClusters = CaloTopoClusterFCCee("CreateTopoClusters", - TopoClusterInput=createTopoInput, - # expects neighbours map from cellid->vec < neighbourIds > - neigboursTool=readNeighboursMap, - # tool to get noise level per cellid - noiseTool=readNoisyCellsMap, - # cell positions tools for all sub - systems - positionsECalBarrelTool=cellPositionEcalBarrelTool, - positionsHCalBarrelTool=cellPositionHcalBarrelTool2, - # positionsHCalBarrelNoSegTool=cellPositionHcalBarrelNoSegTool, - # positionsHCalExtBarrelTool=cellPositionHcalExtBarrelTool, - # positionsHCalExtBarrelTool = HCalExtBcells, - # positionsEMECTool = EMECcells, - # positionsHECTool = HECcells, - # positionsEMFwdTool = ECalFwdcells, - # positionsHFwdTool = HCalFwdcells, - noSegmentationHCal=False, - seedSigma=4, - neighbourSigma=2, - lastNeighbourSigma=0, - OutputLevel=INFO) - createTopoClusters.clusters.Path = "CaloTopoClusters" - createTopoClusters.clusterCells.Path = "CaloTopoClusterCells" - - - # Correction below is for EM-only clusters - # Need something different for EM+HCAL - if applyUpDownstreamCorrections: - correctCaloTopoClusters = CorrectCaloClusters( - "CorrectCaloTopoClusters", - inClusters=createTopoClusters.clusters.Path, - outClusters="Corrected" + createTopoClusters.clusters.Path, - systemIDs=[4], - numLayers=[ecalBarrelLayers], - firstLayerIDs=[0], - lastLayerIDs=[ecalBarrelLayers-1], - readoutNames=[ecalBarrelReadoutName], - # do not split the following line or it will break scripts that update the values of the corrections - upstreamParameters=upstreamParameters, - upstreamFormulas=[['[0]+[1]/(x-[2])', '[0]+[1]/(x-[2])']], - # do not split the following line or it will break scripts that update the values of the corrections - downstreamParameters=downstreamParameters, - downstreamFormulas=[['[0]+[1]*x', '[0]+[1]/sqrt(x)', '[0]+[1]/x']], - OutputLevel=INFO - ) - - if addShapeParameters: - augmentCaloTopoClusters = AugmentClustersFCCee("augmentCaloTopoClusters", - inClusters=createTopoClusters.clusters.Path, - outClusters="Augmented" + createTopoClusters.clusters.Path, - systemIDs=[4], - systemNames=["EMB"], - numLayers=[ecalBarrelLayers], - readoutNames=[ecalBarrelReadoutName], - layerFieldNames=["layer"], - thetaRecalcWeights=[ecalBarrelThetaWeights], - do_photon_shapeVar=False, - OutputLevel=INFO) - -# Output -out = PodioOutput("out", - OutputLevel=INFO) -out.filename = "ALLEGRO_sim_digi_reco.root" - -# drop the unpositioned ECal and HCal barrel and endcap cells -out.outputCommands = ["keep *", - "drop emptyCaloCells", - "drop %s" % ecalBarrelCellsName, - "drop %s" % ecalEndcapCellsName] - -# drop the uncalibrated cells -out.outputCommands.append("drop %s" % ecalBarrelReadoutName) -out.outputCommands.append("drop %s" % ecalBarrelReadoutName2) -out.outputCommands.append("drop %s" % ecalEndcapReadoutName) - -# drop the intermediate ecal barrel cells in case of a resegmentation -if resegmentECalBarrel: - out.outputCommands.append("drop ECalBarrelCellsMerged") - out.outputCommands.append("drop %s" % ecalBarrelCellsName2) - -# drop lumi, vertex, DCH, Muons (unless want to keep for event display) -out.outputCommands.append("drop Lumi*") -# out.outputCommands.append("drop Vertex*") -# out.outputCommands.append("drop DriftChamber_simHits*") -out.outputCommands.append("drop MuonTagger*") - -# drop hits/positioned cells/cluster cells if desired -if not saveHits: - out.outputCommands.append("drop *%sContributions" % ecalBarrelReadoutName) - out.outputCommands.append("drop *%sContributions" % ecalBarrelReadoutName2) - out.outputCommands.append("drop *%sContributions" % ecalEndcapReadoutName) -if not saveCells: - out.outputCommands.append("drop %s" % ecalBarrelPositionedCellsName) - out.outputCommands.append("drop %s" % ecalEndcapPositionedCellsName) - if resegmentECalBarrel: - out.outputCommands.append("drop %s" % ecalBarrelPositionedCellsName2) -if not saveClusterCells: - out.outputCommands.append("drop Calo*ClusterCells*") - -# if we decorate the clusters, we can drop the non-decorated ones -if addShapeParameters: - out.outputCommands.append("drop %s" % augmentCaloClusters.inClusters) - -# CPU information -chra = ChronoAuditor() -audsvc = AuditorSvc() -audsvc.Auditors = [chra] -out.AuditExecute = True - -# Configure list of external services -ExtSvc = [geoservice, podioevent, audsvc] -if dumpGDML: - ExtSvc += [gdmldumpservice] - -# Setup alg sequence -TopAlg = [ - input_reader, - createEcalBarrelCells, - createEcalBarrelPositionedCells, -] -createEcalBarrelCells.AuditExecute = True -createEcalBarrelPositionedCells.AuditExecute = True - -if resegmentECalBarrel: - TopAlg += [ - resegmentEcalBarrelTool, - createEcalBarrelCells2, - createEcalBarrelPositionedCells2, - ] - resegmentEcalBarrelTool.AuditExecute = True - createEcalBarrelCells2.AuditExecute = True - createEcalBarrelPositionedCells2.AuditExecute = True - -if doSWClustering or doTopoClustering: - TopAlg += [createemptycells] - createemptycells.AuditExecute = True - - if doSWClustering: - TopAlg += [createClusters] - createClusters.AuditExecute = True - - if applyUpDownstreamCorrections: - TopAlg += [correctCaloClusters] - correctCaloClusters.AuditExecute = True - - if addShapeParameters: - TopAlg += [augmentCaloClusters] - augmentCaloClusters.AuditExecute = True - - if doTopoClustering: - TopAlg += [createTopoClusters] - createTopoClusters.AuditExecute = True - - if applyUpDownstreamCorrections: - TopAlg += [correctCaloTopoClusters] - correctCaloTopoClusters.AuditExecute = True - - if addShapeParameters: - TopAlg += [augmentCaloTopoClusters] - augmentCaloTopoClusters.AuditExecute = True - -TopAlg += [ - out -] - -ApplicationMgr( - TopAlg=TopAlg, - EvtSel='NONE', - EvtMax=Nevts, - ExtSvc=ExtSvc, - StopOnSignal=True, -)