Exemplo n.º 1
0
 def __init__(self, name="T2CaloEgamma_eGamma_NoHad"):
     super(T2CaloEgamma_eGamma_NoHad, self).__init__(name)
     # here put your customizations
     self.IAlgToolList = [
         EgammaSamp2Fex(),
         EgammaSamp1Fex(),
         EgammaEmEnFex()
     ]
     self.EtaWidth = 0.2
     self.PhiWidth = 0.2
     self.EtaWidthForID = 0.1
     self.PhiWidthForID = 0.1
     #self.TimerNtuple="T2CaloEgamma.T2CaEgtTot"
     self.TrigEMClusterKey = "TrigT2CaloEgamma"
     #self.Monitoring=False
     #self.OutputLevel = DEBUG
     #self.AthenaMonTools += [t2catime]
     self.AthenaMonTools = [
         TrigT2CaloEgammaValMonitoring(),
         TrigT2CaloEgammaCosmicMonitoring(),
         TrigT2CaloEgammaOnMonitoring()
     ]
     #self.CalibList=[]
     self.CalibListEndcap = [EgammaSshapeCalibrationEndcapConfig()]
     self.CalibListBarrel = [EgammaSshapeCalibrationBarrelConfig()]
     self.CalibListBarrel += [EgammaHitsCalibrationBarrelConfig()]
     self.CalibListBarrel += [EgammaGapCalibrationConfig()]
     self.CalibListBarrel += [EgammaTransitionRegionsConfig()]
     self.CalibListEndcap += [EgammaHitsCalibrationEndcapConfig()]
     self.CalibListEndcap += [EgammaGapCalibrationConfig()]
Exemplo n.º 2
0
 def __init__(self, name="T2CaloEgamma_cells"):
     super(T2CaloEgamma_cells, self).__init__(name)
     # here put your customizations
     self.IAlgToolList = [
         EgammaSamp2FexConfig('EgammaSamp2FexConfigDebug'),
         EgammaSamp1Fex('EgammaSamp1FexDebug'),
         EgammaEmEnFex('EgammaEmEnFexDebug'),
         EgammaHadEnFex('EgammaHadEnFexDebug')
     ]
     # Save cells
     for item in self.IAlgToolList:
         item.SaveCellsInContainer = True
         item.ThresholdKeepCells = 400.0
         if item.name(
         ) == 'EgammaHadEnFexDebug':  # HadEn should have a different threshold
             item.ThresholdKeepCells = 150.0
     self.StoreCells = True
     self.EtaWidth = 0.2
     self.PhiWidth = 0.2
     self.EtaWidthForID = 0.1
     self.PhiWidthForID = 0.1
     #self.TimerNtuple="T2CaloEgamma.T2CaEgtTot"
     self.TrigEMClusterKey = "TrigT2CaloEgamma"
     #t2catime.TimerHistLimits = [0,20]
     #self.AthenaMonTools += [t2catime]
     self.AthenaMonTools += [
         TrigT2CaloEgammaValMonitoring(),
         TrigT2CaloEgammaCosmicMonitoring(),
         TrigT2CaloEgammaOnMonitoring(),
         TrigT2CaloEgammaTimeMonitoring()
     ]
     self.CalibListEndcap = [EgammaSshapeCalibrationEndcapConfig()]
     self.CalibListBarrel = [EgammaSshapeCalibrationBarrelConfig()]
     self.CalibListBarrel += [EgammaHitsCalibrationBarrelConfig()]
     self.CalibListBarrel += [EgammaGapCalibrationConfig()]
     self.CalibListBarrel += [EgammaTransitionRegionsConfig()]
     self.CalibListEndcap += [EgammaHitsCalibrationEndcapConfig()]
     self.CalibListEndcap += [EgammaGapCalibrationConfig()]
     self.doTiming = True
Exemplo n.º 3
0
    def __init__(self, name="T2CaloEgamma_eGamma"):
        super(T2CaloEgamma_eGamma, self).__init__(name)
        # here put your customizations
        self.IAlgToolList = [
            EgammaSamp2FexConfig(),
            EgammaSamp1Fex(),
            EgammaEmEnFex(),
            EgammaHadEnFex()
        ]
        self.EtaWidth = 0.2
        self.PhiWidth = 0.2
        self.EtaWidthForID = 0.1
        self.PhiWidthForID = 0.1
        #self.TimerNtuple="T2CaloEgamma.T2CaEgtTot"
        self.TrigEMClusterKey = "TrigT2CaloEgamma"
        #self.Monitoring=False
        #self.OutputLevel = 1
        # detailed timing
        #t2catime=TrigTimeTreeToolConfig("T2CaloEgammaTimer")
        #t2catime=TrigTimeHistToolConfig("T2CaloEgammaTimer")
        #t2catime.Key = ["ESamp2.ESamp2Total","ESamp2.ESamp2RegSel","ESamp2.ESamp2BSCnv","ESamp2.ESamp2Algor","ESamp2.ESamp2SaveEM","ESamp2.ESamp2Eta","ESamp2.ESamp2Total:ESamp2Eta"]
        #t2catime.TimerHistLimits = [0,20]
        self.AthenaMonTools += [
            TrigT2CaloEgammaValMonitoring(),
            TrigT2CaloEgammaCosmicMonitoring(),
            TrigT2CaloEgammaOnMonitoring(
                name="TrigT2CaloEgammaOnMonitoring_doTimeHist",
                doTimeHist=True),
            TrigT2CaloEgammaTimeMonitoring()
        ]
        self.CalibListEndcap = [EgammaSshapeCalibrationEndcapConfig()]
        self.CalibListBarrel = [EgammaSshapeCalibrationBarrelConfig()]
        self.CalibListBarrel += [EgammaHitsCalibrationBarrelConfig()]
        self.CalibListBarrel += [EgammaGapCalibrationConfig()]
        self.CalibListBarrel += [EgammaTransitionRegionsConfig()]
        self.CalibListEndcap += [EgammaHitsCalibrationEndcapConfig()]
        self.CalibListEndcap += [EgammaGapCalibrationConfig()]
        self.doTiming = True
        # code to suport Z of the vertex calculation
        self.RhoFirstLayer = [
            1542.22,
            1543.34,
            1542.56,
            1543.39,
            1543.10,  # Eta range: 0.00 ~ 0.05 ~ 0.10 ~ 0.15 ~ 0.20 ~ 0.25
            1543.91,
            1543.19,
            1541.05,
            1540.18,
            1538.67,  # Eta range: 0.25 ~ 0.30 ~ 0.35 ~ 0.40 ~ 0.45 ~ 0.50
            1538.55,
            1536.49,
            1535.31,
            1535.93,
            1536.14,  # Eta range: 0.50 ~ 0.55 ~ 0.60 ~ 0.65 ~ 0.70 ~ 0.75
            1535.93,
            1524.32,
            1524.82,
            1525.86,
            1523.97,  # Eta range: 0.75 ~ 0.80 ~ 0.85 ~ 0.90 ~ 0.95 ~ 1.00
            1526.66,
            1524.73,
            1524.00,
            1522.18,
            1520.65,  # Eta range: 1.00 ~ 1.05 ~ 1.10 ~ 1.15 ~ 1.20 ~ 1.25
            1519.67,
            1517.90
        ]
        # Eta range: 1.25 ~ 1.30 ~ 1.37

        self.RhoMiddleLayer = [
            1756.75,
            1757.91,
            1757.06,
            1758.25,
            1757.40,  # Eta range: 0.00 ~ 0.05 ~ 0.10 ~ 0.15 ~ 0.20 ~ 0.25
            1758.75,
            1757.90,
            1756.01,
            1754.76,
            1748.07,  # Eta range: 0.25 ~ 0.30 ~ 0.35 ~ 0.40 ~ 0.45 ~ 0.50
            1740.84,
            1735.52,
            1732.03,
            1721.71,
            1716.65,  # Eta range: 0.50 ~ 0.55 ~ 0.60 ~ 0.65 ~ 0.70 ~ 0.75
            1710.82,
            1739.15,
            1728.36,
            1722.92,
            1716.45,  # Eta range: 0.75 ~ 0.80 ~ 0.85 ~ 0.90 ~ 0.95 ~ 1.00 
            1707.56,
            1697.96,
            1689.75,
            1684.23,
            1671.07,  # Eta range: 1.00 ~ 1.05 ~ 1.10 ~ 1.15 ~ 1.20 ~ 1.25
            1663.98,
            1662.04
        ]
        # Eta range: 1.25 ~ 1.30 ~ 1.37

        self.RhoEta = [
            0,
            0.05,
            0.10,
            0.15,
            0.20,
            0.25,
            0.30,
            0.35,
            0.40,
            0.45,
            0.50,
            0.55,  # eta point
            0.60,
            0.65,
            0.70,
            0.75,
            0.80,
            0.85,
            0.90,
            0.95,
            1.00,
            1.05,
            1.10,
            1.15,  # eta point
            1.20,
            1.25,
            1.30,
            1.37
        ]

        self.ZFirstLayer = [
            3790.00,
            3790.00,
            3790.00,
            3790.00,
            3790.00,  # 1.52 - 1.55 ~ 1.60 - 1.65 ~ 1.70 - 1.75
            3790.00,
            3790.00,
            3790.00,
            3790.00,
            3790.00,  # 1.75 - 1.80 ~ 1.85 - 1.90 ~ 1.95 - 2.00
            3790.00,
            3790.00,
            3790.00,
            3790.00,
            3790.00,  # 2.00 - 2.05 ~ 2.10 - 2.15 ~ 2.20 - 2.25
            3790.00,
            3781.74,
            3778.00,
            3778.00,
            3778.00,
            3778.00
        ]
        # 2.25 - 2.30 ~ 2.35 - 2.40 ~ 2.45 - 2.50 ~ 2.55

        self.ZMiddleLayer = [
            4006.00,
            4006.00,
            4002.00,
            4002.00,
            4002.00,  # 1.52 - 1.55 ~ 1.60 - 1.65 ~ 1.70 - 1.75
            3990.00,
            3990.00,
            3990.00,
            3990.00,
            3990.00,  # 1.75 - 1.80 ~ 1.85 - 1.90 ~ 1.95 - 2.00
            3986.21,
            3979.21,
            3978.00,
            3974.47,
            3963.42,  # 2.00 - 2.05 ~ 2.10 - 2.15 ~ 2.20 - 2.25
            3962.00,
            3952.39,
            3940.42,
            3934.71,
            3934.00,
            3934.00
        ]
        # 2.25 - 2.30 ~ 2.35 - 2.40 ~ 2.45 - 2.50 ~ 2.55

        self.ZEta = [
            1.50, 1.55, 1.60, 1.65, 1.70, 1.75, 1.80, 1.85, 1.90, 1.95, 2.00,
            2.05, 2.10, 2.15, 2.20, 2.25, 2.30, 2.35, 2.40, 2.45, 2.50, 2.55
        ]
Exemplo n.º 4
0
def fastL2EgammaClusteringAlg(flags, roisKey="EMCaloRoIs", doRinger=False):

    acc = ComponentAccumulator()
    # configure calo data access
    from TrigT2CaloCommon.TrigCaloDataAccessConfig import trigCaloDataAccessSvcCfg
    cdaSvcAcc = trigCaloDataAccessSvcCfg(flags)
    cdaSvc = cdaSvcAcc.getService("TrigCaloDataAccessSvc")
    acc.merge(cdaSvcAcc)

    from TileConditions.TileEMScaleConfig import TileEMScaleCondAlgCfg
    acc.merge(TileEMScaleCondAlgCfg(flags))

    from TileConditions.TileBadChannelsConfig import TileBadChannelsCondAlgCfg
    acc.merge(TileBadChannelsCondAlgCfg(flags))

    # configure tools (this can be simplified further,
    EgammaReEmEnFex, EgammaReHadEnFex, EgammaReSamp1Fex, EgammaReSamp2Fex = CompFactory.getComps(
        "EgammaReEmEnFex",
        "EgammaReHadEnFex",
        "EgammaReSamp1Fex",
        "EgammaReSamp2Fex",
    )

    samp2 = EgammaReSamp2Fex(name='FaAlgoSamp2FexConfig',
                             MaxDetaHotCell=0.15,
                             MaxDphiHotCell=0.15)
    acc.addPublicTool(samp2)

    samp1 = EgammaReSamp1Fex('FaAlgoSamp1FexConfig')
    acc.addPublicTool(samp1)

    sampe = EgammaReEmEnFex('FaAlgoEmEnFexConfig')
    sampe.ExtraInputs = [('LArOnOffIdMapping', 'ConditionStore+LArOnOffIdMap')]
    acc.addPublicTool(sampe)

    samph = EgammaReHadEnFex('FaAlgoHadEnFexConfig')
    samph.ExtraInputs = [('TileEMScale', 'ConditionStore+TileEMScale'),
                         ('TileBadChannels', 'ConditionStore+TileBadChannels')]
    acc.addPublicTool(samph)

    alg = CompFactory.T2CaloEgammaReFastAlgo("FastEMCaloAlgo")
    from TrigEDMConfig.TriggerEDMRun3 import recordable
    alg.ClustersName = recordable('HLT_FastCaloEMClusters')
    alg.RoIs = roisKey
    alg.EtaWidth = 0.2
    alg.PhiWidth = 0.2

    __fex_tools = [samp2, samp1, sampe, samph]  #, ring ]

    if doRinger:
        from TrigT2CaloEgamma.TrigT2CaloEgammaConfig import RingerReFexConfig
        ringer = RingerReFexConfig('FaAlgoRingerFexConfig')
        ringer.RingerKey = recordable("HLT_FastCaloRinger")
        ringer.ClustersName = alg.ClustersName
        acc.addPublicTool(ringer)
        __fex_tools.append(ringer)

    alg.IReAlgToolList = __fex_tools

    for t in __fex_tools:
        t.trigDataAccessMT = cdaSvc  # set data access svc

    # set calibration
    from TrigT2CaloCalibration.EgammaCalibrationConfig import EgammaSshapeCalibrationBarrelConfig, EgammaHitsCalibrationBarrelConfig, \
                                                              EgammaGapCalibrationConfig, EgammaTransitionRegionsConfig
    alg.CalibListBarrel = [EgammaSshapeCalibrationBarrelConfig()]
    alg.CalibListBarrel += [EgammaHitsCalibrationBarrelConfig()]
    alg.CalibListBarrel += [EgammaGapCalibrationConfig()]
    alg.CalibListBarrel += [EgammaTransitionRegionsConfig()]

    from TrigT2CaloCalibration.EgammaCalibrationConfig import EgammaSshapeCalibrationEndcapConfig, EgammaHitsCalibrationEndcapConfig, \
                                                              EgammaGapCalibrationConfig
    alg.CalibListEndcap = [EgammaSshapeCalibrationEndcapConfig()]
    alg.CalibListEndcap += [EgammaHitsCalibrationEndcapConfig()]
    alg.CalibListEndcap += [EgammaGapCalibrationConfig()]

    acc.addEventAlgo(alg)
    return acc
Exemplo n.º 5
0
    def __init__(self,
                 name="T2CaloEgamma_ReFastAlgo",
                 ClustersName="HLT_FastCaloEMClusters",
                 doRinger=False,
                 RingerKey="HLT_FastCaloRinger"):
        super(T2CaloEgamma_ReFastAlgo, self).__init__(name)
        # here put your customizations
        from AthenaCommon.AppMgr import ServiceMgr as svcMgr
        if not hasattr(svcMgr, 'TrigCaloDataAccessSvc'):
            from TrigT2CaloCommon.TrigT2CaloCommonConfig import TrigCaloDataAccessSvc
            svcMgr += TrigCaloDataAccessSvc()
        samp2 = EgammaReSamp2FexConfig(
            name="ReFaAlgoSamp2FexConfig",
            trigDataAccessMT=svcMgr.TrigCaloDataAccessSvc,
            ExtraInputs=[('LArOnOffIdMapping', 'ConditionStore+LArOnOffIdMap')
                         ])
        samp1 = EgammaReSamp1FexConfig(
            "ReFaAlgoSamp1FexConfig",
            trigDataAccessMT=svcMgr.TrigCaloDataAccessSvc,
            ExtraInputs=[('LArOnOffIdMapping', 'ConditionStore+LArOnOffIdMap')
                         ])
        sampe = EgammaReEmEnFexConfig(
            "ReFaAlgoEmEnFexConfig",
            trigDataAccessMT=svcMgr.TrigCaloDataAccessSvc,
            ExtraInputs=[('LArOnOffIdMapping', 'ConditionStore+LArOnOffIdMap')
                         ])
        samph = EgammaReHadEnFexConfig(
            "ReFaAlgoHadEnFexConfig",
            trigDataAccessMT=svcMgr.TrigCaloDataAccessSvc,
            ExtraInputs=[('LArOnOffIdMapping', 'ConditionStore+LArOnOffIdMap')
                         ])

        samph.ExtraInputs = [('TileEMScale', 'ConditionStore+TileEMScale'),
                             ('TileBadChannels',
                              'ConditionStore+TileBadChannels')]

        self.IReAlgToolList = [samp2, samp1, sampe, samph]

        if doRinger:
            from TrigT2CaloEgamma.TrigT2CaloEgammaConfig import RingerReFexConfig
            ringer = RingerReFexConfig('ReFaAlgoRingerFexConfig')
            ringer.RingerKey = RingerKey  #"HLT_FastCaloRinger"
            ringer.trigDataAccessMT = svcMgr.TrigCaloDataAccessSvc
            ringer.ClustersName = ClustersName
            #ToolSvc+=ringer
            self.IReAlgToolList += [ringer]

        self.EtaWidth = 0.2
        self.PhiWidth = 0.2
        #self.EtaWidthForID = 0.1
        #self.PhiWidthForID = 0.1
        #self.TrigEMClusterKey="TrigT2CaloEgamma"
        self.CalibListEndcap = [EgammaSshapeCalibrationEndcapConfig()]
        self.CalibListBarrel = [EgammaSshapeCalibrationBarrelConfig()]
        self.CalibListBarrel += [EgammaHitsCalibrationBarrelConfig()]
        self.CalibListBarrel += [EgammaGapCalibrationConfig()]
        self.CalibListBarrel += [EgammaTransitionRegionsConfig()]
        self.CalibListEndcap += [EgammaHitsCalibrationEndcapConfig()]
        self.CalibListEndcap += [EgammaGapCalibrationConfig()]

        from AthenaMonitoringKernel.GenericMonitoringTool import GenericMonitoringTool
        monTool = GenericMonitoringTool('MonTool')
        monTool.defineHistogram(
            'TrigEMCluster_eT',
            path='EXPERT',
            type='TH1F',
            title="T2Calo Egamma E_T; E_T [ GeV ] ; Nclusters",
            xbins=80,
            xmin=0.0,
            xmax=80.0)
        monTool.defineHistogram(
            'TrigEMCluster_had1',
            path='EXPERT',
            type='TH1F',
            title=
            "T2Calo Egamma had E_T samp1; had E_T samp1 [ GeV ] ; Nclusters",
            xbins=80,
            xmin=0.0,
            xmax=8.0)
        monTool.defineHistogram('TrigEMCluster_eta',
                                path='EXPERT',
                                type='TH1F',
                                title="T2Calo Egamma #eta; #eta ; Nclusters",
                                xbins=100,
                                xmin=-2.5,
                                xmax=2.5)
        monTool.defineHistogram('TrigEMCluster_phi',
                                path='EXPERT',
                                type='TH1F',
                                title="T2Calo Egamma #phi; #phi ; Nclusters",
                                xbins=128,
                                xmin=-3.2,
                                xmax=3.2)
        monTool.defineHistogram(
            'TrigEMCluster_rEta',
            path='EXPERT',
            type='TH1F',
            title="T2Calo Egamma rEta; rEta (e237/e277) ; Nclusters",
            xbins=140,
            xmin=-0.2,
            xmax=1.2)
        monTool.defineHistogram(
            'TIME_exec',
            path='EXPERT',
            type='TH1F',
            title="T2Calo Egamma time; time [ us ] ; Nruns",
            xbins=80,
            xmin=0.0,
            xmax=8000.0)
        monTool.defineHistogram(
            'TrigEMCluster_eta,TIME_exec',
            path='EXPERT',
            type='TH2F',
            title="T2Calo Egamma time vs #eta ; #eta ; time [ us ]",
            xbins=100,
            xmin=-2.5,
            xmax=2.5,
            ybins=80,
            ymin=0.0,
            ymax=8000.0)

        self.MonTool = monTool