#include <SiStripMonitorCluster.h>

Inheritance diagram for SiStripMonitorCluster:

Classes
struct	ClusterProperties

struct	LayerMEs

struct	ModMEs

struct	SubDetMEs

Public Member Functions
void	analyze (const edm::Event &, const edm::EventSetup &) override

void	bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override

void	dqmBeginRun (const edm::Run &, const edm::EventSetup &) override

	SiStripMonitorCluster (const edm::ParameterSet &)

	~SiStripMonitorCluster () override

Public Member Functions inherited from DQMEDAnalyzer
void	accumulate (edm::Event const &event, edm::EventSetup const &setup) final

void	beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final

void	beginRun (edm::Run const &run, edm::EventSetup const &setup) final

void	beginStream (edm::StreamID id) final

	DQMEDAnalyzer ()

void	endLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final

void	endRun (edm::Run const &run, edm::EventSetup const &setup) final

virtual bool	getCanSaveByLumi ()

Public Member Functions inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
	EDProducer ()=default

bool	hasAbilityToProduceInBeginLumis () const final

bool	hasAbilityToProduceInBeginProcessBlocks () const final

bool	hasAbilityToProduceInBeginRuns () const final

bool	hasAbilityToProduceInEndLumis () const final

bool	hasAbilityToProduceInEndProcessBlocks () const final

bool	hasAbilityToProduceInEndRuns () const final

Public Attributes
MonitorElement *	BPTXrateTrend = nullptr

MonitorElement *	ClusWidthVsAmpTH2 = nullptr

MonitorElement *	GlobalABXTH1_CSCP = nullptr

MonitorElement *	GlobalApvCycleDBxTH2 = nullptr

MonitorElement *	GlobalCStripVsCpix = nullptr

MonitorElement *	GlobalDBxCycleTH1 = nullptr

MonitorElement *	GlobalDBxTH1 = nullptr

MonitorElement *	GlobalMainDiagonalPosition = nullptr

MonitorElement *	GlobalMainDiagonalPosition_vs_BX = nullptr

MonitorElement *	GlobalTH2MainDiagonalPosition_vs_BX

MonitorElement *	NclusVsCycleTimeProf2D = nullptr

MonitorElement *	NumberOfFEDClus = nullptr

MonitorElement *	NumberOfPixelClus = nullptr

MonitorElement *	NumberOfPixelClus_vs_BX = nullptr

MonitorElement *	NumberOfStripClus = nullptr

MonitorElement *	NumberOfStripClus_vs_BX = nullptr

MonitorElement *	PixVsStripMultiplicityRegions = nullptr

MonitorElement *	StripNoise2Cycle = nullptr

MonitorElement *	StripNoise3Cycle = nullptr

Private Member Functions
MonitorElement *	bookME1D (const char ParameterSetLabel, const char HistoName, DQMStore::IBooker &ibooker)

MonitorElement *	bookME2D (const char ParameterSetLabel, const char HistoName, DQMStore::IBooker &ibooker)

MonitorElement *	bookMETrend (const char *, DQMStore::IBooker &ibooker)

void	createLayerMEs (std::string label, int ndets, DQMStore::IBooker &ibooker)

void	createMEs (const edm::EventSetup &es, DQMStore::IBooker &ibooker)

void	createModuleMEs (ModMEs &mod_single, uint32_t detid, DQMStore::IBooker &ibooker, const SiStripDetCabling &)

void	createSubDetMEs (std::string label, DQMStore::IBooker &ibooker)

void	fillLayerMEs (LayerMEs &, ClusterProperties &cluster)

void	fillME (MonitorElement *ME, float value1)

void	fillME (MonitorElement *ME, float value1, float value2)

void	fillME (MonitorElement *ME, float value1, float value2, float value3)

void	fillME (MonitorElement *ME, float value1, float value2, float value3, float value4)

void	fillModuleMEs (ModMEs &mod_mes, ClusterProperties &cluster)

int	FindRegion (int nstrip, int npixel)

void	ResetModuleMEs (uint32_t idet)

Private Attributes
bool	applyClusterQuality_

edm::EDGetTokenT< APVCyclePhaseCollection >	apvPhaseProducerToken_

bool	clusterchtkhistomapon

bool	ClusterHisto_

edm::EDGetTokenT< edmNew::DetSetVector< SiPixelCluster > >	clusterProducerPixToken_

edm::EDGetTokenT< edmNew::DetSetVector< SiStripCluster > >	clusterProducerStripToken_

bool	clustertkhistomapon

bool	clusterWidth_vs_amplitude_on

edm::ParameterSet	conf_

bool	createTrendMEs

SiStripDCSStatus *	dcsStatus_

double	dk0

int	eventNb

int	firstEvent

GenericTriggerEventFlag *	genTriggerEventFlagBPTXfilter_

GenericTriggerEventFlag *	genTriggerEventFlagPixelDCSfilter_

GenericTriggerEventFlag *	genTriggerEventFlagStripDCSfilter_

bool	globalswitchapvcycledbxth2on

bool	globalswitchcstripvscpix

bool	globalswitchFEDCluster

bool	globalswitchmaindiagonalposition

bool	globalswitchMultiRegions

bool	globalswitchnclusvscycletimeprof2don

bool	globalswitchstripnoise2apvcycle

bool	globalswitchstripnoise3apvcycle

edm::EDGetTokenT< EventWithHistory >	historyProducerToken_

double	k0

bool	layer_clusterWidth_vs_amplitude_on

std::map< std::string, std::vector< uint32_t > >	LayerDetMap

std::map< std::string, LayerMEs >	LayerMEsMap

bool	layerswitchcluschargeon

bool	layerswitchclusdigiposon

bool	layerswitchclusnoiseon

bool	layerswitchclusposon

bool	layerswitchclusstonon

bool	layerswitchclusstonVsposon

bool	layerswitchclusterwidthprofon

bool	layerswitchcluswidthon

bool	layerswitchlocaloccupancy

bool	layerswitchncluson

bool	layerswitchnrclusterizedstrip

bool	layerswitchnumclusterprofon

unsigned long long	m_cacheID_

double	maxClus

double	minPix

bool	Mod_On_

bool	module_clusterWidth_vs_amplitude_on

std::map< uint32_t, ModMEs >	ModuleMEsMap

std::vector< uint32_t >	ModulesToBeExcluded_

bool	moduleswitchcluschargeon

bool	moduleswitchclusdigiposon

bool	moduleswitchclusnoiseon

bool	moduleswitchclusposon

bool	moduleswitchclusstonon

bool	moduleswitchclusstonVsposon

bool	moduleswitchcluswidthon

bool	moduleswitchlocaloccupancy

bool	moduleswitchncluson

bool	moduleswitchnrclusterizedstrip

edm::ParameterSet	Parameters

bool	passBPTXfilter_

bool	passPixelDCSfilter_

bool	passStripDCSfilter_

double	q0

std::string	qualityLabel_

bool	reset_each_run

int	runNb

bool	select_all_detectors

bool	show_control_view

bool	show_mechanical_structure_view

bool	show_readout_view

edm::ESGetToken< SiStripDetCabling, SiStripDetCablingRcd >	siStripDetCablingEventToken_

edm::ESGetToken< SiStripDetCabling, SiStripDetCablingRcd >	siStripDetCablingRunToken_

edm::ESGetToken< SiStripGain, SiStripGainRcd >	siStripGainToken_

edm::ESGetToken< SiStripNoises, SiStripNoisesRcd >	siStripNoisesToken_

edm::ESGetToken< SiStripQuality, SiStripQualityRcd >	siStripQualityToken_

double	sToNLowerLimit_

double	sToNUpperLimit_

bool	subdet_clusterWidth_vs_amplitude_on

std::map< std::string, SubDetMEs >	SubDetMEsMap

std::map< std::string, std::string >	SubDetPhasePartMap

bool	subdetswitchapvcycledbxprof2on

bool	subdetswitchapvcycleprofon

bool	subdetswitchapvcycleth2on

bool	subdetswitchcluschargeon

bool	subdetswitchcluswidthon

bool	subdetswitchdbxcycleprofon

bool	subdetswitchtotclusprofon

bool	subdetswitchtotclusth1on

edm::ESGetToken< TkDetMap, TrackerTopologyRcd >	tkDetMapToken_

std::unique_ptr< TkHistoMap >	tkmapcluster

std::unique_ptr< TkHistoMap >	tkmapclusterch

std::string	topFolderName_

edm::ESGetToken< TrackerTopology, TrackerTopologyRcd >	trackerTopologyEventToken_

edm::ESGetToken< TrackerTopology, TrackerTopologyRcd >	trackerTopologyRunToken_

float	trendVar

bool	trendVs10Ls_

double	widthLowerLimit_

double	widthUpperLimit_

Additional Inherited Members
Public Types inherited from DQMEDAnalyzer
typedef dqm::reco::DQMStore	DQMStore

typedef dqm::reco::MonitorElement	MonitorElement

Public Types inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
typedef CacheContexts< T... >	CacheTypes

typedef CacheTypes::GlobalCache	GlobalCache

typedef AbilityChecker< T... >	HasAbility

typedef CacheTypes::LuminosityBlockCache	LuminosityBlockCache

typedef LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >	LuminosityBlockContext

typedef CacheTypes::LuminosityBlockSummaryCache	LuminosityBlockSummaryCache

typedef CacheTypes::RunCache	RunCache

typedef RunContextT< RunCache, GlobalCache >	RunContext

typedef CacheTypes::RunSummaryCache	RunSummaryCache

Static Public Member Functions inherited from DQMEDAnalyzer
static void	globalEndJob (DQMEDAnalyzerGlobalCache const *)

static void	globalEndLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup, LuminosityBlockContext const *context)

static void	globalEndRunProduce (edm::Run &run, edm::EventSetup const &setup, RunContext const *context)

static std::unique_ptr< DQMEDAnalyzerGlobalCache >	initializeGlobalCache (edm::ParameterSet const &)

Protected Member Functions inherited from DQMEDAnalyzer
uint64_t	meId () const

Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMToken >	lumiToken_

edm::EDPutTokenT< DQMToken >	runToken_

unsigned int	streamId_

Detailed Description

DQM/SiStripMonitorCluster/interface/SiStripMonitorCluster.h Data Quality Monitoring source of the Silicon Strip Tracker. Produces histograms related to clusters.

DQM/SiStripMonitorCluster/src/SiStripMonitorCluster.cc

Definition at line 51 of file SiStripMonitorCluster.h.

Constructor & Destructor Documentation

◆ SiStripMonitorCluster()

SiStripMonitorCluster::SiStripMonitorCluster ( const edm::ParameterSet & iConfig )

explicit

Definition at line 42 of file SiStripMonitorCluster.cc.

     : conf_(iConfig),
       show_mechanical_structure_view(true),
       show_readout_view(false),
       show_control_view(false),
       select_all_detectors(false),
       reset_each_run(false),
       m_cacheID_(0),
       qualityLabel_{conf_.getParameter<std::string>("StripQualityLabel")},
       trackerTopologyRunToken_{esConsumes<TrackerTopology, TrackerTopologyRcd, edm::Transition::BeginRun>()},
       tkDetMapToken_{esConsumes<TkDetMap, TrackerTopologyRcd, edm::Transition::BeginRun>()},
       siStripDetCablingRunToken_{esConsumes<SiStripDetCabling, SiStripDetCablingRcd, edm::Transition::BeginRun>()},
       trackerTopologyEventToken_{esConsumes<TrackerTopology, TrackerTopologyRcd>()},
       siStripNoisesToken_{esConsumes<SiStripNoises, SiStripNoisesRcd>()},
       siStripGainToken_{esConsumes<SiStripGain, SiStripGainRcd>()},
       siStripQualityToken_{esConsumes<SiStripQuality, SiStripQualityRcd>(edm::ESInputTag("", qualityLabel_))},
       siStripDetCablingEventToken_{esConsumes<SiStripDetCabling, SiStripDetCablingRcd>()} {
   // initialize
   passBPTXfilter_ = true;
  
   // initialize GenericTriggerEventFlag by specific configuration
   // in this way, one can set specific selections for different MEs
   genTriggerEventFlagBPTXfilter_ =
       new GenericTriggerEventFlag(iConfig.getParameter<edm::ParameterSet>("BPTXfilter"), consumesCollector(), *this);
   genTriggerEventFlagPixelDCSfilter_ = new GenericTriggerEventFlag(
       iConfig.getParameter<edm::ParameterSet>("PixelDCSfilter"), consumesCollector(), *this);
   genTriggerEventFlagStripDCSfilter_ = new GenericTriggerEventFlag(
       iConfig.getParameter<edm::ParameterSet>("StripDCSfilter"), consumesCollector(), *this);
  
   firstEvent = -1;
   eventNb = 0;
  
   // Detector Partitions
   SubDetPhasePartMap["TIB"] = "TI";
   SubDetPhasePartMap["TID__MINUS"] = "TI";
   SubDetPhasePartMap["TID__PLUS"] = "TI";
   SubDetPhasePartMap["TOB"] = "TO";
   SubDetPhasePartMap["TEC__MINUS"] = "TM";
   SubDetPhasePartMap["TEC__PLUS"] = "TP";
  
   // get on/off option for every cluster from cfi
   edm::ParameterSet ParametersnClusters = conf_.getParameter<edm::ParameterSet>("TH1nClusters");
   layerswitchncluson = ParametersnClusters.getParameter<bool>("layerswitchon");
   moduleswitchncluson = ParametersnClusters.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterCharge = conf_.getParameter<edm::ParameterSet>("TH1ClusterCharge");
   layerswitchcluschargeon = ParametersClusterCharge.getParameter<bool>("layerswitchon");
   moduleswitchcluschargeon = ParametersClusterCharge.getParameter<bool>("moduleswitchon");
   subdetswitchcluschargeon = ParametersClusterCharge.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersClusterStoN = conf_.getParameter<edm::ParameterSet>("TH1ClusterStoN");
   layerswitchclusstonon = ParametersClusterStoN.getParameter<bool>("layerswitchon");
   moduleswitchclusstonon = ParametersClusterStoN.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterStoNVsPos = conf_.getParameter<edm::ParameterSet>("TH1ClusterStoNVsPos");
   layerswitchclusstonVsposon = ParametersClusterStoNVsPos.getParameter<bool>("layerswitchon");
   moduleswitchclusstonVsposon = ParametersClusterStoNVsPos.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterPos = conf_.getParameter<edm::ParameterSet>("TH1ClusterPos");
   layerswitchclusposon = ParametersClusterPos.getParameter<bool>("layerswitchon");
   moduleswitchclusposon = ParametersClusterPos.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterDigiPos = conf_.getParameter<edm::ParameterSet>("TH1ClusterDigiPos");
   layerswitchclusdigiposon = ParametersClusterDigiPos.getParameter<bool>("layerswitchon");
   moduleswitchclusdigiposon = ParametersClusterDigiPos.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterNoise = conf_.getParameter<edm::ParameterSet>("TH1ClusterNoise");
   layerswitchclusnoiseon = ParametersClusterNoise.getParameter<bool>("layerswitchon");
   moduleswitchclusnoiseon = ParametersClusterNoise.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterWidth = conf_.getParameter<edm::ParameterSet>("TH1ClusterWidth");
   layerswitchcluswidthon = ParametersClusterWidth.getParameter<bool>("layerswitchon");
   moduleswitchcluswidthon = ParametersClusterWidth.getParameter<bool>("moduleswitchon");
   subdetswitchcluswidthon = ParametersClusterWidth.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersModuleLocalOccupancy = conf_.getParameter<edm::ParameterSet>("TH1ModuleLocalOccupancy");
   layerswitchlocaloccupancy = ParametersModuleLocalOccupancy.getParameter<bool>("layerswitchon");
   moduleswitchlocaloccupancy = ParametersModuleLocalOccupancy.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersNrOfClusterizedStrips = conf_.getParameter<edm::ParameterSet>("TH1NrOfClusterizedStrips");
   layerswitchnrclusterizedstrip = ParametersNrOfClusterizedStrips.getParameter<bool>("layerswitchon");
   moduleswitchnrclusterizedstrip = ParametersNrOfClusterizedStrips.getParameter<bool>("moduleswitchon");
  
   edm::ParameterSet ParametersClusterProf = conf_.getParameter<edm::ParameterSet>("TProfNumberOfCluster");
   layerswitchnumclusterprofon = ParametersClusterProf.getParameter<bool>("layerswitchon");
  
   edm::ParameterSet ParametersClusterWidthProf = conf_.getParameter<edm::ParameterSet>("TProfClusterWidth");
   layerswitchclusterwidthprofon = ParametersClusterWidthProf.getParameter<bool>("layerswitchon");
  
   edm::ParameterSet ParametersTotClusterProf = conf_.getParameter<edm::ParameterSet>("TProfTotalNumberOfClusters");
   subdetswitchtotclusprofon = ParametersTotClusterProf.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersTotClusterTH1 = conf_.getParameter<edm::ParameterSet>("TH1TotalNumberOfClusters");
   subdetswitchtotclusth1on = ParametersTotClusterTH1.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersClusterApvProf = conf_.getParameter<edm::ParameterSet>("TProfClustersApvCycle");
   subdetswitchapvcycleprofon = ParametersClusterApvProf.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersClustersApvTH2 = conf_.getParameter<edm::ParameterSet>("TH2ClustersApvCycle");
   subdetswitchapvcycleth2on = ParametersClustersApvTH2.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersApvCycleDBxProf2 = conf_.getParameter<edm::ParameterSet>("TProf2ApvCycleVsDBx");
   subdetswitchapvcycledbxprof2on = ParametersApvCycleDBxProf2.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersDBxCycleProf = conf_.getParameter<edm::ParameterSet>("TProfClustersVsDBxCycle");
   subdetswitchdbxcycleprofon = ParametersDBxCycleProf.getParameter<bool>("subdetswitchon");
  
   edm::ParameterSet ParametersCStripVsCPix = conf_.getParameter<edm::ParameterSet>("TH2CStripVsCpixel");
   globalswitchcstripvscpix = ParametersCStripVsCPix.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersMultiplicityRegionsTH1 = conf_.getParameter<edm::ParameterSet>("TH1MultiplicityRegions");
   globalswitchMultiRegions = ParametersMultiplicityRegionsTH1.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersApvCycleVsDBxGlobalTH2 = conf_.getParameter<edm::ParameterSet>("TH2ApvCycleVsDBxGlobal");
   globalswitchapvcycledbxth2on = ParametersApvCycleVsDBxGlobalTH2.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersNoiseStrip2ApvCycle = conf_.getParameter<edm::ParameterSet>("TH1StripNoise2ApvCycle");
   globalswitchstripnoise2apvcycle = ParametersNoiseStrip2ApvCycle.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersNoiseStrip3ApvCycle = conf_.getParameter<edm::ParameterSet>("TH1StripNoise3ApvCycle");
   globalswitchstripnoise3apvcycle = ParametersNoiseStrip3ApvCycle.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersMainDiagonalPosition = conf_.getParameter<edm::ParameterSet>("TH1MainDiagonalPosition");
   globalswitchmaindiagonalposition = ParametersMainDiagonalPosition.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ClusterMultiplicityRegions = conf_.getParameter<edm::ParameterSet>("MultiplicityRegions");
   k0 = ClusterMultiplicityRegions.getParameter<double>("k0");
   q0 = ClusterMultiplicityRegions.getParameter<double>("q0");
   dk0 = ClusterMultiplicityRegions.getParameter<double>("dk0");
   maxClus = ClusterMultiplicityRegions.getParameter<double>("MaxClus");
   minPix = ClusterMultiplicityRegions.getParameter<double>("MinPix");
  
   edm::ParameterSet ParametersNclusVsCycleTimeProf2D = conf_.getParameter<edm::ParameterSet>("NclusVsCycleTimeProf2D");
   globalswitchnclusvscycletimeprof2don = ParametersNclusVsCycleTimeProf2D.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersFEDCluster = conf_.getParameter<edm::ParameterSet>("TProfNClustersFED");
   globalswitchFEDCluster = ParametersFEDCluster.getParameter<bool>("globalswitchon");
  
   edm::ParameterSet ParametersClusWidthVsAmpTH2 = conf_.getParameter<edm::ParameterSet>("ClusWidthVsAmpTH2");
   clusterWidth_vs_amplitude_on = ParametersClusWidthVsAmpTH2.getParameter<bool>("globalswitchon");
   layer_clusterWidth_vs_amplitude_on = ParametersClusWidthVsAmpTH2.getParameter<bool>("layerswitchon");
   subdet_clusterWidth_vs_amplitude_on = ParametersClusWidthVsAmpTH2.getParameter<bool>("subdetswitchon");
   module_clusterWidth_vs_amplitude_on = ParametersClusWidthVsAmpTH2.getParameter<bool>("moduleswitchon");
  
   clustertkhistomapon = conf_.getParameter<bool>("TkHistoMap_On");
   clusterchtkhistomapon = conf_.getParameter<bool>("ClusterChTkHistoMap_On");
   createTrendMEs = conf_.getParameter<bool>("CreateTrendMEs");
   trendVs10Ls_ = conf_.getParameter<bool>("TrendVs10LS");
   Mod_On_ = conf_.getParameter<bool>("Mod_On");
   ClusterHisto_ = conf_.getParameter<bool>("ClusterHisto");
  
   topFolderName_ = conf_.getParameter<std::string>("TopFolderName");
  
   // Poducer name of input StripClusterCollection
   clusterProducerStripToken_ =
       consumes<edmNew::DetSetVector<SiStripCluster> >(conf_.getParameter<edm::InputTag>("ClusterProducerStrip"));
   clusterProducerPixToken_ =
       consumes<edmNew::DetSetVector<SiPixelCluster> >(conf_.getParameter<edm::InputTag>("ClusterProducerPix"));
   /*
   clusterProducerStrip_ =
   conf_.getParameter<edm::InputTag>("ClusterProducerStrip"); clusterProducerPix_
   = conf_.getParameter<edm::InputTag>("ClusterProducerPix");
   */
   // cluster quality conditions
   edm::ParameterSet cluster_condition = conf_.getParameter<edm::ParameterSet>("ClusterConditions");
   applyClusterQuality_ = cluster_condition.getParameter<bool>("On");
   sToNLowerLimit_ = cluster_condition.getParameter<double>("minStoN");
   sToNUpperLimit_ = cluster_condition.getParameter<double>("maxStoN");
   widthLowerLimit_ = cluster_condition.getParameter<double>("minWidth");
   widthUpperLimit_ = cluster_condition.getParameter<double>("maxWidth");
  
   // Event History Producer
   //  historyProducer_ = conf_.getParameter<edm::InputTag>("HistoryProducer");
   historyProducerToken_ = consumes<EventWithHistory>(conf_.getParameter<edm::InputTag>("HistoryProducer"));
   // Apv Phase Producer
   //  apvPhaseProducer_ = conf_.getParameter<edm::InputTag>("ApvPhaseProducer");
   apvPhaseProducerToken_ = consumes<APVCyclePhaseCollection>(conf_.getParameter<edm::InputTag>("ApvPhaseProducer"));
   // Create DCS Status
   bool checkDCS = conf_.getParameter<bool>("UseDCSFiltering");
   if (checkDCS)
     dcsStatus_ = new SiStripDCSStatus(consumesCollector());
   else
     dcsStatus_ = nullptr;
 }

References conf_, edm::ParameterSet::getParameter(), and AlCaHLTBitMon_QueryRunRegistry::string.

◆ ~SiStripMonitorCluster()

SiStripMonitorCluster::~SiStripMonitorCluster ( )

override

Definition at line 227 of file SiStripMonitorCluster.cc.

                                               {
   if (dcsStatus_)
     delete dcsStatus_;
   if (genTriggerEventFlagBPTXfilter_)
     delete genTriggerEventFlagBPTXfilter_;
   if (genTriggerEventFlagPixelDCSfilter_)
     delete genTriggerEventFlagPixelDCSfilter_;
   if (genTriggerEventFlagStripDCSfilter_)
     delete genTriggerEventFlagStripDCSfilter_;
 }

References dcsStatus_, genTriggerEventFlagBPTXfilter_, genTriggerEventFlagPixelDCSfilter_, and genTriggerEventFlagStripDCSfilter_.

Member Function Documentation

◆ analyze()

void SiStripMonitorCluster::analyze	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)

overridevirtual

end of layer loop

Reimplemented from DQMEDAnalyzer.

Definition at line 634 of file SiStripMonitorCluster.cc.

                                                                                        {
   // Retrieve tracker topology from geometry
   const TrackerTopology* const tTopo = &iSetup.getData(trackerTopologyEventToken_);
  
   // Filter out events if Trigger Filtering is requested
   passBPTXfilter_ = (iEvent.isRealData() and genTriggerEventFlagBPTXfilter_->on())
                         ? genTriggerEventFlagBPTXfilter_->accept(iEvent, iSetup)
                         : true;
   passPixelDCSfilter_ = (iEvent.isRealData() and genTriggerEventFlagPixelDCSfilter_->on())
                             ? genTriggerEventFlagPixelDCSfilter_->accept(iEvent, iSetup)
                             : true;
   passStripDCSfilter_ = (iEvent.isRealData() and genTriggerEventFlagStripDCSfilter_->on())
                             ? genTriggerEventFlagStripDCSfilter_->accept(iEvent, iSetup)
                             : true;
   //  std::cout << "passBPTXfilter_ ? " << passBPTXfilter_ << std::endl;
  
   // Filter out events if DCS Event if requested
   bool passDCSFilter_ = !(dcsStatus_ && !dcsStatus_->getStatus(iEvent, iSetup));
  
   runNb = iEvent.id().run();
   eventNb++;
   trendVar = trendVs10Ls_ ? iEvent.orbitNumber() / (10 * 262144.0)
                           : iEvent.orbitNumber() / (1 * 262144.0);  // 10 lumisection : lumisection
  
   int NPixClusters = 0, NStripClusters = 0, MultiplicityRegion = 0;
   bool isPixValid = false;
  
   const SiStripNoises& siStripNoises = iSetup.getData(siStripNoisesToken_);
   const SiStripGain& siStripGain = iSetup.getData(siStripGainToken_);
   const SiStripQuality& siStripQuality = iSetup.getData(siStripQualityToken_);
   const SiStripDetCabling& siStripDetCabling = iSetup.getData(siStripDetCablingEventToken_);
  
   // get collection of DetSetVector of clusters from Event
   edm::Handle<edmNew::DetSetVector<SiStripCluster> > cluster_detsetvektor;
   iEvent.getByToken(clusterProducerStripToken_, cluster_detsetvektor);
  
   // get pixel clusters
   edm::Handle<edmNew::DetSetVector<SiPixelCluster> > cluster_detsetvektor_pix;
   iEvent.getByToken(clusterProducerPixToken_, cluster_detsetvektor_pix);
  
   if (!cluster_detsetvektor.isValid())
     return;
  
   const edmNew::DetSetVector<SiStripCluster>* StrC = cluster_detsetvektor.product();
   NStripClusters = StrC->data().size();
  
   if (cluster_detsetvektor_pix.isValid()) {
     const edmNew::DetSetVector<SiPixelCluster>* PixC = cluster_detsetvektor_pix.product();
     NPixClusters = PixC->data().size();
     isPixValid = true;
     MultiplicityRegion = FindRegion(NStripClusters, NPixClusters);
  
     if (passBPTXfilter_ and passPixelDCSfilter_ and passStripDCSfilter_ and passDCSFilter_) {
       if (globalswitchcstripvscpix)
         GlobalCStripVsCpix->Fill(NStripClusters, NPixClusters);
       if (globalswitchmaindiagonalposition && NStripClusters > 0)
         GlobalMainDiagonalPosition->Fill(atan(NPixClusters / (k0 * NStripClusters)));
  
       if (globalswitchMultiRegions)
         PixVsStripMultiplicityRegions->Fill(MultiplicityRegion);
     }
  
     if (ClusterHisto_ and passDCSFilter_) {
       if (passBPTXfilter_ and passPixelDCSfilter_)
         NumberOfPixelClus->Fill(NPixClusters);
       if (passBPTXfilter_ and passStripDCSfilter_)
         NumberOfStripClus->Fill(NStripClusters);
     }
   }
   // initialise # of clusters to zero
   for (std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.begin(); iSubdet != SubDetMEsMap.end();
        iSubdet++) {
     iSubdet->second.totNClusters = 0;
   }
  
   SiStripFolderOrganizer folder_organizer;
   bool found_layer_me = false;
   // Map of cumulative clusters per fed ID.
   std::map<int, int> FEDID_v_clustersum;
  
   for (std::map<std::string, std::vector<uint32_t> >::const_iterator iterLayer = LayerDetMap.begin();
        iterLayer != LayerDetMap.end();
        iterLayer++) {
     std::string layer_label = iterLayer->first;
  
     int ncluster_layer = 0;
     std::map<std::string, LayerMEs>::iterator iLayerME = LayerMEsMap.find(layer_label);
  
     // get Layer MEs
     LayerMEs layer_single;
     if (iLayerME != LayerMEsMap.end()) {
       layer_single = iLayerME->second;
       found_layer_me = true;
     }
  
     int ncluster_ring[20] = {0};
  
     bool found_module_me = false;
     uint16_t iDet = 0;
     std::string subdet_label = "";
     // loop over all modules in the layer
     for (std::vector<uint32_t>::const_iterator iterDets = iterLayer->second.begin();
          iterDets != iterLayer->second.end();
          iterDets++) {
       iDet++;
       // detid and type of ME
       uint32_t detid = (*iterDets);
  
       // Get SubDet label once
       if (subdet_label.empty())
         subdet_label = folder_organizer.getSubDetFolderAndTag(detid, tTopo).second;
  
       // DetId and corresponding set of MEs
       ModMEs mod_single;
       if (Mod_On_) {
         std::map<uint32_t, ModMEs>::iterator imodME = ModuleMEsMap.find(detid);
         if (imodME != ModuleMEsMap.end()) {
           mod_single = imodME->second;
           found_module_me = true;
         }
       } else
         found_module_me = false;
  
       edmNew::DetSetVector<SiStripCluster>::const_iterator isearch =
           cluster_detsetvektor->find(detid);  // search  clusters of detid
  
       if (isearch == cluster_detsetvektor->end() and passDCSFilter_) {
         if (found_module_me && moduleswitchncluson && (mod_single.NumberOfClusters)) {
           (mod_single.NumberOfClusters)->Fill(0.);  // no clusters for this
                                                     // detector module,fill
                                                     // histogram with 0
         }
         if (clustertkhistomapon)
           tkmapcluster->fill(detid, 0.);
         if (clusterchtkhistomapon)
           tkmapclusterch->fill(detid, 0.);
         if (found_layer_me && layerswitchnumclusterprofon)
           layer_single.LayerNumberOfClusterProfile->Fill(iDet, 0.0);
       }
  
       if (isearch == cluster_detsetvektor->end()) {
         continue;  // no clusters for this detid => jump to next step of loop
       }
  
       // cluster_detset is a structure, cluster_detset.data is a
       // std::vector<SiStripCluster>, cluster_detset.id is uint32_t
       // edmNew::DetSet<SiStripCluster> cluster_detset =
       // (*cluster_detsetvektor)[detid]; // the statement above makes sure there
       // exists an element with 'detid'
       edmNew::DetSet<SiStripCluster> cluster_detset = (*isearch);
  
       // Get all FED connections associated with given detID.
       // All connections for a detid have same FED Id therefore one FEDID is
       // associated with a given detID. Vector of constant FedChannelConnection
       // objects to variable pointers.
       std::vector<const FedChannelConnection*> fedConnections = siStripDetCabling.getConnections(detid);
  
       // Filling FED Id associated clusters map.
  
       int good_fcc_index = -999;
       for (unsigned int x = 0; x < fedConnections.size(); x++) {
         if (fedConnections[x] != nullptr) {
           good_fcc_index = x;
           break;
         }
       }
       if (good_fcc_index != -999 && fedConnections[good_fcc_index] != nullptr) {
         int temp_fedid = fedConnections[good_fcc_index]->fedId();
         if (FEDID_v_clustersum.find(temp_fedid) != FEDID_v_clustersum.end()) {
           if (cluster_detset.size() < 1000 && !cluster_detset.empty()) {
             FEDID_v_clustersum[temp_fedid] = FEDID_v_clustersum.find(temp_fedid)->second + cluster_detset.size();
           }
         } else {
           if (cluster_detset.size() < 1000 && !cluster_detset.empty()) {
             FEDID_v_clustersum[temp_fedid] = cluster_detset.size();
           }
         }
       } else {
         edm::LogInfo("SiStripMonitorCluster") << "SiStripMonitorCluster::analyze WARNING! no good connections "
                                                  "for detid = "
                                               << detid << endl;
       }
  
       // Filling TkHistoMap with number of clusters for each module
       if (clustertkhistomapon and passDCSFilter_) {
         tkmapcluster->fill(detid, static_cast<float>(cluster_detset.size()));
       }
  
       if (moduleswitchncluson && found_module_me && (mod_single.NumberOfClusters != nullptr) &&
           passDCSFilter_) {  // nr. of clusters per module
         (mod_single.NumberOfClusters)->Fill(static_cast<float>(cluster_detset.size()));
       }
  
       if (found_layer_me && layerswitchnumclusterprofon && passDCSFilter_)
         layer_single.LayerNumberOfClusterProfile->Fill(iDet, static_cast<float>(cluster_detset.size()));
       ncluster_layer += cluster_detset.size();
  
       short total_clusterized_strips = 0;
  
       SiStripNoises::Range detNoiseRange = siStripNoises.getRange(detid);
       SiStripApvGain::Range detGainRange = siStripGain.getRange(detid);
       SiStripQuality::Range qualityRange = siStripQuality.getRange(detid);
  
       for (edmNew::DetSet<SiStripCluster>::const_iterator clusterIter = cluster_detset.begin();
            clusterIter != cluster_detset.end();
            clusterIter++) {
         const auto& ampls = clusterIter->amplitudes();
         // cluster position
         float cluster_position = clusterIter->barycenter();
         // start defined as nr. of first strip beloning to the cluster
         short cluster_start = clusterIter->firstStrip();
         // width defined as nr. of strips that belong to cluster
         short cluster_width = ampls.size();
         // add nr of strips of this cluster to total nr. of clusterized strips
         total_clusterized_strips = total_clusterized_strips + cluster_width;
  
         if (clusterchtkhistomapon and passDCSFilter_)
           tkmapclusterch->fill(detid, static_cast<float>(clusterIter->charge()));
  
         // cluster signal and noise from the amplitudes
         float cluster_signal = 0.0;
         float cluster_noise = 0.0;
         int nrnonzeroamplitudes = 0;
         float noise2 = 0.0;
         float noise = 0.0;
         for (uint iamp = 0; iamp < ampls.size(); iamp++) {
           if (ampls[iamp] > 0) {  // nonzero amplitude
             cluster_signal += ampls[iamp];
             if (!siStripQuality.IsStripBad(qualityRange, clusterIter->firstStrip() + iamp)) {
               noise = siStripNoises.getNoise(clusterIter->firstStrip() + iamp, detNoiseRange) /
                       siStripGain.getStripGain(clusterIter->firstStrip() + iamp, detGainRange);
             }
             noise2 += noise * noise;
             nrnonzeroamplitudes++;
           }
         }  // End loop over cluster amplitude
  
         if (nrnonzeroamplitudes > 0)
           cluster_noise = sqrt(noise2 / nrnonzeroamplitudes);
  
         if (applyClusterQuality_ &&
             (cluster_signal / cluster_noise < sToNLowerLimit_ || cluster_signal / cluster_noise > sToNUpperLimit_ ||
              cluster_width < widthLowerLimit_ || cluster_width > widthUpperLimit_))
           continue;
  
         ClusterProperties cluster_properties;
         cluster_properties.charge = cluster_signal;
         cluster_properties.position = cluster_position;
         cluster_properties.start = cluster_start;
         cluster_properties.width = cluster_width;
         cluster_properties.noise = cluster_noise;
  
         // Fill Module Level MEs
         if (found_module_me and passDCSFilter_)
           fillModuleMEs(mod_single, cluster_properties);
  
         // Fill Layer Level MEs
         if (found_layer_me and passDCSFilter_) {
           fillLayerMEs(layer_single, cluster_properties);
           if (layerswitchclusterwidthprofon)
             layer_single.LayerClusterWidthProfile->Fill(iDet, cluster_width);
         }
  
         if (subdetswitchcluschargeon || subdetswitchcluswidthon) {
           std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.find(subdet_label);
           if (iSubdet != SubDetMEsMap.end()) {
             if (subdetswitchcluschargeon and passDCSFilter_)
               iSubdet->second.SubDetClusterChargeTH1->Fill(cluster_signal);
             if (subdetswitchcluswidthon and passDCSFilter_)
               iSubdet->second.SubDetClusterWidthTH1->Fill(cluster_width);
           }
         }
  
         if (subdet_clusterWidth_vs_amplitude_on and passDCSFilter_) {
           std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.find(subdet_label);
           if (iSubdet != SubDetMEsMap.end())
             iSubdet->second.SubDetClusWidthVsAmpTH2->Fill(cluster_signal, cluster_width);
         }
  
         if (clusterWidth_vs_amplitude_on and passDCSFilter_) {
           ClusWidthVsAmpTH2->Fill(cluster_signal, cluster_width);
         }
  
         if (subdetswitchtotclusprofon &&
             (subdet_label.find("TID") != std::string::npos || subdet_label.find("TEC") != std::string::npos)) {
           std::pair<std::string, int32_t> det_ring_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, true);
           ncluster_ring[std::abs(det_ring_pair.second)]++;
         }
  
       }  // end loop over clusters
  
       if (subdetswitchtotclusprofon) {
         std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.find(subdet_label);
         std::pair<std::string, int32_t> det_layer_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo);
         iSubdet->second.SubDetNumberOfClusterPerLayerTrend->Fill(
             trendVar, std::abs(det_layer_pair.second), ncluster_layer);
       }
  
       if (subdetswitchtotclusprofon &&
           (subdet_label.find("TID") != std::string::npos || subdet_label.find("TEC") != std::string::npos)) {
         std::pair<std::string, int32_t> det_ring_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo, true);
         layer_single.LayerNumberOfClusterPerRingTrend->Fill(
             trendVar, std::abs(det_ring_pair.second), ncluster_ring[std::abs(det_ring_pair.second)]);
       }
  
       short total_nr_strips = siStripDetCabling.nApvPairs(detid) * 2 * 128;  // get correct # of avp pairs
       float local_occupancy = static_cast<float>(total_clusterized_strips) / static_cast<float>(total_nr_strips);
       if (found_module_me and passDCSFilter_) {
         if (moduleswitchnrclusterizedstrip && mod_single.NrOfClusterizedStrips) {  // nr of clusterized strips
           mod_single.NrOfClusterizedStrips->Fill(static_cast<float>(total_clusterized_strips));
         }
  
         if (moduleswitchlocaloccupancy && mod_single.ModuleLocalOccupancy) {  // Occupancy
           mod_single.ModuleLocalOccupancy->Fill(local_occupancy);
         }
       }
       if (layerswitchlocaloccupancy && found_layer_me && layer_single.LayerLocalOccupancy && passDCSFilter_) {
         fillME(layer_single.LayerLocalOccupancy, local_occupancy);
         if (createTrendMEs)
           fillME(layer_single.LayerLocalOccupancyTrend, trendVar, local_occupancy);
       }
     }
  
     if (subdetswitchtotclusprofon)
       fillME(layer_single.LayerNumberOfClusterTrend, trendVar, ncluster_layer);
  
     std::map<std::string, SubDetMEs>::iterator iSubdet = SubDetMEsMap.find(subdet_label);
     if (iSubdet != SubDetMEsMap.end())
       iSubdet->second.totNClusters += ncluster_layer;
   }  
  
   //  EventHistory
   edm::Handle<EventWithHistory> event_history;
   iEvent.getByToken(historyProducerToken_, event_history);
  
   // Phase of APV
   edm::Handle<APVCyclePhaseCollection> apv_phase_collection;
   iEvent.getByToken(apvPhaseProducerToken_, apv_phase_collection);
  
   if (event_history.isValid() && !event_history.failedToGet() && apv_phase_collection.isValid() &&
       !apv_phase_collection.failedToGet()) {
     long long dbx = event_history->deltaBX();
     long long tbx = event_history->absoluteBX();
  
     bool global_histo_filled = false;
     bool MultiplicityRegion_Vs_APVcycle_filled = false;
  
     // plot n 2
     if (passBPTXfilter_ and passPixelDCSfilter_ and passStripDCSfilter_ && passDCSFilter_) {
       if (globalswitchcstripvscpix)
         GlobalABXTH1_CSCP->Fill(tbx % 3564);
     }
     // plot n 2
  
     for (std::map<std::string, SubDetMEs>::iterator it = SubDetMEsMap.begin(); it != SubDetMEsMap.end(); it++) {
       std::string sdet = it->first;
       // std::string sdet = sdet_tag.substr(0,sdet_tag.find_first_of("_"));
       SubDetMEs sdetmes = it->second;
  
       int the_phase = APVCyclePhaseCollection::invalid;
       long long tbx_corr = tbx;
  
       if (SubDetPhasePartMap.find(sdet) != SubDetPhasePartMap.end())
         the_phase = apv_phase_collection->getPhase(SubDetPhasePartMap[sdet]);
       if (the_phase == APVCyclePhaseCollection::nopartition || the_phase == APVCyclePhaseCollection::multiphase ||
           the_phase == APVCyclePhaseCollection::invalid) {
         the_phase = 30;
         // std::cout << " subdet " << it->first << " not valid" << " MR " <<
         // MultiplicityRegion <<std::endl;
       }
       tbx_corr -= the_phase;
  
       long long dbxincycle = event_history->deltaBXinCycle(the_phase);
       // std::cout<<"dbx in cycle: " << dbxincycle << std::endl;
       if (globalswitchapvcycledbxth2on && !global_histo_filled && passDCSFilter_) {
         GlobalApvCycleDBxTH2->Fill(tbx_corr % 70, dbx);
         GlobalDBxTH1->Fill(dbx);
         GlobalDBxCycleTH1->Fill(dbxincycle);
         global_histo_filled = true;
       }
  
       // Fill MainDiagonalPosition plots ***************
       if (cluster_detsetvektor_pix.isValid()) {
         if (ClusterHisto_) {
           if (passBPTXfilter_ and passStripDCSfilter_ and passDCSFilter_) {
             NumberOfStripClus_vs_BX->Fill(tbx % 3564, NStripClusters);
             if (passPixelDCSfilter_) {
               NumberOfPixelClus_vs_BX->Fill(tbx % 3564, NPixClusters);
               if (globalswitchmaindiagonalposition && NStripClusters > 0) {
                 GlobalMainDiagonalPosition_vs_BX->Fill(tbx % 3564, atan(NPixClusters / (k0 * NStripClusters)));
                 GlobalTH2MainDiagonalPosition_vs_BX->Fill(tbx % 3564, atan(NPixClusters / (k0 * NStripClusters)));
               }
             }
           }
  
           // Filling # clusters per FED ID histogram from FED Id clusters map
           // (for all layers simultaneously).
           map<int, int>::iterator it;
           // for(it=FEDID_v_clustersum.begin(); it!=FEDID_v_clustersum.end();
           // it++){
           for (auto const& fedidEntry : FEDID_v_clustersum) {
             // NumberOfFEDClus->Fill(it->first,it->second);
             if (passDCSFilter_)
               NumberOfFEDClus->Fill(fedidEntry.first, fedidEntry.second);
             // if(it->first < 100){
             //  Trend_NumberOfFEDClus->Fill(trendVar,it->first,it->second);
             //}
           }
           FEDID_v_clustersum.clear();
         }
       }
  
       if (isPixValid && !MultiplicityRegion_Vs_APVcycle_filled && passDCSFilter_) {
         if (globalswitchstripnoise2apvcycle && MultiplicityRegion == 2) {
           StripNoise2Cycle->Fill(tbx_corr % 70);
         }
         if (globalswitchstripnoise3apvcycle && MultiplicityRegion == 3) {
           StripNoise3Cycle->Fill(tbx_corr % 70);
         }
         MultiplicityRegion_Vs_APVcycle_filled = true;
       }
  
       if (subdetswitchtotclusth1on and passDCSFilter_)
         sdetmes.SubDetTotClusterTH1->Fill(sdetmes.totNClusters);
       if (subdetswitchtotclusprofon)
         sdetmes.SubDetTotClusterProf->Fill(trendVar, sdetmes.totNClusters);
       if (subdetswitchapvcycleprofon and passDCSFilter_)
         sdetmes.SubDetClusterApvProf->Fill(tbx_corr % 70, sdetmes.totNClusters);
       if (subdetswitchapvcycleth2on and passDCSFilter_)
         sdetmes.SubDetClusterApvTH2->Fill(tbx_corr % 70, sdetmes.totNClusters);
       if (subdetswitchdbxcycleprofon and passDCSFilter_) {
         sdetmes.SubDetClusterDBxCycleProf->Fill(dbxincycle, sdetmes.totNClusters);
       }
       if (subdetswitchapvcycledbxprof2on and passDCSFilter_)
         sdetmes.SubDetApvDBxProf2->Fill(tbx_corr % 70, dbx, sdetmes.totNClusters);
     }
  
     if (globalswitchnclusvscycletimeprof2don and passDCSFilter_) {
       long long tbx_corr = tbx;
       int the_phase = apv_phase_collection->getPhase("All");
  
       if (the_phase == APVCyclePhaseCollection::nopartition || the_phase == APVCyclePhaseCollection::multiphase ||
           the_phase == APVCyclePhaseCollection::invalid)
         the_phase = 30;
  
       tbx_corr -= the_phase;
  
       NclusVsCycleTimeProf2D->Fill(tbx_corr % 70, (int)event_history->_orbit, NStripClusters);
     }
   }
 }

◆ bookHistograms()

void SiStripMonitorCluster::bookHistograms	(	DQMStore::IBooker &	ibooker,
		edm::Run const &	run,
		edm::EventSetup const &	es
	)

overridevirtual

Implements DQMEDAnalyzer.

Definition at line 614 of file SiStripMonitorCluster.cc.

                                                                                                                {
   if (show_mechanical_structure_view) {
     unsigned long long cacheID = es.get<SiStripDetCablingRcd>().cacheIdentifier();
     if (m_cacheID_ != cacheID) {
       m_cacheID_ = cacheID;
       edm::LogInfo("SiStripMonitorCluster") << "SiStripMonitorCluster::bookHistograms: "
                                             << " Creating MEs for new Cabling ";
  
       createMEs(es, ibooker);
     }
   } else if (reset_each_run) {
     edm::LogInfo("SiStripMonitorCluster") << "SiStripMonitorCluster::bookHistograms: "
                                           << " Resetting MEs ";
     for (std::map<uint32_t, ModMEs>::const_iterator idet = ModuleMEsMap.begin(); idet != ModuleMEsMap.end(); idet++) {
       ResetModuleMEs(idet->first);
     }
   }
 }

References createMEs(), edm::EventSetup::get(), m_cacheID_, ModuleMEsMap, reset_each_run, ResetModuleMEs(), and show_mechanical_structure_view.

◆ bookME1D()

SiStripMonitorCluster::MonitorElement * SiStripMonitorCluster::bookME1D	(	const char *	ParameterSetLabel,
		const char *	HistoName,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 1618 of file SiStripMonitorCluster.cc.

                                                                                                  {
   Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
   return ibooker.book1D(HistoName,
                         HistoName,
                         Parameters.getParameter<int32_t>("Nbinx"),
                         Parameters.getParameter<double>("xmin"),
                         Parameters.getParameter<double>("xmax"));
 }

References dqm::implementation::IBooker::book1D(), conf_, and edm::ParameterSet::getParameter().

Referenced by createLayerMEs(), createModuleMEs(), and createSubDetMEs().

◆ bookME2D()

SiStripMonitorCluster::MonitorElement * SiStripMonitorCluster::bookME2D	(	const char *	ParameterSetLabel,
		const char *	HistoName,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 1630 of file SiStripMonitorCluster.cc.

                                                                                                  {
   Parameters = conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
   return ibooker.book2D(HistoName,
                         HistoName,
                         Parameters.getParameter<int32_t>("Nbinsx"),
                         Parameters.getParameter<double>("xmin"),
                         Parameters.getParameter<double>("xmax"),
                         Parameters.getParameter<int32_t>("Nbinsy"),
                         Parameters.getParameter<double>("ymin"),
                         Parameters.getParameter<double>("ymax"));
 }

References dqm::implementation::IBooker::book2D(), conf_, and edm::ParameterSet::getParameter().

Referenced by createLayerMEs().

◆ bookMETrend()

SiStripMonitorCluster::MonitorElement * SiStripMonitorCluster::bookMETrend	(	const char *	HistoName,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 1597 of file SiStripMonitorCluster.cc.

                                                                                                     {
   edm::ParameterSet ParametersTrend = trendVs10Ls_ ? conf_.getParameter<edm::ParameterSet>("TrendingLS")
                                                    : conf_.getParameter<edm::ParameterSet>("Trending");
   MonitorElement* me = ibooker.bookProfile(HistoName,
                                            HistoName,
                                            ParametersTrend.getParameter<int32_t>("Nbins"),
                                            ParametersTrend.getParameter<double>("xmin"),
                                            ParametersTrend.getParameter<double>("xmax"),
                                            0,
                                            0,
                                            "");
   if (!me)
     return me;
   me->setAxisTitle(ParametersTrend.getParameter<std::string>("xaxis"), 1);
   if (me->kind() == MonitorElement::Kind::TPROFILE)
     me->setCanExtend(TH1::kAllAxes);
   return me;
 }

References dqm::implementation::IBooker::bookProfile(), conf_, edm::ParameterSet::getParameter(), hlt_dqm_clientPB-live_cfg::me, AlCaHLTBitMon_QueryRunRegistry::string, MonitorElementData::TPROFILE, and trendVs10Ls_.

Referenced by createLayerMEs().

◆ createLayerMEs()

void SiStripMonitorCluster::createLayerMEs	(	std::string	label,
		int	ndets,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 1231 of file SiStripMonitorCluster.cc.

                                                                                                {
   SiStripHistoId hidmanager;
  
   LayerMEs layerMEs;
   layerMEs.LayerClusterStoN = nullptr;
   layerMEs.LayerClusterStoNTrend = nullptr;
   layerMEs.LayerClusterCharge = nullptr;
   layerMEs.LayerClusterChargeTrend = nullptr;
   layerMEs.LayerClusterNoise = nullptr;
   layerMEs.LayerClusterNoiseTrend = nullptr;
   layerMEs.LayerClusterWidth = nullptr;
   layerMEs.LayerClusterWidthTrend = nullptr;
   layerMEs.LayerLocalOccupancy = nullptr;
   layerMEs.LayerLocalOccupancyTrend = nullptr;
   layerMEs.LayerNumberOfClusterProfile = nullptr;
   layerMEs.LayerNumberOfClusterTrend = nullptr;
   layerMEs.LayerNumberOfClusterPerRingTrend = nullptr;
   layerMEs.LayerClusterWidthProfile = nullptr;
   layerMEs.LayerClusWidthVsAmpTH2 = nullptr;
   layerMEs.LayerClusterPosition = nullptr;
  
   // Cluster Width
   if (layerswitchcluswidthon) {
     layerMEs.LayerClusterWidth = bookME1D(
         "TH1ClusterWidth", hidmanager.createHistoLayer("Summary_ClusterWidth", "layer", label, "").c_str(), ibooker);
     if (createTrendMEs)
       layerMEs.LayerClusterWidthTrend =
           bookMETrend(hidmanager.createHistoLayer("Trend_ClusterWidth", "layer", label, "").c_str(), ibooker);
   }
  
   // Cluster Noise
   if (layerswitchclusnoiseon) {
     layerMEs.LayerClusterNoise = bookME1D(
         "TH1ClusterNoise", hidmanager.createHistoLayer("Summary_ClusterNoise", "layer", label, "").c_str(), ibooker);
     if (createTrendMEs)
       layerMEs.LayerClusterNoiseTrend =
           bookMETrend(hidmanager.createHistoLayer("Trend_ClusterNoise", "layer", label, "").c_str(), ibooker);
   }
  
   // Cluster Charge
   if (layerswitchcluschargeon) {
     layerMEs.LayerClusterCharge = bookME1D(
         "TH1ClusterCharge", hidmanager.createHistoLayer("Summary_ClusterCharge", "layer", label, "").c_str(), ibooker);
     if (createTrendMEs)
       layerMEs.LayerClusterChargeTrend =
           bookMETrend(hidmanager.createHistoLayer("Trend_ClusterCharge", "layer", label, "").c_str(), ibooker);
   }
  
   // Cluster StoN
   if (layerswitchclusstonon) {
     layerMEs.LayerClusterStoN =
         bookME1D("TH1ClusterStoN",
                  hidmanager.createHistoLayer("Summary_ClusterSignalOverNoise", "layer", label, "").c_str(),
                  ibooker);
     if (createTrendMEs)
       layerMEs.LayerClusterStoNTrend =
           bookMETrend(hidmanager.createHistoLayer("Trend_ClusterSignalOverNoise", "layer", label, "").c_str(), ibooker);
   }
  
   // Cluster Occupancy
   if (layerswitchlocaloccupancy) {
     layerMEs.LayerLocalOccupancy =
         bookME1D("TH1ModuleLocalOccupancy",
                  hidmanager.createHistoLayer("Summary_ClusterLocalOccupancy", "layer", label, "").c_str(),
                  ibooker);
     if (createTrendMEs)
       layerMEs.LayerLocalOccupancyTrend =
           bookMETrend(hidmanager.createHistoLayer("Trend_ClusterLocalOccupancy", "layer", label, "").c_str(), ibooker);
   }
  
   // # of Cluster Profile
   if (layerswitchnumclusterprofon) {
     std::string hid = hidmanager.createHistoLayer("NumberOfClusterProfile", "layer", label, "");
     layerMEs.LayerNumberOfClusterProfile = ibooker.bookProfile(hid, hid, ndets, 0.5, ndets + 0.5, 21, -0.5, 20.5);
   }
  
   // # of Cluster Trend
   if (subdetswitchtotclusprofon) {
     layerMEs.LayerNumberOfClusterTrend =
         bookMETrend(hidmanager.createHistoLayer("NumberOfClusterTrend", "layer", label, "").c_str(), ibooker);
  
     if (label.find("TID") != std::string::npos || label.find("TEC") != std::string::npos) {
       edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("NumberOfClusterPerRingVsTrendVar");
  
       layerMEs.LayerNumberOfClusterPerRingTrend = ibooker.bookProfile2D(
           "NumberOfClusterPerRingVsTrendVar",
           hidmanager.createHistoLayer("NumberOfClusterPerRing_vs_TrendVar", "layer", label, "").c_str(),
           Parameters.getParameter<int32_t>("Nbinsx"),
           Parameters.getParameter<double>("xmin"),
           Parameters.getParameter<double>("xmax"),
           Parameters.getParameter<int32_t>("Nbinsy"),
           Parameters.getParameter<double>("ymin"),
           Parameters.getParameter<double>("ymax"),
           0,
           0,
           "");
     }
   }
  
   // Cluster Width Profile
   if (layerswitchclusterwidthprofon) {
     std::string hid = hidmanager.createHistoLayer("ClusterWidthProfile", "layer", label, "");
     layerMEs.LayerClusterWidthProfile = ibooker.bookProfile(hid, hid, ndets, 0.5, ndets + 0.5, 20, -0.5, 19.5);
   }
  
   if (layer_clusterWidth_vs_amplitude_on) {
     layerMEs.LayerClusWidthVsAmpTH2 =
         bookME2D("ClusWidthVsAmpTH2",
                  hidmanager.createHistoLayer("ClusterWidths_vs_Amplitudes", "layer", label, "").c_str(),
                  ibooker);
   }
  
   // Cluster Position
   if (layerswitchclusposon) {
     std::string hid = hidmanager.createHistoLayer("ClusterPosition", "layer", label, "");
     layerMEs.LayerClusterPosition = ibooker.book1D(hid, hid, 128 * 6, 0.5, 128 * 6 + 0.5);
   }
  
   LayerMEsMap[label] = layerMEs;
 }

Referenced by createMEs().

◆ createMEs()

void SiStripMonitorCluster::createMEs	(	const edm::EventSetup &	es,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 250 of file SiStripMonitorCluster.cc.

                                                                                        {
   if (show_mechanical_structure_view) {
     const TrackerTopology* const tTopo = &es.getData(trackerTopologyRunToken_);
     const TkDetMap* tkDetMap = &es.getData(tkDetMapToken_);
     const SiStripDetCabling& siStripDetCabling = es.getData(siStripDetCablingRunToken_);
  
     // get list of active detectors from SiStripDetCabling
     std::vector<uint32_t> activeDets;
     siStripDetCabling.addActiveDetectorsRawIds(activeDets);
  
     SiStripFolderOrganizer folder_organizer;
     folder_organizer.setSiStripFolderName(topFolderName_);
     folder_organizer.setSiStripFolder();
  
     // Create TkHistoMap for Cluster
     if (clustertkhistomapon) {
       //      std::cout << "[SiStripMonitorCluster::createMEs] topFolderName_: "
       //      << topFolderName_ << "     ";
       if ((topFolderName_ == "SiStrip") or (std::string::npos != topFolderName_.find("HLT")))
         tkmapcluster =
             std::make_unique<TkHistoMap>(tkDetMap, ibooker, topFolderName_, "TkHMap_NumberOfCluster", 0., true);
       else
         tkmapcluster = std::make_unique<TkHistoMap>(
             tkDetMap, ibooker, topFolderName_ + "/TkHistoMap", "TkHMap_NumberOfCluster", 0., false);
     }
     if (clusterchtkhistomapon) {
       if ((topFolderName_ == "SiStrip") or (std::string::npos != topFolderName_.find("HLT")))
         tkmapclusterch =
             std::make_unique<TkHistoMap>(tkDetMap, ibooker, topFolderName_, "TkHMap_ClusterCharge", 0., true);
       else
         tkmapclusterch = std::make_unique<TkHistoMap>(
             tkDetMap, ibooker, topFolderName_ + "/TkHistoMap", "TkHMap_ClusterCharge", 0., false);
     }
  
     // loop over detectors and book MEs
     edm::LogInfo("SiStripTkDQM|SiStripMonitorCluster") << "nr. of activeDets:  " << activeDets.size();
     for (std::vector<uint32_t>::iterator detid_iterator = activeDets.begin(); detid_iterator != activeDets.end();
          detid_iterator++) {
       uint32_t detid = (*detid_iterator);
       // remove any eventual zero elements - there should be none, but just in
       // case
       if (detid == 0) {
         activeDets.erase(detid_iterator);
         continue;
       }
  
       if (Mod_On_) {
         ModMEs mod_single;
         // set appropriate folder using SiStripFolderOrganizer
         folder_organizer.setDetectorFolder(detid, tTopo);  // pass the detid to this method
         if (reset_each_run)
           ResetModuleMEs(detid);
         createModuleMEs(mod_single, detid, ibooker, siStripDetCabling);
         // append to ModuleMEsMap
         ModuleMEsMap.insert(std::make_pair(detid, mod_single));
       }
  
       // Create Layer Level MEs if they are not created already
       std::pair<std::string, int32_t> det_layer_pair = folder_organizer.GetSubDetAndLayer(detid, tTopo);
       SiStripHistoId hidmanager;
       std::string label = hidmanager.getSubdetid(detid, tTopo, false);
  
       std::map<std::string, LayerMEs>::iterator iLayerME = LayerMEsMap.find(label);
       if (iLayerME == LayerMEsMap.end()) {
         // get detids for the layer
         int32_t lnumber = det_layer_pair.second;
         std::vector<uint32_t> layerDetIds;
         if (det_layer_pair.first == "TIB") {
           SiStripSubStructure::getTIBDetectors(activeDets, layerDetIds, tTopo, lnumber, 0, 0, 0);
         } else if (det_layer_pair.first == "TOB") {
           SiStripSubStructure::getTOBDetectors(activeDets, layerDetIds, tTopo, lnumber, 0, 0);
         } else if (det_layer_pair.first == "TID" && lnumber > 0) {
           SiStripSubStructure::getTIDDetectors(activeDets, layerDetIds, tTopo, 2, std::abs(lnumber), 0, 0);
         } else if (det_layer_pair.first == "TID" && lnumber < 0) {
           SiStripSubStructure::getTIDDetectors(activeDets, layerDetIds, tTopo, 1, std::abs(lnumber), 0, 0);
         } else if (det_layer_pair.first == "TEC" && lnumber > 0) {
           SiStripSubStructure::getTECDetectors(activeDets, layerDetIds, tTopo, 2, std::abs(lnumber), 0, 0, 0, 0);
         } else if (det_layer_pair.first == "TEC" && lnumber < 0) {
           SiStripSubStructure::getTECDetectors(activeDets, layerDetIds, tTopo, 1, std::abs(lnumber), 0, 0, 0, 0);
         }
         LayerDetMap[label] = layerDetIds;
  
         // book Layer MEs
         folder_organizer.setLayerFolder(detid, tTopo, det_layer_pair.second);
         createLayerMEs(label, layerDetIds.size(), ibooker);
       }
       // book sub-detector plots
       auto sdet_pair = folder_organizer.getSubDetFolderAndTag(detid, tTopo);
       if (SubDetMEsMap.find(sdet_pair.second) == SubDetMEsMap.end()) {
         ibooker.setCurrentFolder(sdet_pair.first);
  
         createSubDetMEs(sdet_pair.second, ibooker);
       }
     }  // end of loop over detectors
  
     // Create Global Histogram
     if (globalswitchapvcycledbxth2on) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH2Parameters = conf_.getParameter<edm::ParameterSet>("TH2ApvCycleVsDBxGlobal");
       std::string HistoName = "DeltaBx_vs_ApvCycle";
       GlobalApvCycleDBxTH2 = ibooker.book2D(HistoName,
                                             HistoName,
                                             GlobalTH2Parameters.getParameter<int32_t>("Nbinsx"),
                                             GlobalTH2Parameters.getParameter<double>("xmin"),
                                             GlobalTH2Parameters.getParameter<double>("xmax"),
                                             GlobalTH2Parameters.getParameter<int32_t>("Nbinsy"),
                                             GlobalTH2Parameters.getParameter<double>("ymin"),
                                             GlobalTH2Parameters.getParameter<double>("ymax"));
       GlobalApvCycleDBxTH2->setAxisTitle("APV Cycle (Corrected Absolute Bx % 70)", 1);
       GlobalApvCycleDBxTH2->setAxisTitle("Delta Bunch Crossing Cycle", 2);
  
       // plot DeltaBX ***************************
       edm::ParameterSet GlobalTH1Parameters = conf_.getParameter<edm::ParameterSet>("TH1DBxGlobal");
       HistoName = "DeltaBx";
       GlobalDBxTH1 = ibooker.book1D(HistoName,
                                     HistoName,
                                     GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                     GlobalTH1Parameters.getParameter<double>("xmin"),
                                     GlobalTH1Parameters.getParameter<double>("xmax"));
       GlobalDBxTH1->setAxisTitle("Delta Bunch Crossing", 1);
  
       // plot DeltaBXCycle ***************************
       edm::ParameterSet DBxCycle = conf_.getParameter<edm::ParameterSet>("TH1DBxCycleGlobal");
       HistoName = "DeltaBxCycle";
       GlobalDBxCycleTH1 = ibooker.book1D(HistoName,
                                          HistoName,
                                          DBxCycle.getParameter<int32_t>("Nbinsx"),
                                          DBxCycle.getParameter<double>("xmin"),
                                          DBxCycle.getParameter<double>("xmax"));
       GlobalDBxCycleTH1->setAxisTitle("Delta Bunch Crossing Cycle", 1);
     }
  
     if (globalswitchcstripvscpix) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH2Parameters = conf_.getParameter<edm::ParameterSet>("TH2CStripVsCpixel");
       std::string HistoName = "StripClusVsPixClus";
       GlobalCStripVsCpix = ibooker.book2D(HistoName,
                                           HistoName,
                                           GlobalTH2Parameters.getParameter<int32_t>("Nbinsx"),
                                           GlobalTH2Parameters.getParameter<double>("xmin"),
                                           GlobalTH2Parameters.getParameter<double>("xmax"),
                                           GlobalTH2Parameters.getParameter<int32_t>("Nbinsy"),
                                           GlobalTH2Parameters.getParameter<double>("ymin"),
                                           GlobalTH2Parameters.getParameter<double>("ymax"));
       GlobalCStripVsCpix->setAxisTitle("Strip Clusters", 1);
       GlobalCStripVsCpix->setAxisTitle("Pix Clusters", 2);
  
       // Absolute Bunch Crossing ***********************
       edm::ParameterSet GlobalTH1Parameters = conf_.getParameter<edm::ParameterSet>("TH1ABx_CSCP");
       HistoName = "AbsoluteBx_CStripVsCpixel";
       GlobalABXTH1_CSCP = ibooker.book1D(HistoName,
                                          HistoName,
                                          GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                          GlobalTH1Parameters.getParameter<double>("xmin"),
                                          GlobalTH1Parameters.getParameter<double>("xmax"));
       GlobalABXTH1_CSCP->setAxisTitle("Absolute Bunch Crossing", 1);
     }
  
     if (globalswitchMultiRegions) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH2Parameters = conf_.getParameter<edm::ParameterSet>("TH1MultiplicityRegions");
       std::string HistoName = "ClusterMultiplicityRegions";
       PixVsStripMultiplicityRegions = ibooker.book1D(HistoName,
                                                      HistoName,
                                                      GlobalTH2Parameters.getParameter<int32_t>("Nbinx"),
                                                      GlobalTH2Parameters.getParameter<double>("xmin"),
                                                      GlobalTH2Parameters.getParameter<double>("xmax"));
       PixVsStripMultiplicityRegions->setAxisTitle("");
       PixVsStripMultiplicityRegions->setBinLabel(1, "Main Diagonal");
       PixVsStripMultiplicityRegions->setBinLabel(2, "Strip Noise");
       PixVsStripMultiplicityRegions->setBinLabel(3, "High Strip Noise");
       PixVsStripMultiplicityRegions->setBinLabel(4, "Beam Background");
       PixVsStripMultiplicityRegions->setBinLabel(5, "No Strip Clusters");
     }
  
     if (globalswitchmaindiagonalposition) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH1Parameters = conf_.getParameter<edm::ParameterSet>("TH1MainDiagonalPosition");
       std::string HistoName = "MainDiagonal Position";
       GlobalMainDiagonalPosition = ibooker.book1D(HistoName,
                                                   HistoName,
                                                   GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                                   GlobalTH1Parameters.getParameter<double>("xmin"),
                                                   GlobalTH1Parameters.getParameter<double>("xmax"));
       GlobalMainDiagonalPosition->setAxisTitle("atan(NPix/(k*NStrip))");
  
       // PLOT MainDiagonalPosition_vs_BX ***************************
       edm::ParameterSet GlobalTProfParameters = conf_.getParameter<edm::ParameterSet>("TProfMainDiagonalPosition");
       HistoName = "MainDiagonalPosition_vs_BX";
       GlobalMainDiagonalPosition_vs_BX = ibooker.bookProfile(HistoName,
                                                              HistoName,
                                                              GlobalTProfParameters.getParameter<int32_t>("Nbinsx"),
                                                              GlobalTProfParameters.getParameter<double>("xmin"),
                                                              GlobalTProfParameters.getParameter<double>("xmax"),
                                                              GlobalTProfParameters.getParameter<int32_t>("Nbinsy"),
                                                              GlobalTProfParameters.getParameter<double>("ymin"),
                                                              GlobalTProfParameters.getParameter<double>("ymax"));
  
       GlobalMainDiagonalPosition_vs_BX->setAxisTitle("Absolute BX", 1);
       GlobalMainDiagonalPosition_vs_BX->setAxisTitle("tan^{-1}(NPix/k*NStrip))", 2);
  
       edm::ParameterSet GlobalTH2Parameters = conf_.getParameter<edm::ParameterSet>("TH2MainDiagonalPosition");
       HistoName = "TH2MainDiagonalPosition_vs_BX";
       GlobalTH2MainDiagonalPosition_vs_BX = ibooker.book2D(HistoName,
                                                            HistoName,
                                                            GlobalTH2Parameters.getParameter<int32_t>("Nbinsx"),
                                                            GlobalTH2Parameters.getParameter<double>("xmin"),
                                                            GlobalTH2Parameters.getParameter<double>("xmax"),
                                                            GlobalTH2Parameters.getParameter<int32_t>("Nbinsy"),
                                                            GlobalTH2Parameters.getParameter<double>("ymin"),
                                                            GlobalTH2Parameters.getParameter<double>("ymax"));
       GlobalTH2MainDiagonalPosition_vs_BX->setAxisTitle("Absolute BX", 1);
       GlobalTH2MainDiagonalPosition_vs_BX->setAxisTitle("tan^{-1}(NPix/k*NStrip))", 2);
     }
  
     // TO BE ADDED !!!
     /*
     if ( globalswitchapvcycledbxth2on or globalswitchcstripvscpix or
     globalswitchMultiRegions or ClusterHisto_ ) {
     ibooker.setCurrentFolder(topFolderName_+"/MechanicalView/");
       std::string HistoName = "BPTX rate";
       BPTXrateTrend = ibooker.bookProfile(HistoName,HistoName, LSBin, LSMin,
     LSMax, 0, 10000.,""); BPTXrateTrend->getTH1()->SetCanExtend(TH1::kAllAxes);
       BPTXrateTrend->setAxisTitle("#Lumi section",1);
       BPTXrateTrend->setAxisTitle("Number of BPTX events per LS",2);
     }
     */
  
     if (globalswitchstripnoise2apvcycle) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH1Parameters = conf_.getParameter<edm::ParameterSet>("TH1StripNoise2ApvCycle");
       std::string HistoName = "StripNoise_ApvCycle";
       StripNoise2Cycle = ibooker.book1D(HistoName,
                                         HistoName,
                                         GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                         GlobalTH1Parameters.getParameter<double>("xmin"),
                                         GlobalTH1Parameters.getParameter<double>("xmax"));
       StripNoise2Cycle->setAxisTitle("APV Cycle");
     }
  
     if (globalswitchstripnoise3apvcycle) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet GlobalTH1Parameters = conf_.getParameter<edm::ParameterSet>("TH1StripNoise3ApvCycle");
       std::string HistoName = "HighStripNoise_ApvCycle";
       StripNoise3Cycle = ibooker.book1D(HistoName,
                                         HistoName,
                                         GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                         GlobalTH1Parameters.getParameter<double>("xmin"),
                                         GlobalTH1Parameters.getParameter<double>("xmax"));
       StripNoise3Cycle->setAxisTitle("APV Cycle");
     }
  
     if (globalswitchnclusvscycletimeprof2don) {
       const char* HistoName = "StripClusVsBXandOrbit";
       const char* HistoTitle =
           "Strip cluster multiplicity vs BX mod(70) and Orbit;Event 1 BX "
           "mod(70);time [Orb#]";
       edm::ParameterSet ParametersNclusVsCycleTimeProf2D =
           conf_.getParameter<edm::ParameterSet>("NclusVsCycleTimeProf2D");
       NclusVsCycleTimeProf2D = ibooker.bookProfile2D(HistoName,
                                                      HistoTitle,
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<int32_t>("Nbins"),
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<double>("xmin"),
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<double>("xmax"),
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<int32_t>("Nbinsy"),
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<double>("ymin"),
                                                      ParametersNclusVsCycleTimeProf2D.getParameter<double>("ymax"),
                                                      0,
                                                      0);
       if (NclusVsCycleTimeProf2D->kind() == MonitorElement::Kind::TPROFILE2D)
         NclusVsCycleTimeProf2D->setCanExtend(TH1::kAllAxes);
     }
     if (clusterWidth_vs_amplitude_on) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet ParametersClusWidthVsAmpTH2 = conf_.getParameter<edm::ParameterSet>("ClusWidthVsAmpTH2");
       const char* HistoName = "ClusterWidths_vs_Amplitudes";
       const char* HistoTitle =
           "Cluster widths vs amplitudes;Amplitudes (integrated ADC "
           "counts);Cluster widths";
       ClusWidthVsAmpTH2 = ibooker.book2D(HistoName,
                                          HistoTitle,
                                          ParametersClusWidthVsAmpTH2.getParameter<int32_t>("Nbinsx"),
                                          ParametersClusWidthVsAmpTH2.getParameter<double>("xmin"),
                                          ParametersClusWidthVsAmpTH2.getParameter<double>("xmax"),
                                          ParametersClusWidthVsAmpTH2.getParameter<int32_t>("Nbinsy"),
                                          ParametersClusWidthVsAmpTH2.getParameter<double>("ymin"),
                                          ParametersClusWidthVsAmpTH2.getParameter<double>("ymax"));
     }
  
     if (ClusterHisto_) {
       ibooker.setCurrentFolder(topFolderName_ + "/MechanicalView/");
       edm::ParameterSet PixelCluster = conf_.getParameter<edm::ParameterSet>("TH1NClusPx");
       std::string HistoName = "NumberOfClustersInPixel";
       NumberOfPixelClus = ibooker.book1D(HistoName,
                                          HistoName,
                                          PixelCluster.getParameter<int32_t>("Nbinsx"),
                                          PixelCluster.getParameter<double>("xmin"),
                                          PixelCluster.getParameter<double>("xmax"));
       NumberOfPixelClus->setAxisTitle("# of Clusters in Pixel", 1);
       NumberOfPixelClus->setAxisTitle("Number of Events", 2);
       //
       edm::ParameterSet StripCluster = conf_.getParameter<edm::ParameterSet>("TH1NClusStrip");
       HistoName = "NumberOfClustersInStrip";
       NumberOfStripClus = ibooker.book1D(HistoName,
                                          HistoName,
                                          StripCluster.getParameter<int32_t>("Nbinsx"),
                                          StripCluster.getParameter<double>("xmin"),
                                          StripCluster.getParameter<double>("xmax"));
       NumberOfStripClus->setAxisTitle("# of Clusters in Strip", 1);
       NumberOfStripClus->setAxisTitle("Number of Events", 2);
  
       // NumberOfClustersinStrip vs BX PLOT ****************************
       edm::ParameterSet StripClusterBX = conf_.getParameter<edm::ParameterSet>("TProfNClusStrip");
       HistoName = "NumberOfClustersInStrip_vs_BX";
       NumberOfStripClus_vs_BX = ibooker.bookProfile(HistoName,
                                                     HistoName,
                                                     StripClusterBX.getParameter<int32_t>("Nbinsx"),
                                                     StripClusterBX.getParameter<double>("xmin"),
                                                     StripClusterBX.getParameter<double>("xmax"),
                                                     StripClusterBX.getParameter<int32_t>("Nbinsy"),
                                                     StripClusterBX.getParameter<double>("ymin"),
                                                     StripClusterBX.getParameter<double>("ymax"));
  
       NumberOfStripClus_vs_BX->setAxisTitle("Absolute BX", 1);
       NumberOfStripClus_vs_BX->setAxisTitle("# of Clusters in Strip", 2);
  
       // NumberOfClustersinStrip vs BX PLOT ****************************
       edm::ParameterSet PixelClusterBX = conf_.getParameter<edm::ParameterSet>("TProfNClusPixel");
       HistoName = "NumberOfClustersInPixel_vs_BX";
       NumberOfPixelClus_vs_BX = ibooker.bookProfile(HistoName,
                                                     HistoName,
                                                     PixelClusterBX.getParameter<int32_t>("Nbinsx"),
                                                     PixelClusterBX.getParameter<double>("xmin"),
                                                     PixelClusterBX.getParameter<double>("xmax"),
                                                     PixelClusterBX.getParameter<int32_t>("Nbinsy"),
                                                     PixelClusterBX.getParameter<double>("ymin"),
                                                     PixelClusterBX.getParameter<double>("ymax"));
  
       NumberOfPixelClus_vs_BX->setAxisTitle("Absolute BX", 1);
       NumberOfPixelClus_vs_BX->setAxisTitle("# of Clusters in Pixel", 2);
  
       if (globalswitchFEDCluster) {
         // Number of clusters per FED
         edm::ParameterSet FEDCluster = conf_.getParameter<edm::ParameterSet>("TProfNClustersFED");
         HistoName = "NumberOfClustersinFED_v_FEDID";
         NumberOfFEDClus = ibooker.bookProfile(HistoName,
                                               HistoName,
                                               FEDCluster.getParameter<int32_t>("Nbinsx"),
                                               FEDCluster.getParameter<double>("xmin"),
                                               FEDCluster.getParameter<double>("xmax"),
                                               FEDCluster.getParameter<int32_t>("Nbinsy"),
                                               FEDCluster.getParameter<double>("ymin"),
                                               FEDCluster.getParameter<double>("ymax"),
                                               "");
         NumberOfFEDClus->setAxisTitle("FED ID", 1);
         NumberOfFEDClus->setAxisTitle("Mean # of Cluster in FED", 2);
       }
     }
  
   }  // end of if
 }  // end of method

References funct::abs(), SiStripDetCabling::addActiveDetectorsRawIds(), dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), dqm::implementation::IBooker::bookProfile(), dqm::implementation::IBooker::bookProfile2D(), clusterchtkhistomapon, ClusterHisto_, clustertkhistomapon, clusterWidth_vs_amplitude_on, ClusWidthVsAmpTH2, conf_, createLayerMEs(), createModuleMEs(), createSubDetMEs(), edm::EventSetup::getData(), edm::ParameterSet::getParameter(), SiStripFolderOrganizer::GetSubDetAndLayer(), SiStripFolderOrganizer::getSubDetFolderAndTag(), SiStripHistoId::getSubdetid(), SiStripSubStructure::getTECDetectors(), SiStripSubStructure::getTIBDetectors(), SiStripSubStructure::getTIDDetectors(), SiStripSubStructure::getTOBDetectors(), GlobalABXTH1_CSCP, GlobalApvCycleDBxTH2, GlobalCStripVsCpix, GlobalDBxCycleTH1, GlobalDBxTH1, GlobalMainDiagonalPosition, GlobalMainDiagonalPosition_vs_BX, globalswitchapvcycledbxth2on, globalswitchcstripvscpix, globalswitchFEDCluster, globalswitchmaindiagonalposition, globalswitchMultiRegions, globalswitchnclusvscycletimeprof2don, globalswitchstripnoise2apvcycle, globalswitchstripnoise3apvcycle, GlobalTH2MainDiagonalPosition_vs_BX, dqm::impl::MonitorElement::kind(), label, LayerDetMap, LayerMEsMap, Mod_On_, ModuleMEsMap, NclusVsCycleTimeProf2D, NumberOfFEDClus, NumberOfPixelClus, NumberOfPixelClus_vs_BX, NumberOfStripClus, NumberOfStripClus_vs_BX, or, PixVsStripMultiplicityRegions, reset_each_run, ResetModuleMEs(), dqm::impl::MonitorElement::setAxisTitle(), dqm::impl::MonitorElement::setBinLabel(), dqm::impl::MonitorElement::setCanExtend(), dqm::implementation::NavigatorBase::setCurrentFolder(), SiStripFolderOrganizer::setDetectorFolder(), SiStripFolderOrganizer::setLayerFolder(), SiStripFolderOrganizer::setSiStripFolder(), SiStripFolderOrganizer::setSiStripFolderName(), show_mechanical_structure_view, siStripDetCablingRunToken_, AlCaHLTBitMon_QueryRunRegistry::string, StripNoise2Cycle, StripNoise3Cycle, SubDetMEsMap, tkDetMapToken_, tkmapcluster, tkmapclusterch, topFolderName_, MonitorElementData::TPROFILE2D, and trackerTopologyRunToken_.

Referenced by bookHistograms().

◆ createModuleMEs()

void SiStripMonitorCluster::createModuleMEs	(	ModMEs &	mod_single,
		uint32_t	detid,
		DQMStore::IBooker &	ibooker,
		const SiStripDetCabling &	siStripDetCabling
	)

private

Definition at line 1120 of file SiStripMonitorCluster.cc.

                                                                                         {
   // use SistripHistoId for producing histogram id (and title)
   SiStripHistoId hidmanager;
   std::string hid;
  
   // nr. of clusters per module
   if (moduleswitchncluson) {
     hid = hidmanager.createHistoId("NumberOfClusters", "det", detid);
     mod_single.NumberOfClusters = bookME1D("TH1nClusters", hid.c_str(), ibooker);
     mod_single.NumberOfClusters->setAxisTitle("number of clusters in one detector module");
     mod_single.NumberOfClusters->setStatOverflows(kTRUE);  // over/underflows in Mean calculation
   }
  
   // ClusterPosition
   if (moduleswitchclusposon) {
     short total_nr_strips = siStripDetCabling.nApvPairs(detid) * 2 * 128;  // get correct # of avp pairs
     hid = hidmanager.createHistoId("ClusterPosition", "det", detid);
     mod_single.ClusterPosition = ibooker.book1D(hid, hid, total_nr_strips, 0.5, total_nr_strips + 0.5);
     mod_single.ClusterPosition->setAxisTitle("cluster position [strip number +0.5]");
   }
  
   // ClusterDigiPosition
   if (moduleswitchclusdigiposon) {
     short total_nr_strips = siStripDetCabling.nApvPairs(detid) * 2 * 128;  // get correct # of avp pairs
     hid = hidmanager.createHistoId("ClusterDigiPosition", "det", detid);
     mod_single.ClusterDigiPosition = ibooker.book1D(hid, hid, total_nr_strips, 0.5, total_nr_strips + 0.5);
     mod_single.ClusterDigiPosition->setAxisTitle("digi in cluster position [strip number +0.5]");
   }
  
   // ClusterWidth
   if (moduleswitchcluswidthon) {
     hid = hidmanager.createHistoId("ClusterWidth", "det", detid);
     mod_single.ClusterWidth = bookME1D("TH1ClusterWidth", hid.c_str(), ibooker);
     mod_single.ClusterWidth->setAxisTitle("cluster width [nr strips]");
   }
  
   // ClusterCharge
   if (moduleswitchcluschargeon) {
     hid = hidmanager.createHistoId("ClusterCharge", "det", detid);
     mod_single.ClusterCharge = bookME1D("TH1ClusterCharge", hid.c_str(), ibooker);
     mod_single.ClusterCharge->setAxisTitle("cluster charge [ADC]");
   }
  
   // ClusterNoise
   if (moduleswitchclusnoiseon) {
     hid = hidmanager.createHistoId("ClusterNoise", "det", detid);
     mod_single.ClusterNoise = bookME1D("TH1ClusterNoise", hid.c_str(), ibooker);
     mod_single.ClusterNoise->setAxisTitle("cluster noise");
   }
  
   // ClusterSignalOverNoise
   if (moduleswitchclusstonon) {
     hid = hidmanager.createHistoId("ClusterSignalOverNoise", "det", detid);
     mod_single.ClusterSignalOverNoise = bookME1D("TH1ClusterStoN", hid.c_str(), ibooker);
     mod_single.ClusterSignalOverNoise->setAxisTitle("ratio of signal to noise for each cluster");
   }
  
   // ClusterSignalOverNoiseVsPos
   if (moduleswitchclusstonVsposon) {
     hid = hidmanager.createHistoId("ClusterSignalOverNoiseVsPos", "det", detid);
     Parameters = conf_.getParameter<edm::ParameterSet>("TH1ClusterStoNVsPos");
     mod_single.ClusterSignalOverNoiseVsPos = ibooker.bookProfile(hid.c_str(),
                                                                  hid.c_str(),
                                                                  Parameters.getParameter<int32_t>("Nbinx"),
                                                                  Parameters.getParameter<double>("xmin"),
                                                                  Parameters.getParameter<double>("xmax"),
                                                                  Parameters.getParameter<int32_t>("Nbiny"),
                                                                  Parameters.getParameter<double>("ymin"),
                                                                  Parameters.getParameter<double>("ymax"));
     mod_single.ClusterSignalOverNoiseVsPos->setAxisTitle("pos");
   }
  
   // ModuleLocalOccupancy
   if (moduleswitchlocaloccupancy) {
     hid = hidmanager.createHistoId("ClusterLocalOccupancy", "det", detid);
     mod_single.ModuleLocalOccupancy = bookME1D("TH1ModuleLocalOccupancy", hid.c_str(), ibooker);
     mod_single.ModuleLocalOccupancy->setAxisTitle("module local occupancy [% of clusterized strips]");
   }
  
   // NrOfClusterizedStrips
   if (moduleswitchnrclusterizedstrip) {
     hid = hidmanager.createHistoId("NrOfClusterizedStrips", "det", detid);
     mod_single.NrOfClusterizedStrips = bookME1D("TH1NrOfClusterizedStrips", hid.c_str(), ibooker);
     mod_single.NrOfClusterizedStrips->setAxisTitle("number of clusterized strips");
   }
  
   if (module_clusterWidth_vs_amplitude_on) {
     hid = hidmanager.createHistoId("ClusterWidths_vs_Amplitudes", "det", detid);
     Parameters = conf_.getParameter<edm::ParameterSet>("ClusWidthVsAmpTH2");
     int32_t Nbinsx = Parameters.getParameter<int32_t>("Nbinsx");
     Nbinsx = Nbinsx / 2;  // Without this "rebinning" the job is killed on
                           // lxplus. We think it's due to the high memory needed
                           // to create all those histograms.
     mod_single.Module_ClusWidthVsAmpTH2 = ibooker.book2D(hid.c_str(),
                                                          hid.c_str(),
                                                          Nbinsx,
                                                          Parameters.getParameter<double>("xmin"),
                                                          Parameters.getParameter<double>("xmax"),
                                                          Parameters.getParameter<int32_t>("Nbinsy"),
                                                          Parameters.getParameter<double>("ymin"),
                                                          Parameters.getParameter<double>("ymax"));
     mod_single.Module_ClusWidthVsAmpTH2->setAxisTitle("Amplitudes (integrated ADC counts)", 1);
     mod_single.Module_ClusWidthVsAmpTH2->setAxisTitle("Cluster widths", 2);
   }
 }

Referenced by createMEs().

◆ createSubDetMEs()

void SiStripMonitorCluster::createSubDetMEs	(	std::string	label,
		DQMStore::IBooker &	ibooker
	)

private

Definition at line 1354 of file SiStripMonitorCluster.cc.

                                                                                      {
   SubDetMEs subdetMEs;
   subdetMEs.totNClusters = 0;
   subdetMEs.SubDetTotClusterTH1 = nullptr;
   subdetMEs.SubDetTotClusterProf = nullptr;
   subdetMEs.SubDetClusterApvProf = nullptr;
   subdetMEs.SubDetClusterApvTH2 = nullptr;
   subdetMEs.SubDetClusterDBxCycleProf = nullptr;
   subdetMEs.SubDetApvDBxProf2 = nullptr;
   subdetMEs.SubDetClusterChargeTH1 = nullptr;
   subdetMEs.SubDetClusterWidthTH1 = nullptr;
   subdetMEs.SubDetClusWidthVsAmpTH2 = nullptr;
   subdetMEs.SubDetNumberOfClusterPerLayerTrend = nullptr;
  
   std::string HistoName;
   // cluster charge
   if (subdetswitchcluschargeon) {
     HistoName = "ClusterCharge__" + label;
     subdetMEs.SubDetClusterChargeTH1 = bookME1D("TH1ClusterCharge", HistoName.c_str(), ibooker);
     subdetMEs.SubDetClusterChargeTH1->setAxisTitle("Cluster charge [ADC counts]");
     subdetMEs.SubDetClusterChargeTH1->setStatOverflows(kTRUE);  // over/underflows in Mean calculation
   }
   // cluster width
   if (subdetswitchcluswidthon) {
     HistoName = "ClusterWidth__" + label;
     subdetMEs.SubDetClusterWidthTH1 = bookME1D("TH1ClusterWidth", HistoName.c_str(), ibooker);
     subdetMEs.SubDetClusterWidthTH1->setAxisTitle("Cluster width [strips]");
     subdetMEs.SubDetClusterWidthTH1->setStatOverflows(kTRUE);  // over/underflows in Mean calculation
   }
   // Total Number of Cluster - 1D
   if (subdetswitchtotclusth1on) {
     HistoName = "TotalNumberOfCluster__" + label;
     subdetMEs.SubDetTotClusterTH1 = bookME1D("TH1TotalNumberOfClusters", HistoName.c_str(), ibooker);
     subdetMEs.SubDetTotClusterTH1->setAxisTitle("Total number of clusters in subdetector");
     subdetMEs.SubDetTotClusterTH1->setStatOverflows(kTRUE);  // over/underflows in Mean calculation
   }
   // Total Number of Cluster vs Time - Profile
   if (subdetswitchtotclusprofon) {
     edm::ParameterSet Parameters = trendVs10Ls_ ? conf_.getParameter<edm::ParameterSet>("TrendingLS")
                                                 : conf_.getParameter<edm::ParameterSet>("Trending");
     HistoName = "TotalNumberOfClusterProfile__" + label;
     subdetMEs.SubDetTotClusterProf = ibooker.bookProfile(HistoName,
                                                          HistoName,
                                                          Parameters.getParameter<int32_t>("Nbins"),
                                                          Parameters.getParameter<double>("xmin"),
                                                          Parameters.getParameter<double>("xmax"),
                                                          0,
                                                          0,
                                                          "");
     subdetMEs.SubDetTotClusterProf->setAxisTitle(Parameters.getParameter<std::string>("xaxis"), 1);
     if (subdetMEs.SubDetTotClusterProf->kind() == MonitorElement::Kind::TPROFILE)
       subdetMEs.SubDetTotClusterProf->setCanExtend(TH1::kAllAxes);
  
     Parameters = conf_.getParameter<edm::ParameterSet>("NumberOfClusterPerLayerTrendVar");
     HistoName = "TotalNumberOfClusterPerLayer__" + label;
     subdetMEs.SubDetNumberOfClusterPerLayerTrend = ibooker.bookProfile2D("NumberOfClusterPerLayerTrendVar",
                                                                          HistoName.c_str(),
                                                                          Parameters.getParameter<int32_t>("Nbinsx"),
                                                                          Parameters.getParameter<double>("xmin"),
                                                                          Parameters.getParameter<double>("xmax"),
                                                                          Parameters.getParameter<int32_t>("Nbinsy"),
                                                                          Parameters.getParameter<double>("ymin"),
                                                                          Parameters.getParameter<double>("ymax"),
                                                                          0,
                                                                          0,
                                                                          "");
     subdetMEs.SubDetNumberOfClusterPerLayerTrend->setAxisTitle("Lumisection", 1);
     subdetMEs.SubDetNumberOfClusterPerLayerTrend->setAxisTitle("Layer Number", 2);
   }
  
   // Total Number of Cluster vs APV cycle - Profile
   if (subdetswitchapvcycleprofon) {
     edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("TProfClustersApvCycle");
     HistoName = "Cluster_vs_ApvCycle__" + label;
     subdetMEs.SubDetClusterApvProf = ibooker.bookProfile(HistoName,
                                                          HistoName,
                                                          Parameters.getParameter<int32_t>("Nbins"),
                                                          Parameters.getParameter<double>("xmin"),
                                                          Parameters.getParameter<double>("xmax"),
                                                          200,  // that parameter should not be there !?
                                                          Parameters.getParameter<double>("ymin"),
                                                          Parameters.getParameter<double>("ymax"),
                                                          "");
     subdetMEs.SubDetClusterApvProf->setAxisTitle("Apv Cycle (Corrected Absolute Bx % 70)", 1);
   }
  
   // Total Number of Clusters vs ApvCycle - 2D
   if (subdetswitchapvcycleth2on) {
     edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("TH2ClustersApvCycle");
     HistoName = "Cluster_vs_ApvCycle_2D__" + label;
     // Adjusting the scale for 2D histogram
     double h2ymax = 9999.0;
     double yfact = Parameters.getParameter<double>("yfactor");
     if (label.find("TIB") != std::string::npos)
       h2ymax = (6984. * 256.) * yfact;
     else if (label.find("TID") != std::string::npos)
       h2ymax = (2208. * 256.) * yfact;
     else if (label.find("TOB") != std::string::npos)
       h2ymax = (12906. * 256.) * yfact;
     else if (label.find("TEC") != std::string::npos)
       h2ymax = (7552. * 2. * 256.) * yfact;
  
     subdetMEs.SubDetClusterApvTH2 = ibooker.book2D(HistoName,
                                                    HistoName,
                                                    Parameters.getParameter<int32_t>("Nbinsx"),
                                                    Parameters.getParameter<double>("xmin"),
                                                    Parameters.getParameter<double>("xmax"),
                                                    Parameters.getParameter<int32_t>("Nbinsy"),
                                                    Parameters.getParameter<double>("ymin"),
                                                    h2ymax);
     subdetMEs.SubDetClusterApvTH2->setAxisTitle("Apv Cycle (Corrected Absolute Bx % 70))", 1);
     subdetMEs.SubDetClusterApvTH2->setAxisTitle("Total # of Clusters", 2);
   }
  
   // Cluster widths vs amplitudes - 2D
   if (subdet_clusterWidth_vs_amplitude_on) {
     edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("ClusWidthVsAmpTH2");
     HistoName = "ClusterWidths_vs_Amplitudes__" + label;
     subdetMEs.SubDetClusWidthVsAmpTH2 = ibooker.book2D(HistoName,
                                                        HistoName,
                                                        Parameters.getParameter<int32_t>("Nbinsx"),
                                                        Parameters.getParameter<double>("xmin"),
                                                        Parameters.getParameter<double>("xmax"),
                                                        Parameters.getParameter<int32_t>("Nbinsy"),
                                                        Parameters.getParameter<double>("ymin"),
                                                        Parameters.getParameter<double>("ymax"));
     subdetMEs.SubDetClusWidthVsAmpTH2->setAxisTitle("Amplitudes (integrated ADC counts)", 1);
     subdetMEs.SubDetClusWidthVsAmpTH2->setAxisTitle("Cluster widths", 2);
   }
  
   // Total Number of Cluster vs DeltaBxCycle - Profile
   if (subdetswitchdbxcycleprofon) {
     edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("TProfClustersVsDBxCycle");
     HistoName = "Cluster_vs_DeltaBxCycle__" + label;
     subdetMEs.SubDetClusterDBxCycleProf = ibooker.bookProfile(HistoName,
                                                               HistoName,
                                                               Parameters.getParameter<int32_t>("Nbins"),
                                                               Parameters.getParameter<double>("xmin"),
                                                               Parameters.getParameter<double>("xmax"),
                                                               200,  // that parameter should not be there !?
                                                               Parameters.getParameter<double>("ymin"),
                                                               Parameters.getParameter<double>("ymax"),
                                                               "");
     subdetMEs.SubDetClusterDBxCycleProf->setAxisTitle("Delta Bunch Crossing Cycle", 1);
   }
   // DeltaBx vs ApvCycle - 2DProfile
   if (subdetswitchapvcycledbxprof2on) {
     edm::ParameterSet Parameters = conf_.getParameter<edm::ParameterSet>("TProf2ApvCycleVsDBx");
     HistoName = "DeltaBx_vs_ApvCycle__" + label;
     subdetMEs.SubDetApvDBxProf2 = ibooker.bookProfile2D(HistoName,
                                                         HistoName,
                                                         Parameters.getParameter<int32_t>("Nbinsx"),
                                                         Parameters.getParameter<double>("xmin"),
                                                         Parameters.getParameter<double>("xmax"),
                                                         Parameters.getParameter<int32_t>("Nbinsy"),
                                                         Parameters.getParameter<double>("ymin"),
                                                         Parameters.getParameter<double>("ymax"),
                                                         Parameters.getParameter<double>("zmin"),
                                                         Parameters.getParameter<double>("zmax"),
                                                         "");
     subdetMEs.SubDetApvDBxProf2->setAxisTitle("APV Cycle (Corrected Absolute Bx % 70)", 1);
     subdetMEs.SubDetApvDBxProf2->setAxisTitle("Delta Bunch Crossing Cycle", 2);
   }
   SubDetMEsMap[label] = subdetMEs;
 }

Referenced by createMEs().

◆ dqmBeginRun()

void SiStripMonitorCluster::dqmBeginRun	(	const edm::Run &	run,
		const edm::EventSetup &	es
	)

overridevirtual

Reimplemented from DQMEDAnalyzer.

Definition at line 239 of file SiStripMonitorCluster.cc.

                                                                                   {
   // Initialize the GenericTriggerEventFlag
   if (genTriggerEventFlagBPTXfilter_->on())
     genTriggerEventFlagBPTXfilter_->initRun(run, es);
   if (genTriggerEventFlagPixelDCSfilter_->on())
     genTriggerEventFlagPixelDCSfilter_->initRun(run, es);
   if (genTriggerEventFlagStripDCSfilter_->on())
     genTriggerEventFlagStripDCSfilter_->initRun(run, es);
 }

References genTriggerEventFlagBPTXfilter_, genTriggerEventFlagPixelDCSfilter_, genTriggerEventFlagStripDCSfilter_, GenericTriggerEventFlag::initRun(), GenericTriggerEventFlag::on(), and writedatasetfile::run.

◆ fillLayerMEs()

void SiStripMonitorCluster::fillLayerMEs	(	LayerMEs &	layerMEs,
		ClusterProperties &	cluster
	)

private

Definition at line 1559 of file SiStripMonitorCluster.cc.

                                                                                        {
   if (layerswitchclusstonon) {
     fillME(layerMEs.LayerClusterStoN, cluster.charge / cluster.noise);
     if (createTrendMEs) {
       fillME(layerMEs.LayerClusterStoNTrend, trendVar, cluster.charge / cluster.noise);
     }
   }
  
   if (layerswitchcluschargeon) {
     fillME(layerMEs.LayerClusterCharge, cluster.charge);
     if (createTrendMEs) {
       fillME(layerMEs.LayerClusterChargeTrend, trendVar, cluster.charge);
     }
   }
  
   if (layerswitchclusnoiseon) {
     fillME(layerMEs.LayerClusterNoise, cluster.noise);
     if (createTrendMEs) {
       fillME(layerMEs.LayerClusterNoiseTrend, trendVar, cluster.noise);
     }
   }
  
   if (layerswitchcluswidthon) {
     fillME(layerMEs.LayerClusterWidth, cluster.width);
     if (createTrendMEs) {
       fillME(layerMEs.LayerClusterWidthTrend, trendVar, cluster.width);
     }
   }
  
   if (layer_clusterWidth_vs_amplitude_on) {
     fillME(layerMEs.LayerClusWidthVsAmpTH2, cluster.charge, cluster.width);
   }
  
   if (layerswitchclusposon) {
     fillME(layerMEs.LayerClusterPosition, cluster.position);
   }
 }

Referenced by analyze().

◆ fillME() [1/4]

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1
	)

inlineprivate

Definition at line 146 of file SiStripMonitorCluster.h.

                                                        {
     if (ME != nullptr)
       ME->Fill(value1);
   }

References HLT_FULL_cff::value1.

Referenced by analyze(), and fillLayerMEs().

◆ fillME() [2/4]

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2
	)

inlineprivate

Definition at line 150 of file SiStripMonitorCluster.h.

                                                                      {
     if (ME != nullptr)
       ME->Fill(value1, value2);
   }

References HLT_FULL_cff::value1, and HLT_FULL_cff::value2.

◆ fillME() [3/4]

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2,
		float	value3
	)

inlineprivate

Definition at line 154 of file SiStripMonitorCluster.h.

                                                                                    {
     if (ME != nullptr)
       ME->Fill(value1, value2, value3);
   }

References HLT_FULL_cff::value1, and HLT_FULL_cff::value2.

◆ fillME() [4/4]

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2,
		float	value3,
		float	value4
	)

inlineprivate

Definition at line 158 of file SiStripMonitorCluster.h.

                                                                                                  {
     if (ME != nullptr)
       ME->Fill(value1, value2, value3, value4);
   }

References HLT_FULL_cff::value1, and HLT_FULL_cff::value2.

◆ fillModuleMEs()

void SiStripMonitorCluster::fillModuleMEs	(	ModMEs &	mod_mes,
		ClusterProperties &	cluster
	)

private

Definition at line 1523 of file SiStripMonitorCluster.cc.

                                                                                      {
   if (moduleswitchclusposon && (mod_mes.ClusterPosition))  // position of cluster
     (mod_mes.ClusterPosition)->Fill(cluster.position);
  
   // position of digis in cluster
   if (moduleswitchclusdigiposon && (mod_mes.ClusterDigiPosition)) {
     for (int ipos = cluster.start + 1; ipos <= cluster.start + cluster.width; ipos++) {
       (mod_mes.ClusterDigiPosition)->Fill(ipos);
     }
   }
  
   if (moduleswitchcluswidthon && (mod_mes.ClusterWidth))  // width of cluster
     (mod_mes.ClusterWidth)->Fill(static_cast<float>(cluster.width));
  
   if (moduleswitchclusstonon && (mod_mes.ClusterSignalOverNoise)) {  // SignalToNoise
     if (cluster.noise > 0)
       (mod_mes.ClusterSignalOverNoise)->Fill(cluster.charge / cluster.noise);
   }
  
   if (moduleswitchclusstonVsposon && (mod_mes.ClusterSignalOverNoiseVsPos)) {  // SignalToNoise
     if (cluster.noise > 0)
       (mod_mes.ClusterSignalOverNoiseVsPos)->Fill(cluster.position, cluster.charge / cluster.noise);
   }
  
   if (moduleswitchclusnoiseon && (mod_mes.ClusterNoise))  // Noise
     (mod_mes.ClusterNoise)->Fill(cluster.noise);
  
   if (moduleswitchcluschargeon && (mod_mes.ClusterCharge))  // charge of cluster
     (mod_mes.ClusterCharge)->Fill(cluster.charge);
  
   if (module_clusterWidth_vs_amplitude_on)
     (mod_mes.Module_ClusWidthVsAmpTH2)->Fill(cluster.charge, cluster.width);
 }

Referenced by analyze().

◆ FindRegion()

int SiStripMonitorCluster::FindRegion	(	int	nstrip,
		int	npixel
	)

private

Definition at line 1644 of file SiStripMonitorCluster.cc.

                                                           {
   double kplus = k0 * (1 + dk0 / 100);
   double kminus = k0 * (1 - dk0 / 100);
   int region = 0;
  
   if (nstrip != 0 && npix >= (nstrip * kminus - q0) && npix <= (nstrip * kplus + q0))
     region = 1;
   else if (nstrip != 0 && npix < (nstrip * kminus - q0) && nstrip <= maxClus)
     region = 2;
   else if (nstrip != 0 && npix < (nstrip * kminus - q0) && nstrip > maxClus)
     region = 3;
   else if (nstrip != 0 && npix > (nstrip * kplus + q0))
     region = 4;
   else if (npix > minPix && nstrip == 0)
     region = 5;
   return region;
 }

References dk0, k0, maxClus, minPix, q0, and HLT_FULL_cff::region.

Referenced by analyze().

◆ ResetModuleMEs()

void SiStripMonitorCluster::ResetModuleMEs ( uint32_t idet )

private

Definition at line 1090 of file SiStripMonitorCluster.cc.

                                                         {
   std::map<uint32_t, ModMEs>::iterator pos = ModuleMEsMap.find(idet);
   ModMEs mod_me = pos->second;
  
   if (moduleswitchncluson)
     mod_me.NumberOfClusters->Reset();
   if (moduleswitchclusposon)
     mod_me.ClusterPosition->Reset();
   if (moduleswitchclusdigiposon)
     mod_me.ClusterDigiPosition->Reset();
   if (moduleswitchclusstonVsposon)
     mod_me.ClusterSignalOverNoiseVsPos->Reset();
   if (moduleswitchcluswidthon)
     mod_me.ClusterWidth->Reset();
   if (moduleswitchcluschargeon)
     mod_me.ClusterCharge->Reset();
   if (moduleswitchclusnoiseon)
     mod_me.ClusterNoise->Reset();
   if (moduleswitchclusstonon)
     mod_me.ClusterSignalOverNoise->Reset();
   if (moduleswitchlocaloccupancy)
     mod_me.ModuleLocalOccupancy->Reset();
   if (moduleswitchnrclusterizedstrip)
     mod_me.NrOfClusterizedStrips->Reset();
   if (module_clusterWidth_vs_amplitude_on)
     mod_me.Module_ClusWidthVsAmpTH2->Reset();
 }

Referenced by bookHistograms(), and createMEs().

Member Data Documentation

◆ applyClusterQuality_

bool SiStripMonitorCluster::applyClusterQuality_

private

Definition at line 265 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ apvPhaseProducerToken_

edm::EDGetTokenT<APVCyclePhaseCollection> SiStripMonitorCluster::apvPhaseProducerToken_

private

Definition at line 254 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ BPTXrateTrend

MonitorElement* SiStripMonitorCluster::BPTXrateTrend = nullptr

Definition at line 128 of file SiStripMonitorCluster.h.

◆ clusterchtkhistomapon

bool SiStripMonitorCluster::clusterchtkhistomapon

private

Definition at line 232 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ ClusterHisto_

bool SiStripMonitorCluster::ClusterHisto_

private

Definition at line 239 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ clusterProducerPixToken_

edm::EDGetTokenT<edmNew::DetSetVector<SiPixelCluster> > SiStripMonitorCluster::clusterProducerPixToken_

private

Definition at line 252 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ clusterProducerStripToken_

edm::EDGetTokenT<edmNew::DetSetVector<SiStripCluster> > SiStripMonitorCluster::clusterProducerStripToken_

private

Definition at line 251 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ clustertkhistomapon

bool SiStripMonitorCluster::clustertkhistomapon

private

Definition at line 231 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ clusterWidth_vs_amplitude_on

bool SiStripMonitorCluster::clusterWidth_vs_amplitude_on

private

Definition at line 236 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ ClusWidthVsAmpTH2

MonitorElement* SiStripMonitorCluster::ClusWidthVsAmpTH2 = nullptr

Definition at line 130 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ conf_

edm::ParameterSet SiStripMonitorCluster::conf_

private

Definition at line 166 of file SiStripMonitorCluster.h.

Referenced by bookME1D(), bookME2D(), bookMETrend(), createLayerMEs(), createMEs(), createModuleMEs(), createSubDetMEs(), and SiStripMonitorCluster().

◆ createTrendMEs

bool SiStripMonitorCluster::createTrendMEs

private

Definition at line 233 of file SiStripMonitorCluster.h.

Referenced by analyze(), createLayerMEs(), and fillLayerMEs().

◆ dcsStatus_

SiStripDCSStatus* SiStripMonitorCluster::dcsStatus_

private

Definition at line 277 of file SiStripMonitorCluster.h.

Referenced by analyze(), and ~SiStripMonitorCluster().

◆ dk0

double SiStripMonitorCluster::dk0

private

Definition at line 273 of file SiStripMonitorCluster.h.

Referenced by FindRegion().

◆ eventNb

int SiStripMonitorCluster::eventNb

private

Definition at line 185 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ firstEvent

int SiStripMonitorCluster::firstEvent

private

Definition at line 186 of file SiStripMonitorCluster.h.

Referenced by looper.Looper::loop(), and Printer.Printer::process().

◆ genTriggerEventFlagBPTXfilter_

GenericTriggerEventFlag* SiStripMonitorCluster::genTriggerEventFlagBPTXfilter_

private

Definition at line 280 of file SiStripMonitorCluster.h.

Referenced by analyze(), dqmBeginRun(), and ~SiStripMonitorCluster().

◆ genTriggerEventFlagPixelDCSfilter_

GenericTriggerEventFlag* SiStripMonitorCluster::genTriggerEventFlagPixelDCSfilter_

private

Definition at line 281 of file SiStripMonitorCluster.h.

Referenced by analyze(), dqmBeginRun(), and ~SiStripMonitorCluster().

◆ genTriggerEventFlagStripDCSfilter_

GenericTriggerEventFlag* SiStripMonitorCluster::genTriggerEventFlagStripDCSfilter_

private

Definition at line 282 of file SiStripMonitorCluster.h.

Referenced by analyze(), dqmBeginRun(), and ~SiStripMonitorCluster().

◆ GlobalABXTH1_CSCP

MonitorElement* SiStripMonitorCluster::GlobalABXTH1_CSCP = nullptr

Definition at line 119 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalApvCycleDBxTH2

MonitorElement* SiStripMonitorCluster::GlobalApvCycleDBxTH2 = nullptr

Definition at line 115 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalCStripVsCpix

MonitorElement* SiStripMonitorCluster::GlobalCStripVsCpix = nullptr

Definition at line 118 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalDBxCycleTH1

MonitorElement* SiStripMonitorCluster::GlobalDBxCycleTH1 = nullptr

Definition at line 117 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalDBxTH1

MonitorElement* SiStripMonitorCluster::GlobalDBxTH1 = nullptr

Definition at line 116 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalMainDiagonalPosition

MonitorElement* SiStripMonitorCluster::GlobalMainDiagonalPosition = nullptr

Definition at line 121 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalMainDiagonalPosition_vs_BX

MonitorElement* SiStripMonitorCluster::GlobalMainDiagonalPosition_vs_BX = nullptr

Definition at line 122 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchapvcycledbxth2on

bool SiStripMonitorCluster::globalswitchapvcycledbxth2on

private

Definition at line 228 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchcstripvscpix

bool SiStripMonitorCluster::globalswitchcstripvscpix

private

Definition at line 229 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchFEDCluster

bool SiStripMonitorCluster::globalswitchFEDCluster

private

Definition at line 206 of file SiStripMonitorCluster.h.

Referenced by createMEs().

◆ globalswitchmaindiagonalposition

bool SiStripMonitorCluster::globalswitchmaindiagonalposition

private

Definition at line 205 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchMultiRegions

bool SiStripMonitorCluster::globalswitchMultiRegions

private

Definition at line 230 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchnclusvscycletimeprof2don

bool SiStripMonitorCluster::globalswitchnclusvscycletimeprof2don

private

Definition at line 235 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchstripnoise2apvcycle

bool SiStripMonitorCluster::globalswitchstripnoise2apvcycle

private

Definition at line 203 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ globalswitchstripnoise3apvcycle

bool SiStripMonitorCluster::globalswitchstripnoise3apvcycle

private

Definition at line 204 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ GlobalTH2MainDiagonalPosition_vs_BX

MonitorElement* SiStripMonitorCluster::GlobalTH2MainDiagonalPosition_vs_BX

Definition at line 123 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ historyProducerToken_

edm::EDGetTokenT<EventWithHistory> SiStripMonitorCluster::historyProducerToken_

private

Definition at line 253 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ k0

double SiStripMonitorCluster::k0

private

Definition at line 271 of file SiStripMonitorCluster.h.

Referenced by analyze(), and FindRegion().

◆ layer_clusterWidth_vs_amplitude_on

bool SiStripMonitorCluster::layer_clusterWidth_vs_amplitude_on

private

Definition at line 201 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ LayerDetMap

std::map<std::string, std::vector<uint32_t> > SiStripMonitorCluster::LayerDetMap

private

Definition at line 169 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ LayerMEsMap

std::map<std::string, LayerMEs> SiStripMonitorCluster::LayerMEsMap

private

Definition at line 168 of file SiStripMonitorCluster.h.

Referenced by analyze(), createLayerMEs(), and createMEs().

◆ layerswitchcluschargeon

bool SiStripMonitorCluster::layerswitchcluschargeon

private

Definition at line 190 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ layerswitchclusdigiposon

bool SiStripMonitorCluster::layerswitchclusdigiposon

private

Definition at line 194 of file SiStripMonitorCluster.h.

◆ layerswitchclusnoiseon

bool SiStripMonitorCluster::layerswitchclusnoiseon

private

Definition at line 195 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ layerswitchclusposon

bool SiStripMonitorCluster::layerswitchclusposon

private

Definition at line 193 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ layerswitchclusstonon

bool SiStripMonitorCluster::layerswitchclusstonon

private

Definition at line 191 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ layerswitchclusstonVsposon

bool SiStripMonitorCluster::layerswitchclusstonVsposon

private

Definition at line 192 of file SiStripMonitorCluster.h.

◆ layerswitchclusterwidthprofon

bool SiStripMonitorCluster::layerswitchclusterwidthprofon

private

Definition at line 200 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createLayerMEs().

◆ layerswitchcluswidthon

bool SiStripMonitorCluster::layerswitchcluswidthon

private

Definition at line 196 of file SiStripMonitorCluster.h.

Referenced by createLayerMEs(), and fillLayerMEs().

◆ layerswitchlocaloccupancy

bool SiStripMonitorCluster::layerswitchlocaloccupancy

private

Definition at line 197 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createLayerMEs().

◆ layerswitchncluson

bool SiStripMonitorCluster::layerswitchncluson

private

Definition at line 189 of file SiStripMonitorCluster.h.

◆ layerswitchnrclusterizedstrip

bool SiStripMonitorCluster::layerswitchnrclusterizedstrip

private

Definition at line 198 of file SiStripMonitorCluster.h.

◆ layerswitchnumclusterprofon

bool SiStripMonitorCluster::layerswitchnumclusterprofon

private

Definition at line 199 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createLayerMEs().

◆ m_cacheID_

unsigned long long SiStripMonitorCluster::m_cacheID_

private

Definition at line 175 of file SiStripMonitorCluster.h.

Referenced by bookHistograms().

◆ maxClus

double SiStripMonitorCluster::maxClus

private

Definition at line 274 of file SiStripMonitorCluster.h.

Referenced by FindRegion().

◆ minPix

double SiStripMonitorCluster::minPix

private

Definition at line 275 of file SiStripMonitorCluster.h.

Referenced by FindRegion().

◆ Mod_On_

bool SiStripMonitorCluster::Mod_On_

private

Definition at line 238 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ module_clusterWidth_vs_amplitude_on

bool SiStripMonitorCluster::module_clusterWidth_vs_amplitude_on

private

Definition at line 218 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ ModuleMEsMap

std::map<uint32_t, ModMEs> SiStripMonitorCluster::ModuleMEsMap

private

Definition at line 167 of file SiStripMonitorCluster.h.

Referenced by analyze(), bookHistograms(), createMEs(), and ResetModuleMEs().

◆ ModulesToBeExcluded_

std::vector<uint32_t> SiStripMonitorCluster::ModulesToBeExcluded_

private

Definition at line 177 of file SiStripMonitorCluster.h.

◆ moduleswitchcluschargeon

bool SiStripMonitorCluster::moduleswitchcluschargeon

private

Definition at line 209 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchclusdigiposon

bool SiStripMonitorCluster::moduleswitchclusdigiposon

private

Definition at line 213 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchclusnoiseon

bool SiStripMonitorCluster::moduleswitchclusnoiseon

private

Definition at line 214 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchclusposon

bool SiStripMonitorCluster::moduleswitchclusposon

private

Definition at line 212 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchclusstonon

bool SiStripMonitorCluster::moduleswitchclusstonon

private

Definition at line 210 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchclusstonVsposon

bool SiStripMonitorCluster::moduleswitchclusstonVsposon

private

Definition at line 211 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchcluswidthon

bool SiStripMonitorCluster::moduleswitchcluswidthon

private

Definition at line 215 of file SiStripMonitorCluster.h.

Referenced by createModuleMEs(), fillModuleMEs(), and ResetModuleMEs().

◆ moduleswitchlocaloccupancy

bool SiStripMonitorCluster::moduleswitchlocaloccupancy

private

Definition at line 216 of file SiStripMonitorCluster.h.

Referenced by analyze(), createModuleMEs(), and ResetModuleMEs().

◆ moduleswitchncluson

bool SiStripMonitorCluster::moduleswitchncluson

private

Definition at line 208 of file SiStripMonitorCluster.h.

Referenced by analyze(), createModuleMEs(), and ResetModuleMEs().

◆ moduleswitchnrclusterizedstrip

bool SiStripMonitorCluster::moduleswitchnrclusterizedstrip

private

Definition at line 217 of file SiStripMonitorCluster.h.

Referenced by analyze(), createModuleMEs(), and ResetModuleMEs().

◆ NclusVsCycleTimeProf2D

MonitorElement* SiStripMonitorCluster::NclusVsCycleTimeProf2D = nullptr

Definition at line 129 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ NumberOfFEDClus

MonitorElement* SiStripMonitorCluster::NumberOfFEDClus = nullptr

Definition at line 133 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ NumberOfPixelClus

MonitorElement* SiStripMonitorCluster::NumberOfPixelClus = nullptr

Definition at line 126 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ NumberOfPixelClus_vs_BX

MonitorElement* SiStripMonitorCluster::NumberOfPixelClus_vs_BX = nullptr

Definition at line 132 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ NumberOfStripClus

MonitorElement* SiStripMonitorCluster::NumberOfStripClus = nullptr

Definition at line 127 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ NumberOfStripClus_vs_BX

MonitorElement* SiStripMonitorCluster::NumberOfStripClus_vs_BX = nullptr

Definition at line 131 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ Parameters

edm::ParameterSet SiStripMonitorCluster::Parameters

private

Definition at line 179 of file SiStripMonitorCluster.h.

◆ passBPTXfilter_

bool SiStripMonitorCluster::passBPTXfilter_

private

Definition at line 284 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ passPixelDCSfilter_

bool SiStripMonitorCluster::passPixelDCSfilter_

private

Definition at line 285 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ passStripDCSfilter_

bool SiStripMonitorCluster::passStripDCSfilter_

private

Definition at line 286 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ PixVsStripMultiplicityRegions

MonitorElement* SiStripMonitorCluster::PixVsStripMultiplicityRegions = nullptr

Definition at line 120 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ q0

double SiStripMonitorCluster::q0

private

Definition at line 272 of file SiStripMonitorCluster.h.

Referenced by FindRegion().

◆ qualityLabel_

std::string SiStripMonitorCluster::qualityLabel_

private

Definition at line 242 of file SiStripMonitorCluster.h.

◆ reset_each_run

bool SiStripMonitorCluster::reset_each_run

private

Definition at line 174 of file SiStripMonitorCluster.h.

Referenced by bookHistograms(), and createMEs().

◆ runNb

int SiStripMonitorCluster::runNb

private

Definition at line 185 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ select_all_detectors

bool SiStripMonitorCluster::select_all_detectors

private

Definition at line 174 of file SiStripMonitorCluster.h.

◆ show_control_view

bool SiStripMonitorCluster::show_control_view

private

Definition at line 174 of file SiStripMonitorCluster.h.

◆ show_mechanical_structure_view

bool SiStripMonitorCluster::show_mechanical_structure_view

private

Definition at line 174 of file SiStripMonitorCluster.h.

Referenced by bookHistograms(), and createMEs().

◆ show_readout_view

bool SiStripMonitorCluster::show_readout_view

private

Definition at line 174 of file SiStripMonitorCluster.h.

◆ siStripDetCablingEventToken_

edm::ESGetToken<SiStripDetCabling, SiStripDetCablingRcd> SiStripMonitorCluster::siStripDetCablingEventToken_

private

Definition at line 263 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ siStripDetCablingRunToken_

edm::ESGetToken<SiStripDetCabling, SiStripDetCablingRcd> SiStripMonitorCluster::siStripDetCablingRunToken_

private

Definition at line 258 of file SiStripMonitorCluster.h.

Referenced by createMEs().

◆ siStripGainToken_

edm::ESGetToken<SiStripGain, SiStripGainRcd> SiStripMonitorCluster::siStripGainToken_

private

Definition at line 261 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ siStripNoisesToken_

edm::ESGetToken<SiStripNoises, SiStripNoisesRcd> SiStripMonitorCluster::siStripNoisesToken_

private

Definition at line 260 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ siStripQualityToken_

edm::ESGetToken<SiStripQuality, SiStripQualityRcd> SiStripMonitorCluster::siStripQualityToken_

private

Definition at line 262 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ sToNLowerLimit_

double SiStripMonitorCluster::sToNLowerLimit_

private

Definition at line 266 of file SiStripMonitorCluster.h.

◆ sToNUpperLimit_

double SiStripMonitorCluster::sToNUpperLimit_

private

Definition at line 267 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ StripNoise2Cycle

MonitorElement* SiStripMonitorCluster::StripNoise2Cycle = nullptr

Definition at line 124 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ StripNoise3Cycle

MonitorElement* SiStripMonitorCluster::StripNoise3Cycle = nullptr

Definition at line 125 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ subdet_clusterWidth_vs_amplitude_on

bool SiStripMonitorCluster::subdet_clusterWidth_vs_amplitude_on

private

Definition at line 227 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ SubDetMEsMap

std::map<std::string, SubDetMEs> SiStripMonitorCluster::SubDetMEsMap

private

Definition at line 170 of file SiStripMonitorCluster.h.

Referenced by analyze(), createMEs(), and createSubDetMEs().

◆ SubDetPhasePartMap

std::map<std::string, std::string> SiStripMonitorCluster::SubDetPhasePartMap

private

Definition at line 171 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ subdetswitchapvcycledbxprof2on

bool SiStripMonitorCluster::subdetswitchapvcycledbxprof2on

private

Definition at line 222 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchapvcycleprofon

bool SiStripMonitorCluster::subdetswitchapvcycleprofon

private

Definition at line 220 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchapvcycleth2on

bool SiStripMonitorCluster::subdetswitchapvcycleth2on

private

Definition at line 221 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchcluschargeon

bool SiStripMonitorCluster::subdetswitchcluschargeon

private

Definition at line 225 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchcluswidthon

bool SiStripMonitorCluster::subdetswitchcluswidthon

private

Definition at line 226 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchdbxcycleprofon

bool SiStripMonitorCluster::subdetswitchdbxcycleprofon

private

Definition at line 223 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ subdetswitchtotclusprofon

bool SiStripMonitorCluster::subdetswitchtotclusprofon

private

Definition at line 219 of file SiStripMonitorCluster.h.

Referenced by analyze(), createLayerMEs(), and createSubDetMEs().

◆ subdetswitchtotclusth1on

bool SiStripMonitorCluster::subdetswitchtotclusth1on

private

Definition at line 224 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createSubDetMEs().

◆ tkDetMapToken_

edm::ESGetToken<TkDetMap, TrackerTopologyRcd> SiStripMonitorCluster::tkDetMapToken_

private

Definition at line 257 of file SiStripMonitorCluster.h.

Referenced by createMEs().

◆ tkmapcluster

std::unique_ptr<TkHistoMap> SiStripMonitorCluster::tkmapcluster

private

Definition at line 182 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ tkmapclusterch

std::unique_ptr<TkHistoMap> SiStripMonitorCluster::tkmapclusterch

private

Definition at line 183 of file SiStripMonitorCluster.h.

Referenced by analyze(), and createMEs().

◆ topFolderName_

std::string SiStripMonitorCluster::topFolderName_

private

Definition at line 241 of file SiStripMonitorCluster.h.

Referenced by createMEs().

◆ trackerTopologyEventToken_

edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> SiStripMonitorCluster::trackerTopologyEventToken_

private

Definition at line 259 of file SiStripMonitorCluster.h.

Referenced by analyze().

◆ trackerTopologyRunToken_

edm::ESGetToken<TrackerTopology, TrackerTopologyRcd> SiStripMonitorCluster::trackerTopologyRunToken_

private

Definition at line 256 of file SiStripMonitorCluster.h.

Referenced by createMEs().

◆ trendVar

float SiStripMonitorCluster::trendVar

private

Definition at line 187 of file SiStripMonitorCluster.h.

Referenced by analyze(), and fillLayerMEs().

◆ trendVs10Ls_

bool SiStripMonitorCluster::trendVs10Ls_

private

Definition at line 234 of file SiStripMonitorCluster.h.

Referenced by analyze(), bookMETrend(), and createSubDetMEs().

◆ widthLowerLimit_

double SiStripMonitorCluster::widthLowerLimit_

private

Definition at line 268 of file SiStripMonitorCluster.h.

◆ widthUpperLimit_

double SiStripMonitorCluster::widthUpperLimit_

private

Definition at line 269 of file SiStripMonitorCluster.h.

Referenced by analyze().

Classes

Public Member Functions

Public Attributes

Private Member Functions

Private Attributes

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ SiStripMonitorCluster()

◆ ~SiStripMonitorCluster()

Member Function Documentation

◆ analyze()

◆ bookHistograms()

◆ bookME1D()

◆ bookME2D()

◆ bookMETrend()

◆ createLayerMEs()

◆ createMEs()

◆ createModuleMEs()

◆ createSubDetMEs()

◆ dqmBeginRun()

◆ fillLayerMEs()

◆ fillME() [1/4]

◆ fillME() [2/4]

◆ fillME() [3/4]

◆ fillME() [4/4]

◆ fillModuleMEs()

◆ FindRegion()

◆ ResetModuleMEs()

Member Data Documentation

◆ applyClusterQuality_

◆ apvPhaseProducerToken_

◆ BPTXrateTrend

◆ clusterchtkhistomapon

◆ ClusterHisto_

◆ clusterProducerPixToken_

◆ clusterProducerStripToken_

◆ clustertkhistomapon

◆ clusterWidth_vs_amplitude_on

◆ ClusWidthVsAmpTH2

◆ conf_

◆ createTrendMEs

◆ dcsStatus_

◆ dk0

◆ eventNb

◆ firstEvent

◆ genTriggerEventFlagBPTXfilter_

◆ genTriggerEventFlagPixelDCSfilter_

◆ genTriggerEventFlagStripDCSfilter_

◆ GlobalABXTH1_CSCP

◆ GlobalApvCycleDBxTH2

◆ GlobalCStripVsCpix

◆ GlobalDBxCycleTH1

◆ GlobalDBxTH1

◆ GlobalMainDiagonalPosition

◆ GlobalMainDiagonalPosition_vs_BX

◆ globalswitchapvcycledbxth2on

◆ globalswitchcstripvscpix

◆ globalswitchFEDCluster

◆ globalswitchmaindiagonalposition

◆ globalswitchMultiRegions

◆ globalswitchnclusvscycletimeprof2don

◆ globalswitchstripnoise2apvcycle

◆ globalswitchstripnoise3apvcycle

◆ GlobalTH2MainDiagonalPosition_vs_BX

◆ historyProducerToken_

◆ k0

◆ layer_clusterWidth_vs_amplitude_on

◆ LayerDetMap

◆ LayerMEsMap

◆ layerswitchcluschargeon

◆ layerswitchclusdigiposon

◆ layerswitchclusnoiseon

◆ layerswitchclusposon

◆ layerswitchclusstonon

◆ layerswitchclusstonVsposon

◆ layerswitchclusterwidthprofon

◆ layerswitchcluswidthon

◆ layerswitchlocaloccupancy

◆ layerswitchncluson