#include <DQM/SiStripMonitorCluster/src/SiStripMonitorCluster.cc>

Inheritance diagram for SiStripMonitorCluster:

Classes
struct	ClusterProperties
struct	LayerMEs
struct	ModMEs
struct	SubDetMEs
Public Member Functions
virtual void	analyze (const edm::Event &, const edm::EventSetup &)
virtual void	beginRun (const edm::Run &, const edm::EventSetup &)
virtual void	endJob ()
	SiStripMonitorCluster (const edm::ParameterSet &)
	~SiStripMonitorCluster ()
Public Attributes
MonitorElement *	BPTXrateTrend = 0
MonitorElement *	GlobalApvCycleDBxTH2 = 0
MonitorElement *	GlobalCStripVsCpix = 0
MonitorElement *	GlobalMainDiagonalPosition = 0
MonitorElement *	NumberOfPixelClus = 0
MonitorElement *	NumberOfStripClus = 0
MonitorElement *	PixVsStripMultiplicityRegions = 0
MonitorElement *	StripNoise2Cycle = 0
MonitorElement *	StripNoise3Cycle = 0
Private Member Functions
MonitorElement *	bookME1D (const char ParameterSetLabel, const char HistoName)
MonitorElement *	bookMETrend (const char , const char )
void	createLayerMEs (std::string label, int ndets)
void	createMEs (const edm::EventSetup &es)
void	createModuleMEs (ModMEs &mod_single, uint32_t detid)
void	createSubDetMEs (std::string label)
void	fillLayerMEs (LayerMEs &, ClusterProperties &cluster, float timeinorbit)
void	fillME (MonitorElement *ME, float value1)
void	fillME (MonitorElement *ME, float value1, float value2, float value3)
void	fillME (MonitorElement *ME, float value1, float value2)
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::InputTag	apvPhaseProducer_
bool	ClusterHisto_
edm::InputTag	clusterProducerPix_
edm::InputTag	clusterProducerStrip_
bool	clustertkhistomapon
edm::ParameterSet	conf_
bool	createTrendMEs
SiStripDCSStatus *	dcsStatus_
double	dk0
DQMStore *	dqmStore_
int	eventNb
int	firstEvent
GenericTriggerEventFlag *	genTriggerEventFlagBPTXfilter_
GenericTriggerEventFlag *	genTriggerEventFlagPixelDCSfilter_
GenericTriggerEventFlag *	genTriggerEventFlagStripDCSfilter_
bool	globalswitchapvcycledbxth2on
bool	globalswitchcstripvscpix
bool	globalswitchmaindiagonalposition
bool	globalswitchMultiRegions
bool	globalswitchstripnoise2apvcycle
bool	globalswitchstripnoise3apvcycle
edm::InputTag	historyProducer_
double	k0
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_
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::ESHandle< SiStripDetCabling >	SiStripDetCabling_
double	sToNLowerLimit_
double	sToNUpperLimit_
std::map< std::string, SubDetMEs >	SubDetMEsMap
std::map< std::string, std::string >	SubDetPhasePartMap
bool	subdetswitchapvcycledbxprof2on
bool	subdetswitchapvcycleprofon
bool	subdetswitchapvcycleth2on
bool	subdetswitchdbxcycleprofon
bool	subdetswitchtotclusprofon
bool	subdetswitchtotclusth1on
TkHistoMap *	tkmapcluster
std::string	topFolderName_
double	widthLowerLimit_
double	widthUpperLimit_

Detailed Description

Data Quality Monitoring source of the Silicon Strip Tracker. Produces histograms related to clusters.

Definition at line 31 of file SiStripMonitorCluster.h.

Constructor & Destructor Documentation

SiStripMonitorCluster::SiStripMonitorCluster ( const edm::ParameterSet & iConfig ) [explicit]

Definition at line 50 of file SiStripMonitorCluster.cc.

References applyClusterQuality_, apvPhaseProducer_, ClusterHisto_, clusterProducerPix_, clusterProducerStrip_, clustertkhistomapon, conf_, createTrendMEs, dcsStatus_, dk0, eventNb, firstEvent, genTriggerEventFlagBPTXfilter_, genTriggerEventFlagPixelDCSfilter_, genTriggerEventFlagStripDCSfilter_, edm::ParameterSet::getParameter(), globalswitchapvcycledbxth2on, globalswitchcstripvscpix, globalswitchmaindiagonalposition, globalswitchMultiRegions, globalswitchstripnoise2apvcycle, globalswitchstripnoise3apvcycle, historyProducer_, k0, layerswitchcluschargeon, layerswitchclusdigiposon, layerswitchclusnoiseon, layerswitchclusposon, layerswitchclusstonon, layerswitchclusstonVsposon, layerswitchclusterwidthprofon, layerswitchcluswidthon, layerswitchlocaloccupancy, layerswitchncluson, layerswitchnrclusterizedstrip, layerswitchnumclusterprofon, maxClus, minPix, Mod_On_, moduleswitchcluschargeon, moduleswitchclusdigiposon, moduleswitchclusnoiseon, moduleswitchclusposon, moduleswitchclusstonon, moduleswitchclusstonVsposon, moduleswitchcluswidthon, moduleswitchlocaloccupancy, moduleswitchncluson, moduleswitchnrclusterizedstrip, passBPTXfilter_, q0, qualityLabel_, sToNLowerLimit_, sToNUpperLimit_, AlCaHLTBitMon_QueryRunRegistry::string, SubDetPhasePartMap, subdetswitchapvcycledbxprof2on, subdetswitchapvcycleprofon, subdetswitchapvcycleth2on, subdetswitchdbxcycleprofon, subdetswitchtotclusprofon, subdetswitchtotclusth1on, topFolderName_, widthLowerLimit_, and widthUpperLimit_.

  : dqmStore_(edm::Service<DQMStore>().operator->()), 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)
                                            //  , genTriggerEventFlag_(new GenericTriggerEventFlag(iConfig))
{

  // 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")     );
  genTriggerEventFlagPixelDCSfilter_ = new GenericTriggerEventFlag(iConfig.getParameter<edm::ParameterSet>("PixelDCSfilter") );
  genTriggerEventFlagStripDCSfilter_ = new GenericTriggerEventFlag(iConfig.getParameter<edm::ParameterSet>("StripDCSfilter") );

  firstEvent = -1;
  eventNb = 0;

  // Detector Partitions
  SubDetPhasePartMap["TIB"]        = "TI";
  SubDetPhasePartMap["TID__side__1"] = "TI";
  SubDetPhasePartMap["TID__side__2"] = "TI";
  SubDetPhasePartMap["TOB"]        = "TO";
  SubDetPhasePartMap["TEC__side__1"] = "TM";
  SubDetPhasePartMap["TEC__side__2"] = "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");
  
  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");
  
  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");

  clustertkhistomapon = conf_.getParameter<bool>("TkHistoMap_On");
  createTrendMEs = conf_.getParameter<bool>("CreateTrendMEs");
  Mod_On_ = conf_.getParameter<bool>("Mod_On");
  ClusterHisto_ = conf_.getParameter<bool>("ClusterHisto");

  topFolderName_ = conf_.getParameter<std::string>("TopFolderName");


  // Poducer name of input StripClusterCollection
  clusterProducerStrip_ = conf_.getParameter<edm::InputTag>("ClusterProducerStrip");
  clusterProducerPix_ = conf_.getParameter<edm::InputTag>("ClusterProducerPix");
  // SiStrip Quality Label
  qualityLabel_  = conf_.getParameter<std::string>("StripQualityLabel");
  // 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");
  // Apv Phase Producer
  apvPhaseProducer_ = conf_.getParameter<edm::InputTag>("ApvPhaseProducer");

  // Create DCS Status
  bool checkDCS    = conf_.getParameter<bool>("UseDCSFiltering");
  if (checkDCS) dcsStatus_ = new SiStripDCSStatus();
  else dcsStatus_ = 0; 

}

SiStripMonitorCluster::~SiStripMonitorCluster ( )

Definition at line 198 of file SiStripMonitorCluster.cc.

References dcsStatus_, genTriggerEventFlagBPTXfilter_, genTriggerEventFlagPixelDCSfilter_, and genTriggerEventFlagStripDCSfilter_.

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

Member Function Documentation

void SiStripMonitorCluster::analyze	(	const edm::Event &	iEvent,
		const edm::EventSetup &	iSetup
	)		`[virtual]`

Implements edm::EDAnalyzer.

Definition at line 434 of file SiStripMonitorCluster.cc.

{

  // 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
  if (dcsStatus_ && !dcsStatus_->getStatus(iEvent,iSetup)) return;

  runNb   = iEvent.id().run();
  eventNb++;
  float iOrbitSec      = iEvent.orbitNumber()/11223.0;

  int NPixClusters=0, NStripClusters=0, MultiplicityRegion=0;
  bool isPixValid=false;

  edm::ESHandle<SiStripNoises> noiseHandle;
  iSetup.get<SiStripNoisesRcd>().get(noiseHandle);

  edm::ESHandle<SiStripGain> gainHandle;
  iSetup.get<SiStripGainRcd>().get(gainHandle);

  edm::ESHandle<SiStripQuality> qualityHandle;
  iSetup.get<SiStripQualityRcd>().get(qualityLabel_,qualityHandle);

  iSetup.get<SiStripDetCablingRcd>().get(SiStripDetCabling_);

  // get collection of DetSetVector of clusters from Event
  edm::Handle< edmNew::DetSetVector<SiStripCluster> > cluster_detsetvektor;
  iEvent.getByLabel(clusterProducerStrip_, cluster_detsetvektor);

  //get pixel clusters
  edm::Handle< edmNew::DetSetVector<SiPixelCluster> > cluster_detsetvektor_pix;
  iEvent.getByLabel(clusterProducerPix_, 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_ ) {
      if (globalswitchcstripvscpix) GlobalCStripVsCpix->Fill(NStripClusters,NPixClusters);
      if (globalswitchmaindiagonalposition && NStripClusters > 0) GlobalMainDiagonalPosition->Fill(atan(NPixClusters/(k0*NStripClusters)));
      if (globalswitchMultiRegions) PixVsStripMultiplicityRegions->Fill(MultiplicityRegion);
    }
   
    if (ClusterHisto_){
      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;
  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;
     } 

    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.size() == 0) subdet_label = folder_organizer.getSubDetFolderAndTag(detid).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()){
        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 (found_layer_me && layerswitchnumclusterprofon) layer_single.LayerNumberOfClusterProfile->Fill(iDet, 0.0);
        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'
      
      // Filling TkHistoMap with number of clusters for each module 
      if(clustertkhistomapon) {
        tkmapcluster->fill(detid,static_cast<float>(cluster_detset.size()));
      }

      if(moduleswitchncluson && found_module_me && (mod_single.NumberOfClusters != NULL)){ // nr. of clusters per module
        (mod_single.NumberOfClusters)->Fill(static_cast<float>(cluster_detset.size()));
      }

      if (found_layer_me && layerswitchnumclusterprofon) 
        layer_single.LayerNumberOfClusterProfile->Fill(iDet, static_cast<float>(cluster_detset.size()));
      ncluster_layer +=  cluster_detset.size();
      
      short total_clusterized_strips = 0;
      
      SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detid);
      SiStripApvGain::Range detGainRange = gainHandle->getRange(detid); 
      SiStripQuality::Range qualityRange = qualityHandle->getRange(detid);
      
      for(edmNew::DetSet<SiStripCluster>::const_iterator clusterIter = cluster_detset.begin(); clusterIter!= cluster_detset.end(); clusterIter++){

        const std::vector<uint8_t>& 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; 
        
        // 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(!qualityHandle->IsStripBad(qualityRange, clusterIter->firstStrip()+iamp)){
              noise = noiseHandle->getNoise(clusterIter->firstStrip()+iamp,detNoiseRange)/gainHandle->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) fillModuleMEs(mod_single, cluster_properties);
        
        // Fill Layer Level MEs
        if (found_layer_me) {
          fillLayerMEs(layer_single, cluster_properties, iOrbitSec);
          if (layerswitchclusterwidthprofon) 
            layer_single.LayerClusterWidthProfile->Fill(iDet, cluster_width);
        }
      } // end loop over clusters
      
      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) {
        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) {
        fillME(layer_single.LayerLocalOccupancy,local_occupancy);
        if (createTrendMEs) fillME(layer_single.LayerLocalOccupancyTrend,iOrbitSec,local_occupancy);
      }
    }
    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.getByLabel(historyProducer_,event_history);
  
  // Phase of APV
  edm::Handle<APVCyclePhaseCollection> apv_phase_collection;
  iEvent.getByLabel(apvPhaseProducer_,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;

    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);
      if (globalswitchapvcycledbxth2on && !global_histo_filled) { 
        GlobalApvCycleDBxTH2->Fill(tbx_corr%70,dbx);
        global_histo_filled = true;
      }

      if (isPixValid && !MultiplicityRegion_Vs_APVcycle_filled){        
        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)
          sdetmes.SubDetTotClusterTH1->Fill(sdetmes.totNClusters);
      if (subdetswitchtotclusprofon)
          sdetmes.SubDetTotClusterProf->Fill(iOrbitSec,sdetmes.totNClusters);
      if (subdetswitchapvcycleprofon)
        sdetmes.SubDetClusterApvProf->Fill(tbx_corr%70,sdetmes.totNClusters);
      if (subdetswitchapvcycleth2on)
        sdetmes.SubDetClusterApvTH2->Fill(tbx_corr%70,sdetmes.totNClusters);
      if (subdetswitchdbxcycleprofon)
        sdetmes.SubDetClusterDBxCycleProf->Fill(dbxincycle,sdetmes.totNClusters);
      if (subdetswitchapvcycledbxprof2on)
        sdetmes.SubDetApvDBxProf2->Fill(tbx_corr%70,dbx,sdetmes.totNClusters);
    }
  }
}

void SiStripMonitorCluster::beginRun	(	const edm::Run &	run,
		const edm::EventSetup &	es
	)		`[virtual]`

Reimplemented from edm::EDAnalyzer.

Definition at line 206 of file SiStripMonitorCluster.cc.

References createMEs(), genTriggerEventFlagBPTXfilter_, genTriggerEventFlagPixelDCSfilter_, genTriggerEventFlagStripDCSfilter_, edm::EventSetup::get(), GenericTriggerEventFlag::initRun(), m_cacheID_, ModuleMEsMap, GenericTriggerEventFlag::on(), reset_each_run, ResetModuleMEs(), and show_mechanical_structure_view.

                                                                              {

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

  if (show_mechanical_structure_view) {
    unsigned long long cacheID = es.get<SiStripDetCablingRcd>().cacheIdentifier();
    if (m_cacheID_ != cacheID) {
      m_cacheID_ = cacheID;       
     edm::LogInfo("SiStripMonitorCluster") <<"SiStripMonitorCluster::beginRun: " 
                                            << " Creating MEs for new Cabling ";     

      createMEs(es);
    } 
  } else if (reset_each_run) {
    edm::LogInfo("SiStripMonitorCluster") <<"SiStripMonitorCluster::beginRun: " 
                                          << " Resetting MEs ";        
    for (std::map<uint32_t, ModMEs >::const_iterator idet = ModuleMEsMap.begin() ; idet!=ModuleMEsMap.end() ; idet++) {
      ResetModuleMEs(idet->first);
    }
  }
}

MonitorElement * SiStripMonitorCluster::bookME1D	(	const char *	ParameterSetLabel,
		const char *	HistoName
	)		`[private]`

Definition at line 1099 of file SiStripMonitorCluster.cc.

References DQMStore::book1D(), conf_, dqmStore_, and edm::ParameterSet::getParameter().

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

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

MonitorElement * SiStripMonitorCluster::bookMETrend	(	const char *	ParameterSetLabel,
		const char *	HistoName
	)		`[private]`

Definition at line 1078 of file SiStripMonitorCluster.cc.

References DQMStore::bookProfile(), conf_, MonitorElement::DQM_KIND_TPROFILE, dqmStore_, edm::ParameterSet::getParameter(), and MonitorElement::setAxisTitle().

Referenced by createLayerMEs().

{
  Parameters =  conf_.getParameter<edm::ParameterSet>(ParameterSetLabel);
  edm::ParameterSet ParametersTrend =  conf_.getParameter<edm::ParameterSet>("Trending");
  MonitorElement* me = dqmStore_->bookProfile(HistoName,HistoName,
                                              ParametersTrend.getParameter<int32_t>("Nbins"),
                                              //                                              0,
                                              ParametersTrend.getParameter<double>("xmin"),
                                              ParametersTrend.getParameter<double>("xmax"),
                                              //                                              ParametersTrend.getParameter<int32_t>("Nbins"),
                                              100, //that parameter should not be there !?
                                              ParametersTrend.getParameter<double>("ymin"),
                                              ParametersTrend.getParameter<double>("ymax"),
                                              "" );
  if(!me) return me;
  me->setAxisTitle("Event Time in Seconds",1);
  if (me->kind() == MonitorElement::DQM_KIND_TPROFILE) me->getTH1()->SetBit(TH1::kCanRebin);
  return me;
}

void SiStripMonitorCluster::createLayerMEs	(	std::string	label,
		int	ndets
	)		`[private]`

Definition at line 845 of file SiStripMonitorCluster.cc.

Referenced by createMEs().

                                                                     {

  SiStripHistoId hidmanager;
  
  LayerMEs layerMEs; 
  layerMEs.LayerClusterStoN = 0;
  layerMEs.LayerClusterStoNTrend = 0;
  layerMEs.LayerClusterCharge = 0;
  layerMEs.LayerClusterChargeTrend = 0;
  layerMEs.LayerClusterNoise = 0;
  layerMEs.LayerClusterNoiseTrend = 0;
  layerMEs.LayerClusterWidth = 0;
  layerMEs.LayerClusterWidthTrend = 0;
  layerMEs.LayerLocalOccupancy = 0;
  layerMEs.LayerLocalOccupancyTrend = 0;
  layerMEs.LayerNumberOfClusterProfile = 0;
  layerMEs.LayerClusterWidthProfile = 0;
  
  //Cluster Width
  if(layerswitchcluswidthon) {
    layerMEs.LayerClusterWidth=bookME1D("TH1ClusterWidth", hidmanager.createHistoLayer("Summary_ClusterWidth","layer",label,"").c_str()); 
    if (createTrendMEs) layerMEs.LayerClusterWidthTrend=bookMETrend("TH1ClusterWidth", hidmanager.createHistoLayer("Trend_ClusterWidth","layer",label,"").c_str()); 
  }
  
  //Cluster Noise
  if(layerswitchclusnoiseon) {
    layerMEs.LayerClusterNoise=bookME1D("TH1ClusterNoise", hidmanager.createHistoLayer("Summary_ClusterNoise","layer",label,"").c_str()); 
    if (createTrendMEs) layerMEs.LayerClusterNoiseTrend=bookMETrend("TH1ClusterNoise", hidmanager.createHistoLayer("Trend_ClusterNoise","layer",label,"").c_str()); 
  }
  
  //Cluster Charge
  if(layerswitchcluschargeon) {
    layerMEs.LayerClusterCharge=bookME1D("TH1ClusterCharge", hidmanager.createHistoLayer("Summary_ClusterCharge","layer",label,"").c_str());
    if (createTrendMEs) layerMEs.LayerClusterChargeTrend=bookMETrend("TH1ClusterCharge", hidmanager.createHistoLayer("Trend_ClusterCharge","layer",label,"").c_str());
  }
  
  //Cluster StoN
  if(layerswitchclusstonon) {
    layerMEs.LayerClusterStoN=bookME1D("TH1ClusterStoN", hidmanager.createHistoLayer("Summary_ClusterSignalOverNoise","layer",label,"").c_str());
    if (createTrendMEs) layerMEs.LayerClusterStoNTrend=bookMETrend("TH1ClusterStoN", hidmanager.createHistoLayer("Trend_ClusterSignalOverNoise","layer",label,"").c_str());
  }
  
  //Cluster Occupancy
  if(layerswitchlocaloccupancy) {
    layerMEs.LayerLocalOccupancy=bookME1D("TH1ModuleLocalOccupancy", hidmanager.createHistoLayer("Summary_ClusterLocalOccupancy","layer",label,"").c_str());  
    if (createTrendMEs) layerMEs.LayerLocalOccupancyTrend=bookMETrend("TH1ModuleLocalOccupancy", hidmanager.createHistoLayer("Trend_ClusterLocalOccupancy","layer",label,"").c_str());  
    
  }
  
  // # of Cluster Profile 
  if(layerswitchnumclusterprofon) {
    std::string hid = hidmanager.createHistoLayer("NumberOfClusterProfile","layer",label,"");
    layerMEs.LayerNumberOfClusterProfile = dqmStore_->bookProfile(hid, hid, ndets, 0.5, ndets+0.5,21, -0.5, 20.5);      
  }
  
  // Cluster Width Profile 
  if(layerswitchclusterwidthprofon) {
    std::string hid = hidmanager.createHistoLayer("ClusterWidthProfile","layer",label,"");      
    layerMEs.LayerClusterWidthProfile = dqmStore_->bookProfile(hid, hid, ndets, 0.5, ndets+0.5, 20, -0.5, 19.5);      
  }

  LayerMEsMap[label]=layerMEs;
}

void SiStripMonitorCluster::createMEs ( const edm::EventSetup & es ) [private]

Definition at line 235 of file SiStripMonitorCluster.cc.

References abs, DQMStore::book1D(), DQMStore::book2D(), ClusterHisto_, clustertkhistomapon, conf_, createLayerMEs(), createModuleMEs(), createSubDetMEs(), cond::rpcobgas::detid, dqmStore_, edm::EventSetup::get(), edm::ParameterSet::getParameter(), SiStripFolderOrganizer::GetSubDetAndLayer(), SiStripFolderOrganizer::getSubDetFolderAndTag(), SiStripHistoId::getSubdetid(), SiStripSubStructure::getTECDetectors(), SiStripSubStructure::getTIBDetectors(), SiStripSubStructure::getTIDDetectors(), SiStripSubStructure::getTOBDetectors(), GlobalApvCycleDBxTH2, GlobalCStripVsCpix, GlobalMainDiagonalPosition, globalswitchapvcycledbxth2on, globalswitchcstripvscpix, globalswitchmaindiagonalposition, globalswitchMultiRegions, globalswitchstripnoise2apvcycle, globalswitchstripnoise3apvcycle, diffTwoXMLs::label, LayerDetMap, LayerMEsMap, Mod_On_, ModuleMEsMap, NumberOfPixelClus, NumberOfStripClus, PixVsStripMultiplicityRegions, reset_each_run, ResetModuleMEs(), MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), DQMStore::setCurrentFolder(), SiStripFolderOrganizer::setDetectorFolder(), SiStripFolderOrganizer::setLayerFolder(), SiStripFolderOrganizer::setSiStripFolder(), SiStripFolderOrganizer::setSiStripFolderName(), show_mechanical_structure_view, SiStripDetCabling_, AlCaHLTBitMon_QueryRunRegistry::string, StripNoise2Cycle, StripNoise3Cycle, SubDetMEsMap, tkmapcluster, and topFolderName_.

Referenced by beginRun().

                                                            {

  if ( show_mechanical_structure_view ){
    // take from eventSetup the SiStripDetCabling object - here will use SiStripDetControl later on
    es.get<SiStripDetCablingRcd>().get(SiStripDetCabling_);
    
    // get list of active detectors from SiStripDetCabling 
    std::vector<uint32_t> activeDets;
    SiStripDetCabling_->addActiveDetectorsRawIds(activeDets);
    
    SiStripSubStructure substructure;

    SiStripFolderOrganizer folder_organizer;
    folder_organizer.setSiStripFolderName(topFolderName_);
    folder_organizer.setSiStripFolder();


    // Create TkHistoMap for Cluster
    if (clustertkhistomapon) {
      if (topFolderName_ == "SiStrip") tkmapcluster = new TkHistoMap("SiStrip/TkHistoMap","TkHMap_NumberOfCluster",0.,1);
      else tkmapcluster = new TkHistoMap(topFolderName_+"/TkHistoMap","TkHMap_NumberOfCluster",0.,0);
    }    

    // 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); // pass the detid to this method
        if (reset_each_run) ResetModuleMEs(detid);
        createModuleMEs(mod_single, detid);
        // 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);
      SiStripHistoId hidmanager;
      std::string label = hidmanager.getSubdetid(detid,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") {
          substructure.getTIBDetectors(activeDets,layerDetIds,lnumber,0,0,0);
        } else if (det_layer_pair.first == "TOB") {
          substructure.getTOBDetectors(activeDets,layerDetIds,lnumber,0,0);
        } else if (det_layer_pair.first == "TID" && lnumber > 0) {
          substructure.getTIDDetectors(activeDets,layerDetIds,2,abs(lnumber),0,0);
        } else if (det_layer_pair.first == "TID" && lnumber < 0) {
          substructure.getTIDDetectors(activeDets,layerDetIds,1,abs(lnumber),0,0);
        } else if (det_layer_pair.first == "TEC" && lnumber > 0) {
          substructure.getTECDetectors(activeDets,layerDetIds,2,abs(lnumber),0,0,0,0);
        } else if (det_layer_pair.first == "TEC" && lnumber < 0) {
          substructure.getTECDetectors(activeDets,layerDetIds,1,abs(lnumber),0,0,0,0);
        }
        LayerDetMap[label] = layerDetIds;

        // book Layer MEs 
        folder_organizer.setLayerFolder(detid,det_layer_pair.second);
        createLayerMEs(label, layerDetIds.size());
      }
      // book sub-detector plots
      std::pair<std::string,std::string> sdet_pair = folder_organizer.getSubDetFolderAndTag(detid);
      if (SubDetMEsMap.find(sdet_pair.second) == SubDetMEsMap.end()){
        dqmStore_->setCurrentFolder(sdet_pair.first);
        createSubDetMEs(sdet_pair.second);        
      }
    }//end of loop over detectors

    // Create Global Histogram
    if (globalswitchapvcycledbxth2on) {
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH2Parameters =  conf_.getParameter<edm::ParameterSet>("TH2ApvCycleVsDBxGlobal");
      std::string HistoName = "DeltaBx_vs_ApvCycle";
      GlobalApvCycleDBxTH2 = dqmStore_->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);
    }

    if (globalswitchcstripvscpix) {
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH2Parameters =  conf_.getParameter<edm::ParameterSet>("TH2CStripVsCpixel");
      std::string HistoName = "StripClusVsPixClus";
      GlobalCStripVsCpix = dqmStore_->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);
    }
    
    if (globalswitchMultiRegions){
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH2Parameters =  conf_.getParameter<edm::ParameterSet>("TH1MultiplicityRegions");
      std::string HistoName = "ClusterMultiplicityRegions";
      PixVsStripMultiplicityRegions = dqmStore_->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){
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH1Parameters =  conf_.getParameter<edm::ParameterSet>("TH1MainDiagonalPosition");
      std::string HistoName = "MainDiagonal Position";
      GlobalMainDiagonalPosition = dqmStore_->book1D(HistoName,HistoName,
                                             GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                             GlobalTH1Parameters.getParameter<double>("xmin"),
                                             GlobalTH1Parameters.getParameter<double>("xmax"));
      GlobalMainDiagonalPosition->setAxisTitle("atan(NPix/(k*NStrip))");
    }

    // TO BE ADDED !!!
    /*
    if ( globalswitchapvcycledbxth2on or globalswitchcstripvscpix or globalswitchMultiRegions or ClusterHisto_ ) {
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      std::string HistoName = "BPTX rate";
      BPTXrateTrend = dqmStore_->bookProfile(HistoName,HistoName, LSBin, LSMin, LSMax, 0, 10000.,"");
      BPTXrateTrend->getTH1()->SetBit(TH1::kCanRebin);
      BPTXrateTrend->setAxisTitle("#Lumi section",1);
      BPTXrateTrend->setAxisTitle("Number of BPTX events per LS",2);
    }
    */

    if (globalswitchstripnoise2apvcycle){
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH1Parameters =  conf_.getParameter<edm::ParameterSet>("TH1StripNoise2ApvCycle");
      std::string HistoName = "StripNoise_ApvCycle";
      StripNoise2Cycle = dqmStore_->book1D(HistoName,HistoName,
                                             GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                             GlobalTH1Parameters.getParameter<double>("xmin"),
                                             GlobalTH1Parameters.getParameter<double>("xmax"));
      StripNoise2Cycle->setAxisTitle("APV Cycle");
    }

    if (globalswitchstripnoise3apvcycle){
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet GlobalTH1Parameters =  conf_.getParameter<edm::ParameterSet>("TH1StripNoise3ApvCycle");
      std::string HistoName = "HighStripNoise_ApvCycle";
      StripNoise3Cycle = dqmStore_->book1D(HistoName,HistoName,
                                             GlobalTH1Parameters.getParameter<int32_t>("Nbinsx"),
                                             GlobalTH1Parameters.getParameter<double>("xmin"),
                                             GlobalTH1Parameters.getParameter<double>("xmax"));
      StripNoise3Cycle->setAxisTitle("APV Cycle");
    }

    if (ClusterHisto_){
      dqmStore_->setCurrentFolder(topFolderName_+"/MechanicalView/");
      edm::ParameterSet PixelCluster =  conf_.getParameter<edm::ParameterSet>("TH1NClusPx");
      std::string HistoName = "NumberOfClustersInPixel";
      NumberOfPixelClus = dqmStore_->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 = dqmStore_->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);
    }

 
  }//end of if
}//end of method

void SiStripMonitorCluster::createModuleMEs	(	ModMEs &	mod_single,
		uint32_t	detid
	)		`[private]`

Definition at line 745 of file SiStripMonitorCluster.cc.

Referenced by createMEs().

                                                                              {

  // 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());
    dqmStore_->tag(mod_single.NumberOfClusters, detid);
    mod_single.NumberOfClusters->setAxisTitle("number of clusters in one detector module");
    mod_single.NumberOfClusters->getTH1()->StatOverflows(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 = dqmStore_->book1D(hid, hid, total_nr_strips, 0.5, total_nr_strips+0.5);
    dqmStore_->tag(mod_single.ClusterPosition, detid);
    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 = dqmStore_->book1D(hid, hid, total_nr_strips, 0.5, total_nr_strips+0.5);
    dqmStore_->tag(mod_single.ClusterDigiPosition, detid);
    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());
    dqmStore_->tag(mod_single.ClusterWidth, detid);
    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());
    dqmStore_->tag(mod_single.ClusterCharge, detid);
    mod_single.ClusterCharge->setAxisTitle("cluster charge [ADC]");
  }
  
  //ClusterNoise
  if(moduleswitchclusnoiseon) {
    hid = hidmanager.createHistoId("ClusterNoise","det",detid);
    mod_single.ClusterNoise = bookME1D("TH1ClusterNoise", hid.c_str());
    dqmStore_->tag(mod_single.ClusterNoise, detid);
    mod_single.ClusterNoise->setAxisTitle("cluster noise");
  }
  
  //ClusterSignalOverNoise
  if(moduleswitchclusstonon) {
    hid = hidmanager.createHistoId("ClusterSignalOverNoise","det",detid);
    mod_single.ClusterSignalOverNoise = bookME1D("TH1ClusterStoN", hid.c_str());
    dqmStore_->tag(mod_single.ClusterSignalOverNoise, detid);
    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= dqmStore_->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")
                                                                   );
    dqmStore_->tag(mod_single.ClusterSignalOverNoiseVsPos, detid);
    mod_single.ClusterSignalOverNoiseVsPos->setAxisTitle("pos");
  }
  
  //ModuleLocalOccupancy
  if (moduleswitchlocaloccupancy) {
    hid = hidmanager.createHistoId("ClusterLocalOccupancy","det",detid);
    mod_single.ModuleLocalOccupancy = bookME1D("TH1ModuleLocalOccupancy", hid.c_str());
    dqmStore_->tag(mod_single.ModuleLocalOccupancy, detid);
    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());
    dqmStore_->tag(mod_single.NrOfClusterizedStrips, detid);
    mod_single.NrOfClusterizedStrips->setAxisTitle("number of clusterized strips");
  }
}

void SiStripMonitorCluster::createSubDetMEs ( std::string label ) [private]

Definition at line 911 of file SiStripMonitorCluster.cc.

References DQMStore::book2D(), bookME1D(), DQMStore::bookProfile(), DQMStore::bookProfile2D(), conf_, MonitorElement::DQM_KIND_TPROFILE, dqmStore_, edm::ParameterSet::getParameter(), MonitorElement::getTH1(), MonitorElement::kind(), diffTwoXMLs::label, MonitorElement::setAxisTitle(), AlCaHLTBitMon_QueryRunRegistry::string, SiStripMonitorCluster::SubDetMEs::SubDetApvDBxProf2, SiStripMonitorCluster::SubDetMEs::SubDetClusterApvProf, SiStripMonitorCluster::SubDetMEs::SubDetClusterApvTH2, SiStripMonitorCluster::SubDetMEs::SubDetClusterDBxCycleProf, SubDetMEsMap, subdetswitchapvcycledbxprof2on, subdetswitchapvcycleprofon, subdetswitchapvcycleth2on, subdetswitchdbxcycleprofon, subdetswitchtotclusprofon, subdetswitchtotclusth1on, SiStripMonitorCluster::SubDetMEs::SubDetTotClusterProf, SiStripMonitorCluster::SubDetMEs::SubDetTotClusterTH1, and SiStripMonitorCluster::SubDetMEs::totNClusters.

Referenced by createMEs().

                                                           {

  SubDetMEs subdetMEs;
  subdetMEs.totNClusters              = 0;
  subdetMEs.SubDetTotClusterTH1       = 0;
  subdetMEs.SubDetTotClusterProf      = 0;
  subdetMEs.SubDetClusterApvProf      = 0;
  subdetMEs.SubDetClusterApvTH2       = 0;
  subdetMEs.SubDetClusterDBxCycleProf = 0;
  subdetMEs.SubDetApvDBxProf2         = 0;
  
  std::string HistoName;
  // Total Number of Cluster - 1D 
  if (subdetswitchtotclusth1on){
    HistoName = "TotalNumberOfCluster__" + label;
    subdetMEs.SubDetTotClusterTH1 = bookME1D("TH1TotalNumberOfClusters",HistoName.c_str());
    subdetMEs.SubDetTotClusterTH1->setAxisTitle("Total number of clusters in subdetector");
    subdetMEs.SubDetTotClusterTH1->getTH1()->StatOverflows(kTRUE);  // over/underflows in Mean calculation
  }
  // Total Number of Cluster vs Time - Profile
  if (subdetswitchtotclusprofon){
    edm::ParameterSet Parameters =  conf_.getParameter<edm::ParameterSet>("TProfTotalNumberOfClusters");
    HistoName = "TotalNumberOfClusterProfile__" + label;
    subdetMEs.SubDetTotClusterProf = dqmStore_->bookProfile(HistoName,HistoName,
                                                            Parameters.getParameter<int32_t>("Nbins"),
                                                            Parameters.getParameter<double>("xmin"),
                                                            Parameters.getParameter<double>("xmax"),
                                                            100, //that parameter should not be there !?
                                                            Parameters.getParameter<double>("ymin"),
                                                            Parameters.getParameter<double>("ymax"),
                                                            "" );
    subdetMEs.SubDetTotClusterProf->setAxisTitle("Event Time (Seconds)",1);
    if (subdetMEs.SubDetTotClusterProf->kind() == MonitorElement::DQM_KIND_TPROFILE) subdetMEs.SubDetTotClusterProf->getTH1()->SetBit(TH1::kCanRebin);
  }
  // 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=dqmStore_->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=dqmStore_->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);
   
  }
  // Total Number of Cluster vs DeltaBxCycle - Profile
  if(subdetswitchdbxcycleprofon){
    edm::ParameterSet Parameters =  conf_.getParameter<edm::ParameterSet>("TProfClustersVsDBxCycle");
    HistoName = "Cluster_vs_DeltaBxCycle__" + label;
    subdetMEs.SubDetClusterDBxCycleProf = dqmStore_->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 = dqmStore_->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;
}

void SiStripMonitorCluster::endJob ( void ) [virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 717 of file SiStripMonitorCluster.cc.

References conf_, dqmStore_, edm::ParameterSet::getParameter(), dumpDBToFile_GT_ttrig_cfg::outputFileName, DQMStore::save(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                      {
  bool outputMEsInRootFile = conf_.getParameter<bool>("OutputMEsInRootFile");
  std::string outputFileName = conf_.getParameter<std::string>("OutputFileName");
 
  // save histos in a file
  if(outputMEsInRootFile) dqmStore_->save(outputFileName);
}

void SiStripMonitorCluster::fillLayerMEs	(	LayerMEs &	layerMEs,
		ClusterProperties &	cluster,
		float	timeinorbit
	)		`[private]`

Definition at line 1055 of file SiStripMonitorCluster.cc.

Referenced by analyze().

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

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2,
		float	value3,
		float	value4
	)		`[inline, private]`

Definition at line 114 of file SiStripMonitorCluster.h.

References MonitorElement::Fill().

{if (ME!=0)ME->Fill(value1,value2,value3,value4);}

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1
	)		`[inline, private]`

Definition at line 111 of file SiStripMonitorCluster.h.

References MonitorElement::Fill().

Referenced by analyze(), and fillLayerMEs().

{if (ME!=0)ME->Fill(value1);}

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2
	)		`[inline, private]`

Definition at line 112 of file SiStripMonitorCluster.h.

References MonitorElement::Fill().

{if (ME!=0)ME->Fill(value1,value2);}

void SiStripMonitorCluster::fillME	(	MonitorElement *	ME,
		float	value1,
		float	value2,
		float	value3
	)		`[inline, private]`

Definition at line 113 of file SiStripMonitorCluster.h.

References MonitorElement::Fill().

{if (ME!=0)ME->Fill(value1,value2,value3);}

void SiStripMonitorCluster::fillModuleMEs	(	ModMEs &	mod_mes,
		ClusterProperties &	cluster
	)		`[private]`

Definition at line 1020 of file SiStripMonitorCluster.cc.

Referenced by analyze().

                                                                                     {
  
  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);
  
}

int SiStripMonitorCluster::FindRegion	(	int	nstrip,
		int	npixel
	)		`[private]`

Definition at line 1109 of file SiStripMonitorCluster.cc.

References dk0, k0, maxClus, minPix, and q0.

Referenced by analyze().

                                                        {
  
  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;

}

void SiStripMonitorCluster::ResetModuleMEs ( uint32_t idet ) [private]

Definition at line 727 of file SiStripMonitorCluster.cc.

Referenced by beginRun(), and createMEs().

                                                       {
  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(); 
}