#include <HcalRawDataMonitor.h>

Inheritance diagram for HcalRawDataMonitor:

Public Member Functions
	HcalRawDataMonitor (const edm::ParameterSet &ps)

	HcalRawDataMonitor ()

	~HcalRawDataMonitor ()

Public Member Functions inherited from HcalBaseDQMonitor
	HcalBaseDQMonitor (const edm::ParameterSet &ps)

	HcalBaseDQMonitor ()

virtual	~HcalBaseDQMonitor ()

Public Member Functions inherited from DQMEDAnalyzer
virtual void	beginRun (edm::Run const &, edm::EventSetup const &) final

virtual void	beginStream (edm::StreamID id) final

	DQMEDAnalyzer (void)

virtual void	endLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

virtual void	endRunSummary (edm::Run const &, edm::EventSetup const &, dqmDetails::NoCache *) const final

uint32_t	streamId () const

Public Member Functions inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
	EDAnalyzer ()=default

Public Member Functions inherited from edm::stream::EDAnalyzerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

	EDAnalyzerBase ()

ModuleDescription const &	moduleDescription () const

virtual	~EDAnalyzerBase ()

Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const

	EDConsumerBase ()

ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const

std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const

void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const

bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const

bool	registeredToConsumeMany (TypeID const &, BranchType) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Protected Member Functions
void	analyze (const edm::Event &e, const edm::EventSetup &c)

void	beginLuminosityBlock (const edm::LuminosityBlock &lumiSeg, const edm::EventSetup &c)

void	bookHistograms (DQMStore::IBooker &ib, const edm::Run &run, const edm::EventSetup &c)

void	endJob (void)

void	endLuminosityBlock (const edm::LuminosityBlock &lumiSeg, const edm::EventSetup &c)

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

HcalDetId	HashToHDI (int thehash)

int	hashup (uint32_t d=0, uint32_t s=0, uint32_t c=1)

void	mapChannproblem (int dcc, int spigot, int htrchan)

void	mapDCCproblem (int dcc)

void	mapHTRproblem (int dcc, int spigot)

void	processEvent (const FEDRawDataCollection &rawraw, const HcalUnpackerReport &report)

void	reset (void)

void	setup (DQMStore::IBooker &)

void	stashHDI (int thehash, HcalDetId thehcaldetid)

void	unpack (const FEDRawData &raw)

void	whosebad (int subdet)

Protected Member Functions inherited from HcalBaseDQMonitor
virtual void	cleanup (void)

virtual void	dqmBeginRun (const edm::Run &run, const edm::EventSetup &c)

void	getLogicalMap (const edm::EventSetup &c)

bool	IsAllowedCalibType ()

bool	LumiInOrder (int lumisec)

void	SetupEtaPhiHists (DQMStore::IBooker &ib, EtaPhiHists &hh, std::string Name, std::string Units)

Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)

EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)

ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...

template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()

void	consumesMany (const TypeToGet &id)

template<BranchType B>
void	consumesMany (const TypeToGet &id)

template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)

EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)

Protected Attributes
edm::InputTag	digiLabel_

edm::InputTag	FEDRawDataCollection_

uint64_t	problemcount [85][72][4]

bool	problemfound [85][72][4]

const HcalElectronicsMap *	readoutMap_

edm::EDGetTokenT < FEDRawDataCollection >	tok_raw_

edm::EDGetTokenT < HcalUnpackerReport >	tok_unpack_

uint64_t	uniqcounter [85][72][4]

Protected Attributes inherited from HcalBaseDQMonitor
std::vector< int >	AllowedCalibTypes_

int	badChannelStatusMask_

int	currentLS

int	currenttype_

int	debug_

bool	enableCleanup_

bool	eventAllowed_

bool	HBpresent_

bool	HEpresent_

bool	HFpresent_

bool	HOpresent_

int	ievt_

std::map< unsigned int, int >	KnownBadCells_

int	levt_

HcalLogicalMap *	logicalMap_

bool	makeDiagnostics_

MonitorElement *	meIevt_

MonitorElement *	meLevt_

bool	mergeRuns_

MonitorElement *	meTevt_

MonitorElement *	meTevtHist_

bool	needLogicalMap_

int	NLumiBlocks_

bool	Online_

std::string	prefixME_

MonitorElement *	ProblemsCurrentLB

MonitorElement *	ProblemsVsLB

MonitorElement *	ProblemsVsLB_HB

MonitorElement *	ProblemsVsLB_HBHEHF

MonitorElement *	ProblemsVsLB_HE

MonitorElement *	ProblemsVsLB_HF

MonitorElement *	ProblemsVsLB_HO

bool	skipOutOfOrderLS_

std::string	subdir_

int	tevt_

Private Member Functions
void	HTRPrint (const HcalHTRData &htr, int prtlvl)

void	label_xChanns (MonitorElement *me_ptr, int xbins)

void	label_xFEDs (MonitorElement *me_ptr, int xbins)

void	label_ySpigots (MonitorElement *me_ptr, int ybins)

void	labelHTRBits (MonitorElement *mePlot, unsigned int axisType)

void	UpdateMEs (void)

Private Attributes
std::map< int, short >::iterator	CDFReservedBits_it

std::map< int, short >	CDFReservedBits_list

std::map< int, short >::iterator	CDFvers_it

std::map< int, short >	CDFversionNumber_list

float	Chann_DataIntegrityCheck_ [32][(1+((2+1)24))][(1+((2+1)15))]

float	ChannSumm_DataIntegrityCheck_ [(1+((2+1)32))][(1+((2+1)15))]

float	DataFlowInd_ [(1+((2+1)32))][(1+((3+1)15))]

std::map< int, short >::iterator	DCCEvtFormat_it

std::map< int, short >	DCCEvtFormat_list

bool	excludeHORing2_

float	HalfHTRDataCorruptionIndicators_ [(1+((3+1)32))][(1+((3+1)15))]

HcalDetId	hashedHcalDetId_ [32 15 24]

MonitorElement *	HTR_StatusWd_HBHE

MonitorElement *	HTR_StatusWd_HF

MonitorElement *	HTR_StatusWd_HO

float	LRBDataCorruptionIndicators_ [(1+((3+1)32))][(1+((3+1)15))]

MonitorElement *	meBCN_

MonitorElement *	meBCNCheck_

MonitorElement *	meBCNSynch_

MonitorElement *	meBCNwhenOrNDiff_

MonitorElement *	meCDFErrorFound_

MonitorElement *	meCh_DataIntegrityFED00_

MonitorElement *	meCh_DataIntegrityFED01_

MonitorElement *	meCh_DataIntegrityFED02_

MonitorElement *	meCh_DataIntegrityFED03_

MonitorElement *	meCh_DataIntegrityFED04_

MonitorElement *	meCh_DataIntegrityFED05_

MonitorElement *	meCh_DataIntegrityFED06_

MonitorElement *	meCh_DataIntegrityFED07_

MonitorElement *	meCh_DataIntegrityFED08_

MonitorElement *	meCh_DataIntegrityFED09_

MonitorElement *	meCh_DataIntegrityFED10_

MonitorElement *	meCh_DataIntegrityFED11_

MonitorElement *	meCh_DataIntegrityFED12_

MonitorElement *	meCh_DataIntegrityFED13_

MonitorElement *	meCh_DataIntegrityFED14_

MonitorElement *	meCh_DataIntegrityFED15_

MonitorElement *	meCh_DataIntegrityFED16_

MonitorElement *	meCh_DataIntegrityFED17_

MonitorElement *	meCh_DataIntegrityFED18_

MonitorElement *	meCh_DataIntegrityFED19_

MonitorElement *	meCh_DataIntegrityFED20_

MonitorElement *	meCh_DataIntegrityFED21_

MonitorElement *	meCh_DataIntegrityFED22_

MonitorElement *	meCh_DataIntegrityFED23_

MonitorElement *	meCh_DataIntegrityFED24_

MonitorElement *	meCh_DataIntegrityFED25_

MonitorElement *	meCh_DataIntegrityFED26_

MonitorElement *	meCh_DataIntegrityFED27_

MonitorElement *	meCh_DataIntegrityFED28_

MonitorElement *	meCh_DataIntegrityFED29_

MonitorElement *	meCh_DataIntegrityFED30_

MonitorElement *	meCh_DataIntegrityFED31_

MonitorElement *	meChann_DataIntegrityCheck_ [32]

MonitorElement *	meChannSumm_DataIntegrityCheck_

MonitorElement *	meCrate0HTRStatus_

MonitorElement *	meCrate10HTRStatus_

MonitorElement *	meCrate11HTRStatus_

MonitorElement *	meCrate12HTRStatus_

MonitorElement *	meCrate13HTRStatus_

MonitorElement *	meCrate14HTRStatus_

MonitorElement *	meCrate15HTRStatus_

MonitorElement *	meCrate17HTRStatus_

MonitorElement *	meCrate1HTRStatus_

MonitorElement *	meCrate2HTRStatus_

MonitorElement *	meCrate3HTRStatus_

MonitorElement *	meCrate4HTRStatus_

MonitorElement *	meCrate5HTRStatus_

MonitorElement *	meCrate6HTRStatus_

MonitorElement *	meCrate7HTRStatus_

MonitorElement *	meCrate9HTRStatus_

MonitorElement *	meDataFlowInd_

MonitorElement *	medccBCN_

MonitorElement *	meDCCEventFormatError_

MonitorElement *	meDCCVersion_

MonitorElement *	meEvFragSize2_

MonitorElement *	meEvFragSize_

MonitorElement *	meEvtNCheck_

MonitorElement *	meEvtNumberSynch_

MonitorElement *	mefedEntries_

MonitorElement *	meFEDRawDataSizes_

MonitorElement *	meFib1OrbMsgBCN_

MonitorElement *	meFib2OrbMsgBCN_

MonitorElement *	meFib3OrbMsgBCN_

MonitorElement *	meFib4OrbMsgBCN_

MonitorElement *	meFib5OrbMsgBCN_

MonitorElement *	meFib6OrbMsgBCN_

MonitorElement *	meFib7OrbMsgBCN_

MonitorElement *	meFib8OrbMsgBCN_

MonitorElement *	meFibBCN_

MonitorElement *	meHalfHTRDataCorruptionIndicators_

MonitorElement *	meHTRFWVersion_

MonitorElement *	meInvHTRData_

MonitorElement *	meLRBDataCorruptionIndicators_

MonitorElement *	meOrNCheck_

MonitorElement *	meOrNSynch_

MonitorElement *	meStatusWdCrate_

MonitorElement *	meUSFractSpigs_

int	NumBadHB

int	NumBadHE

int	NumBadHF

int	NumBadHFLUMI

int	NumBadHO

int	NumBadHO0

int	NumBadHO12

uint64_t	UScount [32][15]

Additional Inherited Members
Public Types inherited from edm::stream::EDAnalyzer< edm::RunSummaryCache< dqmDetails::NoCache >, edm::LuminosityBlockSummaryCache< dqmDetails::NoCache > >
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

Public Types inherited from edm::stream::EDAnalyzerBase
typedef EDAnalyzerAdaptorBase	ModuleType

Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Static Public Member Functions inherited from DQMEDAnalyzer
static std::shared_ptr < dqmDetails::NoCache >	globalBeginLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const *)

static std::shared_ptr < dqmDetails::NoCache >	globalBeginRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const *)

static void	globalEndLuminosityBlockSummary (edm::LuminosityBlock const &, edm::EventSetup const &, LuminosityBlockContext const , dqmDetails::NoCache )

static void	globalEndRunSummary (edm::Run const &, edm::EventSetup const &, RunContext const , dqmDetails::NoCache )

Static Public Member Functions inherited from edm::stream::EDAnalyzerBase
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Detailed Description

Author: J. St. John - Boston University

Definition at line 32 of file HcalRawDataMonitor.h.

Constructor & Destructor Documentation

HcalRawDataMonitor::HcalRawDataMonitor ( const edm::ParameterSet & ps )

Definition at line 9 of file HcalRawDataMonitor.cc.

                                                                :HcalBaseDQMonitor(ps) {
   Online_                = ps.getUntrackedParameter<bool>("online");
   mergeRuns_             = ps.getUntrackedParameter<bool>("mergeRuns");
   enableCleanup_         = ps.getUntrackedParameter<bool>("enableCleanup");
   debug_                 = ps.getUntrackedParameter<int>("debug",0);
   prefixME_              = ps.getUntrackedParameter<std::string>("subSystemFolder", "Hcal/"); // Hcal
   if (prefixME_.substr(prefixME_.size()-1,prefixME_.size())!="/")
     prefixME_.append("/");
   subdir_                = ps.getUntrackedParameter<std::string>("TaskFolder", "RawDataMonitor_Hcal/"); // RawDataMonitor_Hcal
   if (subdir_.size()>0 && subdir_.substr(subdir_.size()-1,subdir_.size())!="/")
     subdir_.append("/");
   subdir_=prefixME_+subdir_;
   AllowedCalibTypes_     = ps.getUntrackedParameter<std::vector<int> > ("AllowedCalibTypes");
   skipOutOfOrderLS_      = ps.getUntrackedParameter<bool>("skipOutOfOrderLS",true);
   NLumiBlocks_           = ps.getUntrackedParameter<int>("NLumiBlocks",-1);
   makeDiagnostics_       = ps.getUntrackedParameter<bool>("makeDiagnostics",false);
 
   FEDRawDataCollection_  = ps.getUntrackedParameter<edm::InputTag>("FEDRawDataCollection");
   digiLabel_             = ps.getUntrackedParameter<edm::InputTag>("digiLabel");
 
   excludeHORing2_       = ps.getUntrackedParameter<bool>("excludeHORing2",false);
 
   //inputLabelReport_      = ps.getUntrackedParameter<edm::InputTag>("UnpackerReport");
   
   // Initialize an array of MonitorElements
   meChann_DataIntegrityCheck_[0] =meCh_DataIntegrityFED00_;
   meChann_DataIntegrityCheck_[1] =meCh_DataIntegrityFED01_;
   meChann_DataIntegrityCheck_[2] =meCh_DataIntegrityFED02_;
   meChann_DataIntegrityCheck_[3] =meCh_DataIntegrityFED03_;
   meChann_DataIntegrityCheck_[4] =meCh_DataIntegrityFED04_;
   meChann_DataIntegrityCheck_[5] =meCh_DataIntegrityFED05_;
   meChann_DataIntegrityCheck_[6] =meCh_DataIntegrityFED06_;
   meChann_DataIntegrityCheck_[7] =meCh_DataIntegrityFED07_;
   meChann_DataIntegrityCheck_[8] =meCh_DataIntegrityFED08_;
   meChann_DataIntegrityCheck_[9] =meCh_DataIntegrityFED09_;
   meChann_DataIntegrityCheck_[10]=meCh_DataIntegrityFED10_;
   meChann_DataIntegrityCheck_[11]=meCh_DataIntegrityFED11_;
   meChann_DataIntegrityCheck_[12]=meCh_DataIntegrityFED12_;
   meChann_DataIntegrityCheck_[13]=meCh_DataIntegrityFED13_;
   meChann_DataIntegrityCheck_[14]=meCh_DataIntegrityFED14_;
   meChann_DataIntegrityCheck_[15]=meCh_DataIntegrityFED15_;
   meChann_DataIntegrityCheck_[16]=meCh_DataIntegrityFED16_;
   meChann_DataIntegrityCheck_[17]=meCh_DataIntegrityFED17_;
   meChann_DataIntegrityCheck_[18]=meCh_DataIntegrityFED18_;
   meChann_DataIntegrityCheck_[19]=meCh_DataIntegrityFED19_;
   meChann_DataIntegrityCheck_[20]=meCh_DataIntegrityFED20_;
   meChann_DataIntegrityCheck_[21]=meCh_DataIntegrityFED21_;
   meChann_DataIntegrityCheck_[22]=meCh_DataIntegrityFED22_;
   meChann_DataIntegrityCheck_[23]=meCh_DataIntegrityFED23_;
   meChann_DataIntegrityCheck_[24]=meCh_DataIntegrityFED24_;
   meChann_DataIntegrityCheck_[25]=meCh_DataIntegrityFED25_;
   meChann_DataIntegrityCheck_[26]=meCh_DataIntegrityFED26_;
   meChann_DataIntegrityCheck_[27]=meCh_DataIntegrityFED27_;
   meChann_DataIntegrityCheck_[28]=meCh_DataIntegrityFED28_;
   meChann_DataIntegrityCheck_[29]=meCh_DataIntegrityFED29_;
   meChann_DataIntegrityCheck_[30]=meCh_DataIntegrityFED30_;
   meChann_DataIntegrityCheck_[31]=meCh_DataIntegrityFED31_;
 
   // register for data access
   tok_raw_ = consumes<FEDRawDataCollection>(FEDRawDataCollection_);
   tok_unpack_ = consumes<HcalUnpackerReport>(digiLabel_);
   
   this->reset();
 } // HcalRawDataMonitor::HcalRawDataMonitor()

HcalRawDataMonitor::HcalRawDataMonitor ( )

inline

Definition at line 36 of file HcalRawDataMonitor.h.

36 {};

HcalRawDataMonitor::~HcalRawDataMonitor ( )

Definition at line 75 of file HcalRawDataMonitor.cc.

75 {}

Member Function Documentation

void HcalRawDataMonitor::analyze	(	const edm::Event &	e,
		const edm::EventSetup &	c
	)

protectedvirtual

NumBadHE+= problemcount[eta][phi][d];

Reimplemented from HcalBaseDQMonitor.

Definition at line 524 of file HcalRawDataMonitor.cc.

References funct::abs(), HcalBaseDQMonitor::analyze(), HcalObjRepresent::CalcIeta(), gather_cfg::cout, ztail::d, HcalBaseDQMonitor::debug_, DEPTHBINS, digiLabel_, eta, ETABINS, FEDRawDataCollection_, edm::Event::getByToken(), HcalBarrel, HcalEmpty, HcalEndcap, HcalForward, HcalOuter, HcalBaseDQMonitor::ievt_, HcalBaseDQMonitor::IsAllowedCalibType(), isHB(), isHE(), isHF(), isHO(), HcalBaseDQMonitor::LumiInOrder(), edm::EventBase::luminosityBlock(), NumBadHB, NumBadHE, NumBadHF, NumBadHFLUMI, NumBadHO, NumBadHO0, NumBadHO12, phi, PHIBINS, problemcount, processEvent(), zeeHLT_cff::report, tok_raw_, tok_unpack_, and uniqcounter.

 {
   HcalBaseDQMonitor::analyze(e,s);
   if (!IsAllowedCalibType()) return;
   if (LumiInOrder(e.luminosityBlock())==false) return;
 
 //  HcalBaseDQMonitor::analyze(e,s); // base class increments ievt_, etc. counters
   
   // try to get die Data
   edm::Handle<FEDRawDataCollection> rawraw;
   if (!(e.getByToken(tok_raw_,rawraw)))
   //  if (!(e.getByType(rawraw)))
     {
       edm::LogWarning("HcalRawDataMonitor")<<" raw data with label "<<FEDRawDataCollection_ <<" not available";
       return;
     }
   edm::Handle<HcalUnpackerReport> report;  
   if (!(e.getByToken(tok_unpack_,report)))
     {
       edm::LogWarning("HcalRawDataMonitor")<<" Unpacker Report "<<digiLabel_<<" not available";
       return;
     }
 
   // all objects grabbed; event is good
   if (debug_>1) std::cout <<"\t<HcalRawDataMonitor::analyze>  Processing good event! event # = "<<ievt_<<std::endl;
   
   // Raw Data collection was grabbed successfully; process the Event
   processEvent(*rawraw, *report);
 
   //Loop over all cells, tallying problem counts before resetting
   //Extract the subdetector region given the location 
   for (int d=0; d<DEPTHBINS; d++) {
     for (int eta=0; eta<ETABINS; eta++) {
       int ieta=CalcIeta(eta,d+1);
       if (ieta==-9999) continue;
       for (int phi=0; phi<PHIBINS; phi++){
     if (problemcount[eta][phi][d]) {
       //      std::cout<<" "<<eta<<","<<phi<<","<<d<<" count:"<<problemcount[eta][phi][d]<<std::endl;       
       HcalSubdetector subdet=HcalEmpty;
       if (isHB(eta,d+1))subdet=HcalBarrel;
       else if (isHE(eta,d+1)) subdet=HcalEndcap;
       else if (isHF(eta,d+1)) subdet=HcalForward;
       else if (isHO(eta,d+1)) subdet=HcalOuter;
       if (subdet!=HcalEmpty){
         if (subdet==HcalBarrel)       {if(uniqcounter[eta][phi][d]<1) NumBadHB+= problemcount[eta][phi][d]; uniqcounter[eta][phi][d]++; }
         else if (subdet==HcalEndcap)  {if(uniqcounter[eta][phi][d]<1) NumBadHE+= problemcount[eta][phi][d]; uniqcounter[eta][phi][d]++; }
         else if (subdet==HcalOuter)  
           {
         if(uniqcounter[eta][phi][d]<1) 
           NumBadHO += problemcount[eta][phi][d];
         uniqcounter[eta][phi][d]++; 
         if (abs(ieta)<5) NumBadHO0+= problemcount[eta][phi][d];
         else NumBadHO12+= problemcount[eta][phi][d];
           }
         else if (subdet==HcalForward)
           {
         if(uniqcounter[eta][phi][d]<1) 
           NumBadHF+= problemcount[eta][phi][d];
         uniqcounter[eta][phi][d]++; 
         if (d==1 && (abs(ieta)==33 || abs(ieta)==34))
           NumBadHFLUMI+= problemcount[eta][phi][d];
         else if (d==2 && (abs(ieta)==35 || abs(ieta)==36))
           NumBadHFLUMI+= problemcount[eta][phi][d];
           }
       }
       problemcount[eta][phi][d]=0;
     }
       }
     }
   }
 }

void HcalRawDataMonitor::beginLuminosityBlock	(	const edm::LuminosityBlock &	lumiSeg,
		const edm::EventSetup &	c
	)

protectedvirtual

Reimplemented from HcalBaseDQMonitor.

Definition at line 172 of file HcalRawDataMonitor.cc.

References HcalBaseDQMonitor::beginLuminosityBlock(), HcalBaseDQMonitor::LumiInOrder(), edm::LuminosityBlockBase::luminosityBlock(), HcalBaseDQMonitor::ProblemsCurrentLB, and MonitorElement::Reset().

                                                   {
   if (LumiInOrder(lumiSeg.luminosityBlock())==false) return;
   HcalBaseDQMonitor::beginLuminosityBlock(lumiSeg,c);
   //zeroCounters(); // zero hot cell counters at the start of each luminosity block
   ProblemsCurrentLB->Reset();
   return;
 }

void HcalRawDataMonitor::bookHistograms	(	DQMStore::IBooker &	ib,
		const edm::Run &	run,
		const edm::EventSetup &	c
	)

protectedvirtual

Reimplemented from HcalBaseDQMonitor.

Definition at line 131 of file HcalRawDataMonitor.cc.

References HcalElectronicsMap::allElectronicsIdPrecision(), HcalBaseDQMonitor::bookHistograms(), DetId::det(), edm::EventSetup::get(), hashup(), HcalBarrel, HcalEndcap, HcalForward, HcalOuter, HcalElectronicsMap::lookup(), DetId::null(), readoutMap_, stashHDI(), and DetId::subdetId().

                                                                                                      {
   HcalBaseDQMonitor::bookHistograms(ib,run,c);
   edm::ESHandle<HcalDbService> pSetup;
   c.get<HcalDbRecord>().get( pSetup );
 
   readoutMap_=pSetup->getHcalMapping();
   DetId detid_;
   HcalDetId hcaldetid_; 
 
   // Build a map of readout hardware unit to calorimeter channel
   std::vector <HcalElectronicsId> AllElIds = readoutMap_->allElectronicsIdPrecision();
   uint32_t itsdcc    =0;
   uint32_t itsspigot =0;
   uint32_t itshtrchan=0;
   
   // by looping over all precision (non-trigger) items.
   for (std::vector <HcalElectronicsId>::iterator eid = AllElIds.begin();
        eid != AllElIds.end();
        eid++) {
 
     //Get the HcalDetId from the HcalElectronicsId
     detid_ = readoutMap_->lookup(*eid);
     // NULL if illegal; ignore
     if (!detid_.null()) {
       if (detid_.det()!=4) continue; //not Hcal
       if (detid_.subdetId()!=HcalBarrel &&
       detid_.subdetId()!=HcalEndcap &&
       detid_.subdetId()!=HcalOuter  &&
       detid_.subdetId()!=HcalForward) continue;
 
       itsdcc    =(uint32_t) eid->dccid(); 
       itsspigot =(uint32_t) eid->spigot();
       itshtrchan=(uint32_t) eid->htrChanId();
       hcaldetid_ = HcalDetId(detid_);
       stashHDI(hashup(itsdcc,itsspigot,itshtrchan),
            hcaldetid_);
     } // if (!detid_.null()) 
   } 
 }

void HcalRawDataMonitor::endJob ( void )

protected

Definition at line 1292 of file HcalRawDataMonitor.cc.

References HcalBaseDQMonitor::cleanup(), gather_cfg::cout, HcalBaseDQMonitor::debug_, and HcalBaseDQMonitor::enableCleanup_.

                                    {
   if (debug_>0) std::cout <<"HcalRawDataMonitor::endJob()"<<std::endl;
   if (enableCleanup_) cleanup(); // when do we force cleanup?
 }

void HcalRawDataMonitor::endLuminosityBlock	(	const edm::LuminosityBlock &	lumiSeg,
		const edm::EventSetup &	c
	)

protectedvirtual

Reimplemented from HcalBaseDQMonitor.

Definition at line 1250 of file HcalRawDataMonitor.cc.

References ztail::d, DEPTHBINS, eta, ETABINS, MonitorElement::Fill(), HcalBaseDQMonitor::levt_, edm::LuminosityBlockBase::luminosityBlock(), NumBadHB, NumBadHE, NumBadHF, NumBadHFLUMI, NumBadHO, NumBadHO0, NumBadHO12, phi, PHIBINS, HcalBaseDQMonitor::ProblemsCurrentLB, HcalBaseDQMonitor::ProblemsVsLB, HcalBaseDQMonitor::ProblemsVsLB_HB, HcalBaseDQMonitor::ProblemsVsLB_HBHEHF, HcalBaseDQMonitor::ProblemsVsLB_HE, HcalBaseDQMonitor::ProblemsVsLB_HF, HcalBaseDQMonitor::ProblemsVsLB_HO, MonitorElement::Reset(), MonitorElement::setBinContent(), uniqcounter, and UpdateMEs().

                                                {
   
   
   ProblemsVsLB_HB->Fill(lumiSeg.luminosityBlock(),NumBadHB);
   ProblemsVsLB_HE->Fill(lumiSeg.luminosityBlock(),NumBadHE);
   ProblemsVsLB_HO->Fill(lumiSeg.luminosityBlock(),NumBadHO);
   ProblemsVsLB_HF->Fill(lumiSeg.luminosityBlock(),NumBadHF);
   ProblemsVsLB_HBHEHF->Fill(lumiSeg.luminosityBlock(),NumBadHB+NumBadHE+NumBadHF);
   ProblemsVsLB->Fill(lumiSeg.luminosityBlock(),NumBadHB+NumBadHE+NumBadHO+NumBadHF);
   
   // Reset current LS histogram, if it exists
   if (ProblemsCurrentLB)
     ProblemsCurrentLB->Reset();
   if (ProblemsCurrentLB)
     {
      
       ProblemsCurrentLB->setBinContent(0,0, levt_);  // underflow bin contains number of events
       ProblemsCurrentLB->setBinContent(1,1, NumBadHB*levt_);
       ProblemsCurrentLB->setBinContent(2,1, NumBadHE*levt_);
       ProblemsCurrentLB->setBinContent(3,1, NumBadHO*levt_);
       ProblemsCurrentLB->setBinContent(4,1, NumBadHF*levt_);
       ProblemsCurrentLB->setBinContent(5,1, NumBadHO0*levt_);
       ProblemsCurrentLB->setBinContent(6,1, NumBadHO12*levt_);
       ProblemsCurrentLB->setBinContent(7,1, NumBadHFLUMI*levt_);
 
     }
 
   for (int d=0; d<DEPTHBINS; d++) {
     for (int eta=0; eta<ETABINS; eta++) {
       for (int phi=0; phi<PHIBINS; phi++){
     uniqcounter[eta][phi][d] = 0.0;
       }
     }
   }
 
   UpdateMEs();
 }

void HcalRawDataMonitor::endRun	(	const edm::Run &	run,
		const edm::EventSetup &	c
	)

protectedvirtual

Reimplemented from HcalBaseDQMonitor.

Definition at line 1289 of file HcalRawDataMonitor.cc.

1289 {}

HcalDetId HcalRawDataMonitor::HashToHDI ( int thehash )

inlineprotected

Definition at line 69 of file HcalRawDataMonitor.h.

References hashedHcalDetId_, HTRCHANMAX, NUMDCCS, NUMSPIGS, and HcalDetId::Undefined.

Referenced by mapChannproblem().

                                           {
     return ( ( (thehash<0) || (thehash>(NUMDCCS*NUMSPIGS*HTRCHANMAX)) )
          ?(HcalDetId::Undefined)
          :(hashedHcalDetId_[thehash]));
   };

int HcalRawDataMonitor::hashup	(	uint32_t	d = `0`,
		uint32_t	s = `0`,
		uint32_t	c = `1`
	)

inlineprotected

Definition at line 65 of file HcalRawDataMonitor.h.

References EnergyCorrector::c, ztail::d, HTRCHANMAX, NUMSPIGS, and alignCSCRings::s.

Referenced by bookHistograms(), mapChannproblem(), mapDCCproblem(), mapHTRproblem(), and unpack().

65 {

66 return (int) ( (d*NUMSPIGS*HTRCHANMAX)+(s*HTRCHANMAX)+(c)); }

NUMSPIGS

#define NUMSPIGS

Definition: HcalRawDataMonitor.h:5

EnergyCorrector.c

tuple c

Definition: EnergyCorrector.py:43

ztail.d

tuple d

Definition: ztail.py:151

HTRCHANMAX

#define HTRCHANMAX

Definition: HcalRawDataMonitor.h:6

alignCSCRings.s

list s

Definition: alignCSCRings.py:91

void HcalRawDataMonitor::HTRPrint	(	const HcalHTRData &	htr,
		int	prtlvl
	)

private

Definition at line 1357 of file HcalRawDataMonitor.cc.

References HcalHTRData::getBunchNumber(), HcalHTRData::getErrorsWord(), HcalHTRData::getFib1OrbMsgBCN(), HcalHTRData::getFib2OrbMsgBCN(), HcalHTRData::getFib3OrbMsgBCN(), HcalHTRData::getFib4OrbMsgBCN(), HcalHTRData::getFib5OrbMsgBCN(), HcalHTRData::getFib6OrbMsgBCN(), HcalHTRData::getFib7OrbMsgBCN(), HcalHTRData::getFib8OrbMsgBCN(), HcalHTRData::getL1ANumber(), HcalHTRData::htrSlot(), HcalHTRData::htrTopBottom(), and HcalHTRData::readoutVMECrateId().

Referenced by unpack().

                                                                   {
   if (prtlvl == 1){ 
     int cratenum = htr.readoutVMECrateId();
     float slotnum = htr.htrSlot() + 0.5*htr.htrTopBottom();
     printf("Crate,Slot,ErrWord,Evt#,BCN:  %3i %4.1f %6X %7i %4X \n", cratenum,slotnum,htr.getErrorsWord(),htr.getL1ANumber(),htr.getBunchNumber());
     //    printf(" DLLunlk,TTCrdy:%2i %2i \n",htr.getDLLunlock(),htr.getTTCready());
   }
   // This one needs new version of HcalHTRData.h to activate
   else if (prtlvl == 2){
     int cratenum = htr.readoutVMECrateId();
     float slotnum = htr.htrSlot() + 0.5*htr.htrTopBottom();
     printf("Crate, Slot:%3i %4.1f \n", cratenum,slotnum);
     //    printf("  Ext Hdr: %4X %4X %4X %4X %4X %4X %4X %4X \n",htr.getExtHdr1(),htr.getExtHdr2(),htr.getExtHdr3(),htr.getExtHdr4(),htr.getExtHdr5(),htr.getExtHdr6(),htr.getExtHdr7(),htr.getExtHdr8());
   }
 
   else if (prtlvl == 3){
     int cratenum = htr.readoutVMECrateId();
     float slotnum = htr.htrSlot() + 0.5*htr.htrTopBottom();
     printf("Crate, Slot:%3i %4.1f", cratenum,slotnum);
     printf(" FibOrbMsgBCNs: %4X %4X %4X %4X %4X %4X %4X %4X \n",htr.getFib1OrbMsgBCN(),htr.getFib2OrbMsgBCN(),htr.getFib3OrbMsgBCN(),htr.getFib4OrbMsgBCN(),htr.getFib5OrbMsgBCN(),htr.getFib6OrbMsgBCN(),htr.getFib7OrbMsgBCN(),htr.getFib8OrbMsgBCN());
   }
 
   return;
 }

void HcalRawDataMonitor::label_xChanns	(	MonitorElement *	me_ptr,
		int	xbins
	)

private

Definition at line 1307 of file HcalRawDataMonitor.cc.

References HcalHTRData::CHANNELS_PER_SPIGOT, diffTwoXMLs::label, and MonitorElement::setBinLabel().

Referenced by setup().

                                                                         {
   char label[32];
   for (int ch=0; ch<HcalHTRData::CHANNELS_PER_SPIGOT; ch++) {
     snprintf(label, 32, "Ch %02d", ch+1);
     me_ptr->setBinLabel((2+(ch*xbins)), label, 1); //margin of 3 at low value
   }
 }

void HcalRawDataMonitor::label_xFEDs	(	MonitorElement *	me_ptr,
		int	xbins
	)

private

Definition at line 1316 of file HcalRawDataMonitor.cc.

References diffTwoXMLs::label, NUMDCCS, and MonitorElement::setBinLabel().

Referenced by setup().

                                                                       {
   char label[32];
   for (int thfed=0; thfed<NUMDCCS; thfed++) {
     snprintf(label, 32, "%03d", thfed+700);
     me_ptr->setBinLabel((2+(thfed*xbins)), label, 1); //margin of 1 at low value
   }
 }

void HcalRawDataMonitor::label_ySpigots	(	MonitorElement *	me_ptr,
		int	ybins
	)

private

Definition at line 1298 of file HcalRawDataMonitor.cc.

References diffTwoXMLs::label, MonitorElement::setBinLabel(), and HcalDCCHeader::SPIGOT_COUNT.

Referenced by setup().

                                                                          {
   char label[32];
   for (int spig=0; spig<HcalDCCHeader::SPIGOT_COUNT; spig++) {
     snprintf(label, 32, "Spgt %02d", spig);
     me_ptr->setBinLabel((2+(spig*ybins)), label, 2); //margin of 1 at low value
   }
 }

void HcalRawDataMonitor::labelHTRBits	(	MonitorElement *	mePlot,
		unsigned int	axisType
	)

private

Definition at line 1324 of file HcalRawDataMonitor.cc.

Referenced by setup().

                                                                                   {
 
   if (axisType !=1 && axisType != 2) return;
 
   mePlot -> setBinLabel(1,"Overflow Warn",axisType);
   mePlot -> setBinLabel(2,"Buffer Busy",axisType);
   mePlot -> setBinLabel(3,"Empty Event",axisType);
   mePlot -> setBinLabel(4,"Rejected L1A",axisType);
   mePlot -> setBinLabel(5,"Invalid Stream",axisType);
   mePlot -> setBinLabel(6,"Latency Warn",axisType);
   mePlot -> setBinLabel(7,"OptDat Err",axisType);
   mePlot -> setBinLabel(8,"Clock Err",axisType);
   mePlot -> setBinLabel(9,"Bunch Err",axisType);
   mePlot -> setBinLabel(10,"b9",axisType);
   mePlot -> setBinLabel(11,"b10",axisType);
   mePlot -> setBinLabel(12,"b11",axisType);
   mePlot -> setBinLabel(13,"Test Mode",axisType);
   mePlot -> setBinLabel(14,"Histo Mode",axisType);
   mePlot -> setBinLabel(15,"Calib Trig",axisType);
   mePlot -> setBinLabel(16,"Bit15 Err",axisType);
 
   return;
 }

void HcalRawDataMonitor::mapChannproblem	(	int	dcc,
		int	spigot,
		int	htrchan
	)

protected

Definition at line 1517 of file HcalRawDataMonitor.cc.

References funct::abs(), CalcEtaBin(), gather_cfg::cout, HcalBaseDQMonitor::debug_, HcalDetId::depth(), excludeHORing2_, HashToHDI(), hashup(), i, HcalDetId::ieta(), HcalDetId::iphi(), isSiPM(), problemfound, HcalDetId::subdet(), and HcalDetId::Undefined.

Referenced by unpack().

                                                                          {
   int myeta = 0;
   int myphi   =-1;
   int mydepth = 0;
   HcalDetId HDI;
   //Light up the affected cell.
   int i=hashup(dcc,spigot,htrchan); 
   HDI = HashToHDI(i);
   if (HDI==HcalDetId::Undefined) {
     return; // Do nothing at all, instead.
   } 
   mydepth = HDI.depth();
   myphi   = HDI.iphi();
   myeta = CalcEtaBin(HDI.subdet(),
              HDI.ieta(),
              mydepth);
   //Protect against indexing off array
   if (myeta>=0 && myeta<85 &&
       (myphi-1)>=0 && (myphi-1)<72 &&
       (mydepth-1)>=0 && (mydepth-1)<4){
     problemfound[myeta][myphi-1][mydepth-1] = true;
 
     //exlcude the decommissioned HO ring2, except SiPMs 
     if(mydepth==4 && excludeHORing2_==true)
       if (abs(HDI.ieta())>=11 && abs(HDI.ieta())<=15  && !isSiPM(HDI.ieta(),HDI.iphi(),mydepth))
       problemfound[myeta][myphi-1][mydepth-1] = false;
 
     if (debug_>0)
       std::cout<<" mapDCCproblem found error! "<<HDI.subdet()<<"("<<HDI.ieta()<<", "<<HDI.iphi()<<", "<<HDI.depth()<<")"<<std::endl;
   }
 }   // void HcalRawDataMonitor::mapChannproblem(...)

void HcalRawDataMonitor::mapDCCproblem ( int dcc )

protected

Definition at line 1448 of file HcalRawDataMonitor.cc.

References funct::abs(), CalcEtaBin(), gather_cfg::cout, HcalBaseDQMonitor::debug_, HcalDetId::depth(), excludeHORing2_, hashedHcalDetId_, hashup(), HTRCHANMAX, i, HcalDetId::ieta(), HcalDetId::iphi(), isSiPM(), NUMSPIGS, problemfound, HcalDetId::subdet(), and HcalDetId::Undefined.

Referenced by unpack().

                                               {
   int myeta   = 0;
   int myphi   =-1;
   int mydepth = 0;
   HcalDetId HDI;
   //Light up all affected cells.
   for (int i=hashup(dcc); 
        i<hashup(dcc)+(NUMSPIGS*HTRCHANMAX); 
        i++) {
     HDI = hashedHcalDetId_[i];
     if (HDI==HcalDetId::Undefined) 
       continue;
     mydepth = HDI.depth();
     myphi   = HDI.iphi();
     myeta = CalcEtaBin(HDI.subdet(),
                HDI.ieta(),
                mydepth);
     //Protect against indexing off array
     if (myeta>=0 && myeta<85 &&
     (myphi-1)>=0 && (myphi-1)<72 &&
     (mydepth-1)>=0 && (mydepth-1)<4){
       problemfound[myeta][myphi-1][mydepth-1] = true;
 
       //exlcude the decommissioned HO ring2, except SiPMs 
       if(mydepth==4 && excludeHORing2_==true)
     if (abs(HDI.ieta())>=11 && abs(HDI.ieta())<=15  && !isSiPM(HDI.ieta(),HDI.iphi(),mydepth))
       problemfound[myeta][myphi-1][mydepth-1] = false;
       
       if (debug_>0)
     std::cout<<" mapDCCproblem found error! "<<HDI.subdet()<<"("<<HDI.ieta()<<", "<<HDI.iphi()<<", "<<HDI.depth()<<")"<<std::endl;
     }
   }
 }

void HcalRawDataMonitor::mapHTRproblem	(	int	dcc,
		int	spigot
	)

protected

Definition at line 1481 of file HcalRawDataMonitor.cc.

References funct::abs(), CalcEtaBin(), gather_cfg::cout, HcalBaseDQMonitor::debug_, HcalDetId::depth(), excludeHORing2_, hashedHcalDetId_, hashup(), HTRCHANMAX, i, HcalDetId::ieta(), HcalDetId::iphi(), isSiPM(), problemfound, HcalDetId::subdet(), and HcalDetId::Undefined.

Referenced by unpack().

                                                           {
   int myeta = 0;
   int myphi   =-1;
   int mydepth = 0;
   HcalDetId HDI;
   //Light up all affected cells.
   for (int i=hashup(dcc,spigot); 
        i<hashup(dcc,spigot)+(HTRCHANMAX); //nice, linear hash....
        i++) {
     HDI = hashedHcalDetId_[i];
     if (HDI==HcalDetId::Undefined) {
       continue;
     }
     mydepth = HDI.depth();
     myphi   = HDI.iphi();
     myeta = CalcEtaBin(HDI.subdet(),
                HDI.ieta(),
                mydepth);
     //Protect against indexing off array
     if (myeta>=0 && myeta<85 &&
     (myphi-1)>=0 && (myphi-1)<72 &&
     (mydepth-1)>=0 && (mydepth-1)<4){
       problemfound[myeta][myphi-1][mydepth-1] = true;
       
       //exlcude the decommissioned HO ring2, except SiPMs 
       if(mydepth==4 && excludeHORing2_==true)
     if (abs(HDI.ieta())>=11 && abs(HDI.ieta())<=15  && !isSiPM(HDI.ieta(),HDI.iphi(),mydepth))
       problemfound[myeta][myphi-1][mydepth-1] = false;
       
       if (debug_>0)
     std::cout<<" mapDCCproblem found error! "<<HDI.subdet()<<"("<<HDI.ieta()<<", "<<HDI.iphi()<<", "<<HDI.depth()<<")"<<std::endl;
     }
 
   }
 }   // void HcalRawDataMonitor::mapHTRproblem(...)

void HcalRawDataMonitor::processEvent	(	const FEDRawDataCollection &	rawraw,
		const HcalUnpackerReport &	report
	)

protected

Definition at line 597 of file HcalRawDataMonitor.cc.

References DEPTHBINS, ETABINS, f, FEDRawDataCollection::FEDData(), i, FEDNumbering::MAXHCALFEDID, meChann_DataIntegrityCheck_, meChannSumm_DataIntegrityCheck_, meDataFlowInd_, meHalfHTRDataCorruptionIndicators_, meLRBDataCorruptionIndicators_, FEDNumbering::MINHCALFEDID, NUMDCCS, PHIBINS, problemcount, problemfound, FEDRawData::size(), unpack(), update, MonitorElement::update(), x, y, and z.

Referenced by analyze().

                                                        {
   // Fill event counters (underflow bins of histograms)
   meLRBDataCorruptionIndicators_->update();
   meHalfHTRDataCorruptionIndicators_->update();
   meChannSumm_DataIntegrityCheck_->update();
   for (int f=0; f<NUMDCCS; f++)      
     meChann_DataIntegrityCheck_[f]->update();
   meDataFlowInd_->update();
 
   // Loop over all FEDs reporting the event, unpacking if good.
   for (int i=FEDNumbering::MINHCALFEDID; i<=FEDNumbering::MAXHCALFEDID; i++) {
     const FEDRawData& fed = rawraw.FEDData(i);
     if (fed.size()<12) continue;  //At least the size of headers and trailers of a DCC.
     unpack(fed); //Interpret data, fill histograms, everything.
   }
   
   //increment problemcount[] where problemfound[], and clear problemfound[]
   for (int x=0; x<ETABINS; x++)
       for (int y=0; y<PHIBINS; y++)
     for (int z=0; z<DEPTHBINS; z++) 
       if (problemfound[x][y][z]) {
         problemcount[x][y][z]++;
         problemfound[x][y][z]=false;
       }
   return;
 } //void HcalRawDataMonitor::processEvent()

void HcalRawDataMonitor::reset ( void )

protectedvirtual

Reimplemented from HcalBaseDQMonitor.

Definition at line 78 of file HcalRawDataMonitor.cc.

References Chann_DataIntegrityCheck_, ChannSumm_DataIntegrityCheck_, ztail::d, DataFlowInd_, DEPTHBINS, eta, ETABINS, f, HalfHTRDataCorruptionIndicators_, hashedHcalDetId_, HTRCHANMAX, i, LRBDataCorruptionIndicators_, NumBadHB, NumBadHE, NumBadHF, NumBadHFLUMI, NumBadHO, NumBadHO0, NumBadHO12, NUMDCCS, NUMSPIGS, phi, PHIBINS, problemcount, problemfound, alignCSCRings::s, THREE_FED, THREE_SPG, TWO___FED, TWO__SPGT, TWO_CHANN, HcalDetId::Undefined, uniqcounter, UScount, x, and y.

Referenced by HcalRawDataMonitor().

 {
 
   for (int f=0; f<NUMDCCS; f++) {
     for (int s=0; s<15; s++) {
       UScount[f][s]=0;}}
 
   for (int x=0; x<THREE_FED; x++)
     for (int y=0; y<THREE_SPG; y++)
       HalfHTRDataCorruptionIndicators_  [x][y]=0;
 
   for (int x=0; x<THREE_FED; x++)
     for (int y=0; y<THREE_SPG; y++)
       LRBDataCorruptionIndicators_  [x][y]=0;
      
   for (int x=0; x<TWO___FED; x++)
     for (int y=0; y<TWO__SPGT; y++)
       ChannSumm_DataIntegrityCheck_[x][y]=0;
 
   for (int x=0; x<TWO___FED; x++)
     for (int y=0; y<THREE_SPG; y++)
       DataFlowInd_[x][y]=0;
 
   for (int f=0; f<NUMDCCS; f++)
     for (int x=0; x<  TWO_CHANN; x++)
       for (int y=0; y<TWO__SPGT; y++)      
     Chann_DataIntegrityCheck_  [f][x][y]=0;
 
   for (int i=0; i<(NUMDCCS * NUMSPIGS * HTRCHANMAX); i++) 
     hashedHcalDetId_[i]=HcalDetId::Undefined;
 
   for (int d=0; d<DEPTHBINS; d++) {
     for (int eta=0; eta<ETABINS; eta++) {
       for (int phi=0; phi<PHIBINS; phi++){
     uniqcounter[eta][phi][d] = 0.0;
     problemcount[eta][phi][d] = 0.0;
     problemfound[eta][phi][d] = false;
       }
     }
   }
 
   // Properly initialze bylumi counters.
   NumBadHB=0;
   NumBadHE=0;
   NumBadHO=0;
   NumBadHF=0;
   NumBadHFLUMI=0;
   NumBadHO0=0;
   NumBadHO12=0;
 
 } // HcalRawDataMonitor::HcalRawDataMonitor()

void HcalRawDataMonitor::setup ( DQMStore::IBooker & ib )

protectedvirtual

Below, "Corruption" FOLDER

Reimplemented from HcalBaseDQMonitor.

Definition at line 181 of file HcalRawDataMonitor.cc.

                                                  {
   // Call base class setup
   HcalBaseDQMonitor::setup(ib);
 
   /******* Set up all histograms  ********/
   if (debug_>1)
     std::cout <<"<HcalRawDataMonitor::beginRun>  Setting up histograms"<<std::endl;
   
   ib.setCurrentFolder(subdir_);
   ProblemsVsLB=ib.bookProfile("RAW_Problems_HCAL_vs_LS",
                  "Total HCAL RAW Problems vs lumi section", 
                  NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,10000);
 
   ProblemsVsLB_HB=ib.bookProfile("Total_RAW_Problems_HB_vs_LS",
                     "Total HB RAW Problems vs lumi section",
                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,3000);
   ProblemsVsLB_HE=ib.bookProfile("Total_RAW_Problems_HE_vs_LS",
                     "Total HE RAW Problems vs lumi section",
                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,3000);
   ProblemsVsLB_HO=ib.bookProfile("Total_RAW_Problems_HO_vs_LS",
                     "Total HO RAW Problems vs lumi section",
                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,3000);
   ProblemsVsLB_HF=ib.bookProfile("Total_RAW_Problems_HF_vs_LS",
                     "Total HF RAW Problems vs lumi section",
                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,2000);
   ProblemsVsLB_HBHEHF=ib.bookProfile("Total_RAW_Problems_HBHEHF_vs_LS",
                     "Total HBHEHF RAW Problems vs lumi section",
                     NLumiBlocks_,0.5,NLumiBlocks_+0.5,100,0,2000);
  
   ProblemsVsLB->getTProfile()->SetMarkerStyle(20);
   ProblemsVsLB_HB->getTProfile()->SetMarkerStyle(20);
   ProblemsVsLB_HE->getTProfile()->SetMarkerStyle(20);
   ProblemsVsLB_HO->getTProfile()->SetMarkerStyle(20);
   ProblemsVsLB_HF->getTProfile()->SetMarkerStyle(20);
   ProblemsVsLB_HBHEHF->getTProfile()->SetMarkerStyle(20);
   MonitorElement* excludeHO2=ib.bookInt("ExcludeHOring2");
   // Fill with 0 if ring is not to be excluded; fill with 1 if it is to be excluded
   if (excludeHO2) excludeHO2->Fill(excludeHORing2_==true ? 1 : 0);
 
 
   //  Already done in base class:
   //ib.setCurrentFolder(subdir_);
   //meIevt_ = ib.bookInt("EventsProcessed");
   //if (meIevt_) meIevt_->Fill(-1);
   //meLevt_ = ib.bookInt("EventsProcessed_currentLS");
   //if (meLevt_) meLevt_->Fill(-1);
   //meTevt_ = ib.bookInt("EventsProcessed_All");
   //if (meTevt_) meTevt_->Fill(-1);
   //meTevtHist_=ib.book1D("EventsProcessed_AllHists","Counter of Events Processed By This Task",1,0.5,1.5);
   //if (meTevtHist_) meTevtHist_->Reset();
   
   std::string type;
       
   ib.setCurrentFolder(subdir_ + "Corruption"); 
   type = "01 Common Data Format violations";
   meCDFErrorFound_ = ib.book2D(type,type,32,699.5,731.5,9,0.5,9.5);
   meCDFErrorFound_->setAxisTitle("HCAL FED ID", 1);
   meCDFErrorFound_->setBinLabel(1, "Hdr1BitUnset", 2);
   meCDFErrorFound_->setBinLabel(2, "FmtNumChange", 2);
   meCDFErrorFound_->setBinLabel(3, "BOE not '0x5'", 2);
   meCDFErrorFound_->setBinLabel(4, "Hdr2Bit Set", 2);
   meCDFErrorFound_->setBinLabel(5, "Hdr1 36-55", 2);
   meCDFErrorFound_->setBinLabel(6, "BOE not 0", 2);
   meCDFErrorFound_->setBinLabel(7, "Trlr1Bit Set", 2);
   meCDFErrorFound_->setBinLabel(8, "Size Error", 2);
   meCDFErrorFound_->setBinLabel(9, "TrailerBad", 2);
       
   type = "02 DCC Event Format violation";
   meDCCEventFormatError_ = ib.book2D(type,type,32,699.5,731.5,6,0.5,6.5);
   meDCCEventFormatError_->setAxisTitle("HCAL FED ID", 1);
   meDCCEventFormatError_->setBinLabel(1, "FmtVers Changed", 2);
   meDCCEventFormatError_->setBinLabel(2, "StrayBits Changed", 2);
   meDCCEventFormatError_->setBinLabel(3, "HTRStatusPad", 2);
   meDCCEventFormatError_->setBinLabel(4, "32bitPadErr", 2);
   meDCCEventFormatError_->setBinLabel(5, "Number Mismatch Bit Miscalc", 2);      
   meDCCEventFormatError_->setBinLabel(6, "Low 8 HTR Status Bits Miscopy", 2);          
       
   type = "04 HTR BCN when OrN Diff";
   meBCNwhenOrNDiff_ = ib.book1D(type,type,3564,-0.5,3563.5);
   meBCNwhenOrNDiff_->setAxisTitle("BCN",1);
   meBCNwhenOrNDiff_->setAxisTitle("# of Entries",2);
       
   type = "03 OrN NonZero Difference HTR - DCC";
   meOrNCheck_ = ib.book1D(type,type,65,-32.5,32.5);
   meOrNCheck_->setAxisTitle("htr OrN - dcc OrN",1);
       
   type = "03 OrN Inconsistent - HTR vs DCC";
   meOrNSynch_= ib.book2D(type,type,32,700,732, 15,0,15);
   meOrNSynch_->setAxisTitle("FED #",1);
   meOrNSynch_->setAxisTitle("Spigot #",2);
       
   type = "05 BCN NonZero Difference HTR - DCC";
   meBCNCheck_ = ib.book1D(type,type,501,-250.5,250.5);
   meBCNCheck_->setAxisTitle("htr BCN - dcc BCN",1);
       
   type = "05 BCN Inconsistent - HTR vs DCC";
   meBCNSynch_= ib.book2D(type,type,32,700,732, 15,0,15);
   meBCNSynch_->setAxisTitle("FED #",1);
   meBCNSynch_->setAxisTitle("Slot #",2);
       
   type = "06 EvN NonZero Difference HTR - DCC";
   meEvtNCheck_ = ib.book1D(type,type,601,-300.5,300.5);
   meEvtNCheck_->setAxisTitle("htr Evt # - dcc Evt #",1);
       
   type = "06 EvN Inconsistent - HTR vs DCC";
   meEvtNumberSynch_= ib.book2D(type,type,32,700,732, 15,0,15);
   meEvtNumberSynch_->setAxisTitle("FED #",1);
   meEvtNumberSynch_->setAxisTitle("Slot #",2);
       
   //     ---------------- 
   //     | E!P | UE | TR |                                           
   // ----|  ND | OV | ID |                         
   // | T | CRC | ST | ODD|                         
   // --------------------                          
   type="07 LRB Data Corruption Indicators";  
   meLRBDataCorruptionIndicators_= ib.book2D(type,type,
                         THREE_FED,0,THREE_FED,
                         THREE_SPG,0,THREE_SPG);
   label_xFEDs   (meLRBDataCorruptionIndicators_, 4); // 3 bins + 1 margin per ch.
   label_ySpigots(meLRBDataCorruptionIndicators_, 4); // 3 bins + 1 margin each spgt
       
   //     ---------------- 
   //     | CT | BE |    |
   //     | HM | 15 | WW | (Wrong Wordcount)
   //     | TM | CK | IW | (Illegal Wordcount)
   //     ---------------- 
   type="08 Half-HTR Data Corruption Indicators";
   meHalfHTRDataCorruptionIndicators_= ib.book2D(type,type,
                             THREE_FED,0,THREE_FED,
                             THREE_SPG,0,THREE_SPG);
   label_xFEDs   (meHalfHTRDataCorruptionIndicators_, 4); // 3 bins + 1 margin per ch.
   label_ySpigots(meHalfHTRDataCorruptionIndicators_, 4); // 3 bins + 1 margin each spgt
       
   //    ------------
   //    | !DV | Er  |
   //    | NTS | Cap |
   //    ------------
   type = "09 Channel Integrity Summarized by Spigot";
   meChannSumm_DataIntegrityCheck_= ib.book2D(type,type,
                          TWO___FED,0,TWO___FED,
                          TWO__SPGT,0,TWO__SPGT);
   label_xFEDs   (meChannSumm_DataIntegrityCheck_, 3); // 2 bins + 1 margin per ch.
   label_ySpigots(meChannSumm_DataIntegrityCheck_, 3); // 2 bins + 1 margin per spgt
       
   ib.setCurrentFolder(subdir_ + "Corruption/Channel Data Integrity");
   char label[256];
   for (int f=0; f<NUMDCCS; f++){      
     snprintf(label, 256, "FED %03d Channel Integrity", f+700);
     meChann_DataIntegrityCheck_[f] =  ib.book2D(label,label,
                             TWO_CHANN,0,TWO_CHANN,
                             TWO__SPGT,0,TWO__SPGT);
     label_xChanns (meChann_DataIntegrityCheck_[f], 3); // 2 bins + 1 margin per ch.
     label_ySpigots(meChann_DataIntegrityCheck_[f], 3); // 2 bins + 1 margin per spgt
     ;}
       
   ib.setCurrentFolder(subdir_ + "Data Flow"); 
   type="DCC Event Counts";
   mefedEntries_ = ib.book1D(type,type,32,699.5,731.5);
       
   type = "BCN from DCCs";
   medccBCN_ = ib.book1D(type,type,3564,-0.5,3563.5);
   medccBCN_->setAxisTitle("BCN",1);
   medccBCN_->setAxisTitle("# of Entries",2);
       
   type = "BCN from HTRs";
   meBCN_ = ib.book1D(type,type,3564,-0.5,3563.5);
   meBCN_->setAxisTitle("BCN",1);
   meBCN_->setAxisTitle("# of Entries",2);
       
   type = "DCC Data Block Size Distribution";
   meFEDRawDataSizes_=ib.book1D(type,type,1200,-0.5,12000.5);
   meFEDRawDataSizes_->setAxisTitle("# of bytes",1);
   meFEDRawDataSizes_->setAxisTitle("# of Data Blocks",2);
       
   type = "DCC Data Block Size Profile";
   meEvFragSize_ = ib.bookProfile(type,type,32,699.5,731.5,100,-1000.0,12000.0,"");
   type = "DCC Data Block Size Each FED";
   meEvFragSize2_ =  ib.book2D(type,type,64,699.5,731.5, 240,0,12000);
       
   //     ------------
   //     | OW | OFW |    "Two Caps HTR; Three Caps FED."
   //     | BZ | BSY |
   //     | EE | RL  |
   // ----------------
   // | CE |            (corrected error, Hamming code)
   // ------
   type = "01 Data Flow Indicators";
   meDataFlowInd_= ib.book2D(type,type,
                 TWO___FED,0,TWO___FED,
                 THREE_SPG,0,THREE_SPG);
   label_xFEDs   (meDataFlowInd_, 3); // 2 bins + 1 margin per ch.
   label_ySpigots(meDataFlowInd_, 4); // 3 bins + 1 margin each spgt
       
   ib.setCurrentFolder(subdir_ + "Diagnostics"); 
 
   type = "DCC Firmware Version";
   meDCCVersion_ = ib.bookProfile(type,type, 32, 699.5, 731.5, 256, -0.5, 255.5);
   meDCCVersion_ ->setAxisTitle("FED ID", 1);
       
   type = "HTR Status Word HBHE";
   HTR_StatusWd_HBHE =  ib.book1D(type,type,16,-0.5,15.5);
   labelHTRBits(HTR_StatusWd_HBHE,1);
       
   type = "HTR Status Word HF";
   HTR_StatusWd_HF =  ib.book1D(type,type,16,-0.5,15.5);
   labelHTRBits(HTR_StatusWd_HF,1);
       
   type = "HTR Status Word HO";
   HTR_StatusWd_HO = ib.book1D(type,type,16,-0.5,15.5);
   labelHTRBits(HTR_StatusWd_HO,1);
       
   int maxbits = 16;//Look at all 16 bits of the Error Words
   type = "HTR Status Word by Crate";
   meStatusWdCrate_ = ib.book2D(type,type,18,-0.5,17.5,maxbits,-0.5,maxbits-0.5);
   meStatusWdCrate_ -> setAxisTitle("Crate #",1);
   labelHTRBits(meStatusWdCrate_,2);
       
   type = "Unpacking - HcalHTRData check failures";
   meInvHTRData_= ib.book2D(type,type,16,-0.5,15.5,32,699.5,731.5);
   meInvHTRData_->setAxisTitle("Spigot #",1);
   meInvHTRData_->setAxisTitle("DCC #",2);
       
   type = "HTR Fiber Orbit Message BCN";
   meFibBCN_ = ib.book1D(type,type,3564,-0.5,3563.5);
   meFibBCN_->setAxisTitle("BCN of Fib Orb Msg",1);
       
   type = "HTR Status Word - Crate 0";
   meCrate0HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate0HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate0HTRStatus_,2);
       
   type = "HTR Status Word - Crate 1";
   meCrate1HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate1HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate1HTRStatus_,2);
       
   type = "HTR Status Word - Crate 2";
   meCrate2HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate2HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate2HTRStatus_,2);
       
   type = "HTR Status Word - Crate 3";
   meCrate3HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate3HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate3HTRStatus_,2);
       
   type = "HTR Status Word - Crate 4";
   meCrate4HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate4HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate4HTRStatus_,2);
 
   type = "HTR Status Word - Crate 5";
   meCrate5HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate5HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate5HTRStatus_,2);
 
   type = "HTR Status Word - Crate 6";
   meCrate6HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate6HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate6HTRStatus_,2);
 
   type = "HTR Status Word - Crate 7";
   meCrate7HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate7HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate7HTRStatus_,2);
 
   type = "HTR Status Word - Crate 9";
   meCrate9HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate9HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate9HTRStatus_,2);
 
   type = "HTR Status Word - Crate 10";
   meCrate10HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate10HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate10HTRStatus_,2);
 
   type = "HTR Status Word - Crate 11";
   meCrate11HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate11HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate11HTRStatus_,2);
 
   type = "HTR Status Word - Crate 12";
   meCrate12HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate12HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate12HTRStatus_,2);
 
   type = "HTR Status Word - Crate 13";
   meCrate13HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate13HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate13HTRStatus_,2);
 
   type = "HTR Status Word - Crate 14";
   meCrate14HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate14HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate14HTRStatus_,2);
 
   type = "HTR Status Word - Crate 15";
   meCrate15HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate15HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate15HTRStatus_,2);
 
   type = "HTR Status Word - Crate 17";
   meCrate17HTRStatus_ = ib.book2D(type,type,40,-0.25,19.75,maxbits,-0.5,maxbits-0.5);
   meCrate17HTRStatus_ ->setAxisTitle("Slot #",1);
   labelHTRBits(meCrate17HTRStatus_,2);
 
   type = "HTR UnSuppressed Event Fractions";
   meUSFractSpigs_ = ib.book1D(type,type,481,0,481);
   for(int f=0; f<NUMDCCS; f++) {
     snprintf(label, 256, "FED 7%02d", f);
     meUSFractSpigs_->setBinLabel(1+(HcalDCCHeader::SPIGOT_COUNT*f), label);
     for(int s=1; s<HcalDCCHeader::SPIGOT_COUNT; s++) {
       snprintf(label, 256, "sp%02d", s);
       meUSFractSpigs_->setBinLabel(1+(HcalDCCHeader::SPIGOT_COUNT*f)+s, label);}}
 
   // Firmware version
   type = "HTR Firmware Version";
   //  Maybe change to Profile histo eventually
   //meHTRFWVersion_ = ib.bookProfile(type,type,18,-0.5,17.5,245,10.0,255.0,"");
   meHTRFWVersion_ = ib.book2D(type,type ,18,-0.5,17.5,180,75.5,255.5);
   meHTRFWVersion_->setAxisTitle("Crate #",1);
   meHTRFWVersion_->setAxisTitle("HTR Firmware Version",2);
 
   type = "HTR Fiber 1 Orbit Message BCNs";
   meFib1OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 2 Orbit Message BCNs";
   meFib2OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 3 Orbit Message BCNs";
   meFib3OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 4 Orbit Message BCNs";
   meFib4OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 5 Orbit Message BCNs";
   meFib5OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 6 Orbit Message BCNs";
   meFib6OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 7 Orbit Message BCNs";
   meFib7OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
   type = "HTR Fiber 8 Orbit Message BCNs";
   meFib8OrbMsgBCN_= ib.book2D(type,type,40,-0.25,19.75,18,-0.5,17.5);
 
 }

void HcalRawDataMonitor::stashHDI	(	int	thehash,
		HcalDetId	thehcaldetid
	)

protected

Definition at line 1348 of file HcalRawDataMonitor.cc.

References hashedHcalDetId_, HTRCHANMAX, NUMDCCS, and NUMSPIGS.

Referenced by bookHistograms().

                                                                      {
   //Let's not allow indexing off the array...
   if ((thehash<0)||(thehash>(NUMDCCS*NUMSPIGS*HTRCHANMAX)))return;
   //...but still do the job requested.
   hashedHcalDetId_[thehash] = thehcaldetid;
 }

void HcalRawDataMonitor::unpack ( const FEDRawData & raw )

protected

check that all HTRs have the same L1A number.

check that all HTRs have the same BCN

check that all HTRs have the same OrN

branch point between 2006-2011 data format and 2012+ data format

Definition at line 626 of file HcalRawDataMonitor.cc.

Referenced by processEvent().

                                                     {
 
   // get the DCC header & trailer (or bail out)
   const HcalDCCHeader* dccHeader=(const HcalDCCHeader*)(raw.data());
   if(!dccHeader) return;
   unsigned char* trailer_ptr = (unsigned char*) (raw.data()+raw.size()-sizeof(uint64_t));
   FEDTrailer trailer = FEDTrailer(trailer_ptr);
 
   // FED id declared in the header
   int dccid=dccHeader->getSourceId();
   //Force 0<= dcc_ <= 31
   int dcc_=std::max(0,dccid-700);  
   dcc_ = std::min(dcc_,31);       
   if(debug_>1) std::cout << "DCC " << dccid << std::endl;
   uint64_t* dccfw= (uint64_t*) (raw.data()+(sizeof(uint64_t)*2)); //64-bit DAQ word number 2 (from 0)
   int dcc_fw =  ( ((*dccfw)>>(6*8))&0x00000000000000FF );         //Shift right 6 bytes, get that low byte.
   meDCCVersion_ -> Fill(dccid,dcc_fw);
 
   //Before all else, how much data are we dealing with here?
   uint64_t* lastDataWord = (uint64_t*) ( raw.data()+(raw.size())-(1*sizeof(uint64_t)) );
   int EvFragLength = (int) (*lastDataWord>>(4*8)) & 0x0000000000FFFFFF ; //Shift right 4 bytes, get low 3 bytes.
   meFEDRawDataSizes_->Fill(EvFragLength*8);      //# 64-bit DAQ words *8 = # bytes. 
   meEvFragSize_ ->Fill(dccid, EvFragLength*8);   //# 64-bit DAQ words *8 = # bytes. 
   meEvFragSize2_ ->Fill(dccid, EvFragLength*8);  //# 64-bit DAQ words *8 = # bytes. 
   
   //Orbit, BunchCount, and Event Numbers
   unsigned long dccEvtNum = dccHeader->getDCCEventNumber();
   int dccBCN = dccHeader->getBunchId();
   //Mask down to 5 bits, since only used for comparison to HTR's five bit number...
   unsigned int dccOrN = (unsigned int) (dccHeader->getOrbitNumber() & 0x0000001F);
   medccBCN_ -> Fill(dccBCN);
 
   bool CDFProbThisDCC = false; 
   /* 1 */ //There should always be a second CDF header word indicated.
   if (!dccHeader->thereIsASecondCDFHeaderWord()
       //TESTME_HCALRAWDATA//
       //|| ((dccid==702)&&(tevt_%2==0))
       ) {
     meCDFErrorFound_->Fill(dccid, 1);
     CDFProbThisDCC = true; 
   }
   /* 2 */ //Make sure a reference CDF Version value has been recorded for this dccid
   CDFvers_it = CDFversionNumber_list.find(dccid);
   if (CDFvers_it  == CDFversionNumber_list.end()) {
     CDFversionNumber_list.insert(std::pair<int,short>
                  (dccid,dccHeader->getCDFversionNumber() ) );
     CDFvers_it = CDFversionNumber_list.find(dccid);
   } // then check against it.
   if (dccHeader->getCDFversionNumber()!= CDFvers_it->second) {
     meCDFErrorFound_->Fill(dccid,2);
     CDFProbThisDCC = true; 
   }
   /* 3 */ //There should always be a '5' in CDF Header word 0, bits [63:60]
   if (dccHeader->BOEshouldBe5Always()!=5) {
     meCDFErrorFound_->Fill(dccid, 3);
     CDFProbThisDCC = true; 
   }
   /* 4 */ //There should never be a third CDF Header word indicated.
   if (dccHeader->thereIsAThirdCDFHeaderWord()) {
     meCDFErrorFound_->Fill(dccid, 4);
     CDFProbThisDCC = true; 
   }
   /* 5 */ //Make sure a reference value of Reserved Bits has been recorded for this dccid
   CDFReservedBits_it = CDFReservedBits_list.find(dccid);
   if (CDFReservedBits_it  == CDFReservedBits_list.end()) {
     CDFReservedBits_list.insert(std::pair<int,short>
                 (dccid,dccHeader->getSlink64ReservedBits() & 0x0000FFFF ) );
     CDFReservedBits_it = CDFReservedBits_list.find(dccid);
   } // then check against it.
   if (((int) dccHeader->getSlink64ReservedBits() & 0x0000FFFF ) != CDFReservedBits_it->second) {
     meCDFErrorFound_->Fill(dccid,5);
     //CDFProbThisDCC = true; 
   }
   /* 6 */ //There should always be 0x0 in CDF Header word 1, bits [63:60]
   if (dccHeader->BOEshouldBeZeroAlways() !=0) {
     meCDFErrorFound_->Fill(dccid, 6);
     CDFProbThisDCC = true; 
   }
   /* 7 */ //There should only be one trailer
   if (trailer.moreTrailers()) {
     meCDFErrorFound_->Fill(dccid, 7);
     CDFProbThisDCC = true; 
   }
   //  if trailer.
   /* 8 */ //CDF Trailer [55:30] should be the # 64-bit words in the EvFragment
   if ((uint64_t) raw.size() != ( (uint64_t) trailer.lenght()*sizeof(uint64_t)) )  //The function name is a typo! Awesome.
     {
       meCDFErrorFound_->Fill(dccid, 8);
       CDFProbThisDCC = true; 
     }
   /* 9 */ //There is a rudimentary sanity check built into the FEDTrailer class
   if (!trailer.check()) {
     meCDFErrorFound_->Fill(dccid, 9);
     CDFProbThisDCC = true; 
   }
   if (CDFProbThisDCC) {
     //Set the problem flag for the ieta, iphi of any channel in this DCC
     mapDCCproblem(dcc_);
     if (debug_>0) std::cout <<"CDFProbThisDCC"<<std::endl;
   }
 
   mefedEntries_->Fill(dccid);
 
   CDFProbThisDCC = false;  // reset for the next go-round.
   
   char CRC_err;
   for(int i=0; i<HcalDCCHeader::SPIGOT_COUNT; i++) {
     CRC_err = ((dccHeader->getSpigotSummary(i) >> 10) & 0x00000001);
     if (CRC_err) {
       mapDCCproblem(dcc_);
       //Set the problem flag for the ieta, iphi of any channel in this DCC
       if (debug_>0) std::cout <<"HTR Problem: CRC_err"<<std::endl;
     }
   }
   
   // The DCC TTS state at event-sending time
   char TTS_state = (char)trailer.ttsBits();
   // The DCC TTS state at time L1A received (event enqueued to be built)
   char L1AtimeTTS_state=(char) dccHeader->getAcceptTimeTTS();
   if (TTS_state==L1AtimeTTS_state) ;//party
 
   /* 1 */ //Make sure a reference value of the DCC Event Format version has been noted for this dcc.
   DCCEvtFormat_it = DCCEvtFormat_list.find(dccid);
   if (DCCEvtFormat_it == DCCEvtFormat_list.end()) {
     DCCEvtFormat_list.insert(std::pair<int,short>
                  (dccid,dccHeader->getDCCDataFormatVersion() ) );
     DCCEvtFormat_it = DCCEvtFormat_list.find(dccid);
   } // then check against it.
   if (dccHeader->getDCCDataFormatVersion()!= DCCEvtFormat_it->second) {
     meDCCEventFormatError_->Fill(dccid,1);
     mapDCCproblem(dcc_);
     if (debug_>0)std::cout <<"DCC Error Type 1"<<std::endl;
   }
   /* 2 */ //Check for ones where there should always be zeros
   if (false) //dccHeader->getByte1Zeroes() || dccHeader->getByte3Zeroes() || dccHeader->getByte567Zeroes()) 
   {
     meDCCEventFormatError_->Fill(dccid,2);
     mapDCCproblem(dcc_);
     if (debug_>0)std::cout <<"DCC Error Type 2"<<std::endl;
   }
   /* 3 */ //Check that there are zeros following the HTR Status words.
   int SpigotPad = HcalDCCHeader::SPIGOT_COUNT;
   if (  (((uint64_t) dccHeader->getSpigotSummary(SpigotPad)  ) 
      | ((uint64_t) dccHeader->getSpigotSummary(SpigotPad+1)) 
      | ((uint64_t) dccHeader->getSpigotSummary(SpigotPad+2)))  != 0){
     meDCCEventFormatError_->Fill(dccid,3);
     mapDCCproblem(dcc_);
   if (debug_>0)std::cout <<"DCC Error Type 3"<<std::endl;
   }
   /* 4 */ //Check that there are zeros following the HTR Payloads, if needed.
   int nHTR32BitWords=0;
   // add up all the declared HTR Payload lengths
   for(int i=0; i<HcalDCCHeader::SPIGOT_COUNT; i++) {
     nHTR32BitWords += dccHeader->getSpigotDataLength(i);  }
   // if it's an odd number, check for the padding zeroes
   if (( nHTR32BitWords % 2) == 1) {
     uint64_t* lastDataWord = (uint64_t*) ( raw.data()+raw.size()-(2*sizeof(uint64_t)) );
     if ((*lastDataWord>>32) != 0x00000000){
       meDCCEventFormatError_->Fill(dccid, 4);
       mapDCCproblem(dcc_);
       if (debug_>0)std::cout <<"DCC Error Type 4"<<std::endl;
     }
   }
   
   //unsigned char HTRErrorList=0; 
   //for(int j=0; j<HcalDCCHeader::SPIGOT_COUNT; j++) {
   //  HTRErrorList=dccHeader->getSpigotErrorBits(j);    
   //}
 
   // These will be used in FED-vs-spigot 2D Histograms
   const int fed3offset = 1 + (4*dcc_); //3 bins, plus one of margin, each DCC
   const int fed2offset = 1 + (3*dcc_); //2 bins, plus one of margin, each DCC
   if (TTS_state & 0x8) /*RDY*/ 
     ;
   if (TTS_state & 0x2) /*SYN*/ 
     {
       mapDCCproblem(dcc_);
       if (debug_>0)std::cout <<"TTS_state Error:sync"<<std::endl;
     }
   //Histogram per-Spigot bits from the DCC Header
   int WholeErrorList=0; 
   for(int spigot=0; spigot<HcalDCCHeader::SPIGOT_COUNT; spigot++) {
     if (!( dccHeader->getSpigotEnabled((unsigned int) spigot)) )
       continue; //skip when not enabled
     // This will be used in FED-vs-spigot 2D Histograms
     const int spg3offset = 1 + (4*spigot); //3 bins, plus one of margin, each spigot
     
     if (TTS_state & 0x4) /*BSY*/ 
       ++DataFlowInd_[fed2offset+1][spg3offset+1];
     if (TTS_state & 0x1) /*OFW*/ 
       ++DataFlowInd_[fed2offset+1][spg3offset+2];
 
     WholeErrorList=dccHeader->getLRBErrorBits((unsigned int) spigot);
     if (WholeErrorList!=0) {
       if ((WholeErrorList>>0)&0x01)  //HammingCode Corrected -- Not data corruption!
     DataFlowInd_[fed2offset-1][spg3offset-1]++;
       if (((WholeErrorList>>1)&0x01)!=0)  {//HammingCode Uncorrected Error
     LRBDataCorruptionIndicators_[fed3offset+1][spg3offset+2]++;
     mapHTRproblem(dcc_,spigot);
       }
       if (((WholeErrorList>>2)&0x01)!=0)  {//Truncated data coming into LRB
     LRBDataCorruptionIndicators_[fed3offset+2][spg3offset+2]++;
     mapHTRproblem(dcc_,spigot);
       }
       if (((WholeErrorList>>3)&0x01)!=0)  {//FIFO Overflow
     LRBDataCorruptionIndicators_[fed3offset+1][spg3offset+1]++;
     mapHTRproblem(dcc_,spigot);
       }
       if (((WholeErrorList>>4)&0x01)!=0)  {//ID (EvN Mismatch), htr payload metadeta
     LRBDataCorruptionIndicators_[fed3offset+2][spg3offset+1]++;
     mapHTRproblem(dcc_,spigot);
       }
       if (((WholeErrorList>>5)&0x01)!=0)  {//STatus: hdr/data/trlr error
     LRBDataCorruptionIndicators_[fed3offset+1][spg3offset+0]++;
     mapHTRproblem(dcc_,spigot);
       }
       if (((WholeErrorList>>6)&0x01)!=0)  {//ODD 16-bit word count from HTR
     LRBDataCorruptionIndicators_[fed3offset+2][spg3offset+0]++;
     mapHTRproblem(dcc_,spigot);
       }
     }
     if (!dccHeader->getSpigotPresent((unsigned int) spigot)){
       LRBDataCorruptionIndicators_[fed3offset+0][spg3offset+2]++;  //Enabled, but data not present!
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"HTR Problem: Spigot Not Present"<<std::endl;
     } else {
       if ( dccHeader->getSpigotDataTruncated((unsigned int) spigot)) {
         LRBDataCorruptionIndicators_[fed3offset-1][spg3offset+0]++;  // EventBuilder truncated babbling LRB
     mapHTRproblem(dcc_,spigot);
     if (debug_>0)std::cout <<"HTR Problem: Spigot Data Truncated"<<std::endl;
       }
       if ( dccHeader->getSpigotCRCError((unsigned int) spigot)) {
     LRBDataCorruptionIndicators_[fed3offset+0][spg3offset+0]++; 
     mapHTRproblem(dcc_,spigot);
       }
     } //else spigot marked "Present"
     if (dccHeader->getSpigotDataLength(spigot) <(unsigned long)4) {
       LRBDataCorruptionIndicators_[fed3offset+0][spg3offset+1]++;  //Lost HTR Data for sure.
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"HTR Problem: Spigot Data Length too small"<<std::endl;
     }    
   }
 
   // Walk through the HTR data...
   HcalHTRData htr;  
   for (int spigot=0; spigot<HcalDCCHeader::SPIGOT_COUNT; spigot++) {    
     const int spg3offset = 1 + (4*spigot); //3 bins, plus one of margin, each spigot
     const int spg2offset = 1 + (3*spigot); //3 bins, plus one of margin, each spigot
     if (!dccHeader->getSpigotPresent(spigot)) continue;
 
     // Load the given decoder with the pointer and length from this spigot.
     // i.e.     initialize htr, within dcc raw data size.
     dccHeader->getSpigotData(spigot,htr, raw.size()); 
     const unsigned short* HTRraw = htr.getRawData();
 
     // check min length, correct wordcount, empty event, or total length if histo event.
     if (!htr.check()) {
       meInvHTRData_ -> Fill(spigot,dccid);
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"HTR Problem: HTR check fails"<<std::endl;
     }
 
     unsigned short HTRwdcount = htr.getRawLength();
 
     // Size checks for internal consistency
     // getNTP(), get NDD() seems to be mismatched with format. Manually:
     int NTP = ((htr.getExtHdr6() >> 8) & 0x00FF);
     int NDAQ = (HTRraw[htr.getRawLength() - 4] & 0x7FF);
 
     if ( !  ((HTRwdcount != 8)               ||
          (HTRwdcount != 12 + NTP + NDAQ) ||
          (HTRwdcount != 20 + NTP + NDAQ)    )) {
       ++HalfHTRDataCorruptionIndicators_[fed3offset+2][spg3offset+0];
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"HTR Problem: NTP+NDAQ size consistency check fails"<<std::endl;
       //incompatible Sizes declared. Skip it.
       continue; }
     bool EE = ((dccHeader->getSpigotErrorBits(spigot) >> 2) & 0x01);
     if (EE) { 
       if (HTRwdcount != 8) {    //incompatible Sizes declared. Skip it.
     ++HalfHTRDataCorruptionIndicators_[fed3offset+2][spg3offset+1];
     if (debug_>0)std::cout <<"HTR Problem: HTRwdcount !=8"<<std::endl;  
       }
       DataFlowInd_[fed2offset+0][spg3offset+0]++;
       continue;}
     else{ //For non-EE, both CompactMode and !CompactMode
       bool CM = (htr.getExtHdr7() >> 14)&0x0001;
       int paddingsize = ((NDAQ+NTP)%2); //Extra padding to make HTRwdcount even
       if (( CM && ( (HTRwdcount-NDAQ-NTP-paddingsize) != 12) )
       ||                                
       (!CM && ( (HTRwdcount-NDAQ-NTP-paddingsize) != 20) )  ) { //incompatible Sizes declared. Skip it.
     ++HalfHTRDataCorruptionIndicators_[fed3offset+2][spg3offset+1];
     mapHTRproblem(dcc_,spigot);
     continue;} }
 
     if (htr.isHistogramEvent()) continue;
 
     //We trust the data now.  Finish with the check against DCCHeader
     unsigned int htrOrN = htr.getOrbitNumber(); 
     unsigned int htrBCN = htr.getBunchNumber(); 
     unsigned int htrEvtN = htr.getL1ANumber();
     meBCN_->Fill(htrBCN);  //The only periodic number for whole events.
 
     if (( (htrOrN  == dccOrN ) &&
       (htrBCN  == (unsigned int) dccBCN) )  
     != (dccHeader->getBxMismatchWithDCC(spigot))  ){
       meDCCEventFormatError_->Fill(dccid,5);
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"Orbit or BCN  HTR/DCC mismatch"<<std::endl;
     }
     if ( (htrEvtN == dccEvtNum) != 
      dccHeader->getSpigotValid(spigot) ) {
       meDCCEventFormatError_->Fill(dccid,5);
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"DCC invalid spigot"<<std::endl;
     }
     int cratenum = htr.readoutVMECrateId();
     float slotnum = htr.htrSlot() + 0.5*htr.htrTopBottom();
     if (debug_ > 0) HTRPrint(htr,debug_);
     unsigned int htrFWVer = htr.getFirmwareRevision() & 0xFF;
     meHTRFWVersion_->Fill(cratenum,htrFWVer);  
 
     int EvtNdiff = htrEvtN - dccEvtNum;
     if (EvtNdiff!=0) {
       meEvtNumberSynch_->Fill(dccid,spigot);
       mapHTRproblem(dcc_,spigot);
       meEvtNCheck_->Fill(EvtNdiff);
       if (debug_ == 1)std::cout << "++++ Evt # out of sync, ref, this HTR: "<< dccEvtNum << "  "<<htrEvtN <<std::endl;
     }
 
     int BCNdiff = htrBCN-dccBCN;
     if ((BCNdiff!=0) 
     //TESTME_HCALRAWDATA//
     //|| ((dccid==727) && (spigot==8) && (dccEvtNum%3==0))
     ){
       meBCNSynch_->Fill(dccid,spigot);
       mapHTRproblem(dcc_,spigot);
       meBCNCheck_->Fill(BCNdiff);
       if (debug_==1)std::cout << "++++ BCN # out of sync, ref, this HTR: "<< dccBCN << "  "<<htrBCN <<std::endl;
     }
 
     int OrNdiff = htrOrN-dccOrN;
     if (OrNdiff!=0) {
       meOrNSynch_->Fill(dccid,spigot);
       mapHTRproblem(dcc_,spigot);
       meOrNCheck_->Fill(OrNdiff);
       meBCNwhenOrNDiff_->Fill(htrBCN); // Are there special BCN where OrN mismatched occur? Let's see.
       if (debug_==1)std::cout << "++++ OrN # out of sync, ref, this HTR: "<< dccOrN << "  "<<htrOrN <<std::endl;
     }
 
     bool htrUnSuppressed=(HTRraw[6]>>15 & 0x0001);
     if (htrUnSuppressed) {
       UScount[dcc_][spigot]++;
       int here=1+(HcalDCCHeader::SPIGOT_COUNT*(dcc_))+spigot;
       meUSFractSpigs_->Fill(here,
                 ((double)UScount[dcc_][spigot]));}
 
     MonitorElement* tmpErr = 0;
     HcalDetId HDI = hashedHcalDetId_[hashup(dcc_,spigot)];
     if (HDI != HcalDetId::Undefined) {
       switch (HDI.subdetId()) {
       case (HcalBarrel): {
     tmpErr = HTR_StatusWd_HBHE;
       } break;
       case (HcalEndcap): {
     tmpErr = HTR_StatusWd_HBHE;
       } break;
       case (HcalOuter): {
     tmpErr = HTR_StatusWd_HO;
       } break;
       case (HcalForward): {
     tmpErr = HTR_StatusWd_HF; 
       } break;
       default: break;
       }
     }
    
     int errWord = htr.getErrorsWord() & 0xFFFF;
     if (  (((dccHeader->getSpigotSummary( spigot))>>24)&0x00FF)
       != (errWord&0x00FF) ){
       meDCCEventFormatError_->Fill(dccid,6);//Low 8 bits miscopied into DCCHeader
       mapHTRproblem(dcc_,spigot);
       if (debug_>0)std::cout <<"DCC spigot summary error or HTR error word"<<std::endl;
       //What other problems may lurk? Spooky.
     }
     if(tmpErr!=NULL){
       for(int i=0; i<16; i++){
     int errbit = errWord&(0x01<<i);
     // Bit 15 should always be 1; consider it an error if it isn't.
     if (i==15) errbit = errbit - 0x8000;
     if (errbit !=0) {
       tmpErr->Fill(i);
       //Only certain bits indicate corrupted data:
       switch (i) {
       case (14): //CT (obsolete Calibration Trigger scheme used)
         HalfHTRDataCorruptionIndicators_[fed3offset+0][spg3offset+2]++;
         mapHTRproblem(dcc_,spigot);
         if (debug_>0)std::cout <<"HTR Problem: Case 14"<<std::endl;
         break;
       case (13): //HM
         HalfHTRDataCorruptionIndicators_[fed3offset+0][spg3offset+1]++;
         mapHTRproblem(dcc_,spigot);
         if (debug_>0)std::cout <<"HTR Problem: Case 13"<<std::endl;
         break;
       case (12): //TM
         HalfHTRDataCorruptionIndicators_[fed3offset+0][spg3offset+0]++;
         mapHTRproblem(dcc_,spigot);
         if (debug_>0)std::cout <<"HTR Problem: Case 12"<<std::endl;
         break;
       case ( 8): //BE
         HalfHTRDataCorruptionIndicators_[fed3offset+1][spg3offset+2]++;
         mapHTRproblem(dcc_,spigot);
         if (debug_>0)std::cout <<"HTR Problem: Case 8"<<std::endl;
         break;
       case (15): //b15
         HalfHTRDataCorruptionIndicators_[fed3offset+1][spg3offset+1]++;
         mapHTRproblem(dcc_,spigot);
         break;
       case ( 7): //CK
         HalfHTRDataCorruptionIndicators_[fed3offset+1][spg3offset+0]++;
         mapHTRproblem(dcc_,spigot);
         if (debug_>0)std::cout <<"HTR Problem: Case 7"<<std::endl;
         break;
       //\\case ( 5): //LW removed 2010.02.16
       //\\  HalfHTRDataCorruptionIndicators_[fed3offset+2][spg3offset+2]++;
       //\\  //Sometimes set spuriously at startup, per-fiber, .: Leniency: 8
       //\\  if (HalfHTRDataCorruptionIndicators_[fed3offset+2][spg3offset+2] > 8) { 
       //\\    if (debug_>0)std::cout <<"HTR Problem: Case 5"<<std::endl;
       //\\    break; 
       //\\  }
       case ( 3): //L1 (previous L1A violated trigger rules)
         DataFlowInd_[fed2offset+1][spg3offset+0]++; break;
       case ( 1): //BZ
         DataFlowInd_[fed2offset+0][spg3offset+1]++; break;
       case ( 0): //OW
         DataFlowInd_[fed2offset+0][spg3offset+2]++;
       default: break;
       }
       meStatusWdCrate_->Fill(cratenum,i);
       if      (cratenum == 0) meCrate0HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 1) meCrate1HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 2) meCrate2HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 3) meCrate3HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 4) meCrate4HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 5) meCrate5HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 6) meCrate6HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 7) meCrate7HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum == 9) meCrate9HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==10)meCrate10HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==11)meCrate11HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==12)meCrate12HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==13)meCrate13HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==14)meCrate14HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==15)meCrate15HTRStatus_ -> Fill(slotnum,i);
       else if (cratenum ==17)meCrate17HTRStatus_ -> Fill(slotnum,i);
     } 
       }
     }
  
     // Fish out Front-End Errors from the precision channels
     const short unsigned int* daq_first, *daq_last, *tp_first, *tp_last;
     const HcalQIESample* qie_begin, *qie_end, *qie_work;
     
     // get pointers
     htr.dataPointers(&daq_first,&daq_last,&tp_first,&tp_last);
     qie_begin=(HcalQIESample*)daq_first;
     qie_end=(HcalQIESample*)(daq_last+1); // one beyond last..
     
     //TESTME_HCALRAWDATA//if (dccid==715 && spigot==5 && tevt_%3==0)
     //TESTME_HCALRAWDATA//  Chann_DataIntegrityCheck_[dcc_][16][spg2offset]++;    
 
     if (htr.getFormatVersion() < 6 ) { //HcalHTRData::FORMAT_VERSION_COMPACT_DATA is 6
 
       int lastcapid=-1;
       int samplecounter=-1;
       int htrchan=-1; // Valid: [1,24]
       int chn2offset=0; 
       int NTS = htr.getNDD(); //number time slices, in precision channels
 
       ChannSumm_DataIntegrityCheck_  [fed2offset-1][spg2offset+0]=-NTS;//For normalization by client - NB! negative!
       // Run over DAQ words for this spigot
       for (qie_work=qie_begin; qie_work!=qie_end; qie_work++) {
     if (qie_work->raw()==0xFFFF)  // filler word
       continue;
     //Beginning a channel's samples?
     if (( 1 + ( 3* (qie_work->fiber()-1) ) + qie_work->fiberChan() )  != htrchan) { //new channel starting
       // A fiber [1..8] carries three fiber channels, each is [0..2]. Make htrchan [1..24]
       htrchan= (3* (qie_work->fiber()-1) ) + qie_work->fiberChan(); 
       chn2offset = (htrchan*3)+1;
       --ChannSumm_DataIntegrityCheck_  [fed2offset-1][spg2offset-1];//event tally -- NB! negative!
       --Chann_DataIntegrityCheck_[dcc_][chn2offset-1][spg2offset-1];//event tally -- NB! negative!
       if (samplecounter !=-1) { //Wrap up the previous channel if there is one
         //Check the previous digi for number of timeslices
         if (((samplecounter != NTS) &&
          (samplecounter != 1)             )
         //||
         //((htrchan==5) && (spigot==5) && (dcc_==5))
         )
           { //Wrong DigiSize
         ++ChannSumm_DataIntegrityCheck_  [fed2offset+0][spg2offset+0];
         ++Chann_DataIntegrityCheck_[dcc_][chn2offset+0][spg2offset+0];
         mapChannproblem(dcc_,spigot,htrchan);
         if (debug_)std::cout <<"mapChannelProblem:  Wrong Digi Size"<<std::endl;
           } 
       }     
       //set up for this new channel
       lastcapid=qie_work->capid();
       samplecounter=1;} // fi (qie_work->fiberAndChan() != lastfibchan)
     else { //precision samples not the first timeslice
       int hope = lastcapid +1;// What capid would we hope for here?
       if (hope==4) hope = 0;  // What capid would we hope for here?
       if (qie_work->capid() != hope){
         ++ChannSumm_DataIntegrityCheck_  [fed2offset+1][spg2offset+0];
         ++Chann_DataIntegrityCheck_[dcc_][chn2offset+1][spg2offset+0];
         mapChannproblem(dcc_,spigot,htrchan);
         if (debug_)std::cout <<"mapChannelProblem:  Wrong Cap ID"<<std::endl;
       }
       lastcapid=qie_work->capid();
       samplecounter++;}
     //For every sample, whether the first of the channel or not, !DV, Er
     if (!(qie_work->dv())){
       ++ChannSumm_DataIntegrityCheck_  [fed2offset+0][spg2offset+1];
       ++Chann_DataIntegrityCheck_[dcc_][chn2offset+0][spg2offset+1];
     }
     if (qie_work->er()) {      // FEE - Front End Error
       ++ChannSumm_DataIntegrityCheck_  [fed2offset+1][spg2offset+1];
       ++Chann_DataIntegrityCheck_[dcc_][chn2offset+1][spg2offset+1]; 
       mapChannproblem(dcc_,spigot,htrchan);
       if (debug_)std::cout <<"mapChannelProblem:  FE Error"<<std::endl; 
     }
       } // for (qie_work = qie_begin;...)  end loop over all timesamples in this spigot
       //Wrap up the last channel
       //Check the last digi for number of timeslices
       if ((samplecounter != NTS) &&
       (samplecounter != 1)            &&
       (samplecounter !=-1)             ) { //Wrong DigiSize (unexpected num. timesamples)
     ++ChannSumm_DataIntegrityCheck_  [fed2offset+0][spg2offset+0];
     ++Chann_DataIntegrityCheck_[dcc_][chn2offset+0][spg2offset+0];
     mapChannproblem(dcc_,spigot,htrchan);
     if (debug_)std::cout <<"mapChannelProblem:  Wrong Digi Size (last digi)"<<std::endl;
       }
     } else { // this is the branch for unpacking the compact data format with per-channel headers
       const unsigned short* ptr_header=daq_first;
       const unsigned short* ptr_end=daq_last+1;
       int flavor, error_flags, capid0, channelid;
       // int samplecounter=-1;  // for a digisize check
       int htrchan=-1; // Valid: [1,24]
       int chn2offset=0; 
       int NTS = htr.getNDD(); //number time slices, in precision channels
       int Nchan = 3; // 3 channels per fiber
       while (ptr_header!=ptr_end) {
         if (*ptr_header==0xFFFF) { // impossible filler word
           ptr_header++;
           continue;
         }
     error_flags = capid0 = channelid = 0;
     // unpack the header word
     bool isheader=HcalHTRData::unpack_per_channel_header(*ptr_header,flavor,error_flags,capid0,channelid);
     if (!isheader) {
       ptr_header++;
       continue;
     }
     // A fiber [1..8] carries three fiber channels, each is [0..2]. Make htrchan [1..24]
     int fiber = 1 + ((channelid & 0x1C) >> 2); //Mask and shift to get bits [2:4]
     int chan = channelid & 0x3; //bits [0:1]
     htrchan = ((fiber -1) * Nchan) + chan + 1;  //ta-dah! I really wish everything counted from zero...
     chn2offset = ((htrchan-1)*3)+1; //For placing the errors on the histogram. Also very tidy. Sorry.
     //debug// if (error_flags) std::cout<<fiber<<","<<chan<<" = "<<htrchan<<"   @"<<chn2offset<<std::endl;
     ChannSumm_DataIntegrityCheck_  [fed2offset-1][spg2offset-1] -= NTS;//event tally -- NB: negative!
     Chann_DataIntegrityCheck_[dcc_][chn2offset-1][spg2offset-1] -= NTS;//event tally -- NB: negative!
     if (error_flags & 2) { //a CapId violation (non correct rotation)
       ++ChannSumm_DataIntegrityCheck_  [fed2offset+1][spg2offset+0];
       ++Chann_DataIntegrityCheck_[dcc_][chn2offset+1][spg2offset+0];
       mapChannproblem(dcc_,spigot,htrchan);
     }
     if (error_flags & 1) { //an asserted Link-Error (Er)
       ++ChannSumm_DataIntegrityCheck_  [fed2offset+1][spg2offset+1];
       ++Chann_DataIntegrityCheck_[dcc_][chn2offset+1][spg2offset+1]; 
       mapChannproblem(dcc_,spigot,htrchan);
     }
 
     for (ptr_header++;
          ptr_header!=ptr_end && !HcalHTRData::is_channel_header(*ptr_header);
          ptr_header++);      
       }
     }
     unsigned int fib1BCN = htr.getFib1OrbMsgBCN();
     unsigned int fib2BCN = htr.getFib2OrbMsgBCN();
     unsigned int fib3BCN = htr.getFib3OrbMsgBCN();
     unsigned int fib4BCN = htr.getFib4OrbMsgBCN();
     unsigned int fib5BCN = htr.getFib5OrbMsgBCN();
     unsigned int fib6BCN = htr.getFib6OrbMsgBCN();
     unsigned int fib7BCN = htr.getFib7OrbMsgBCN();
     unsigned int fib8BCN = htr.getFib8OrbMsgBCN();
     meFibBCN_->Fill(fib1BCN);
     meFibBCN_->Fill(fib2BCN);
     meFibBCN_->Fill(fib3BCN);
     meFibBCN_->Fill(fib4BCN);
     meFibBCN_->Fill(fib5BCN);
     meFibBCN_->Fill(fib6BCN);
     meFibBCN_->Fill(fib7BCN);
     meFibBCN_->Fill(fib8BCN);
     // Disable for now?
     meFib1OrbMsgBCN_->Fill(slotnum, cratenum, fib1BCN);
     meFib2OrbMsgBCN_->Fill(slotnum, cratenum, fib2BCN);
     meFib3OrbMsgBCN_->Fill(slotnum, cratenum, fib3BCN);
     meFib4OrbMsgBCN_->Fill(slotnum, cratenum, fib4BCN);
     meFib5OrbMsgBCN_->Fill(slotnum, cratenum, fib5BCN);
     meFib6OrbMsgBCN_->Fill(slotnum, cratenum, fib6BCN);
     meFib7OrbMsgBCN_->Fill(slotnum, cratenum, fib7BCN);
     meFib8OrbMsgBCN_->Fill(slotnum, cratenum, fib8BCN);
     
   } //  loop over spigots 
   return;
 } // loop over DCCs void HcalRawDataMonitor::unpack(

void HcalRawDataMonitor::UpdateMEs ( void )

private

Definition at line 1383 of file HcalRawDataMonitor.cc.

References Chann_DataIntegrityCheck_, ChannSumm_DataIntegrityCheck_, DataFlowInd_, f, MonitorElement::getBinContent(), HalfHTRDataCorruptionIndicators_, LRBDataCorruptionIndicators_, meChann_DataIntegrityCheck_, meChannSumm_DataIntegrityCheck_, meDataFlowInd_, meHalfHTRDataCorruptionIndicators_, meLRBDataCorruptionIndicators_, HcalBaseDQMonitor::meTevtHist_, NumBadHB, NumBadHE, NumBadHF, NumBadHFLUMI, NumBadHO, NumBadHO0, NumBadHO12, NUMDCCS, MonitorElement::setBinContent(), HcalBaseDQMonitor::tevt_, THREE_FED, THREE_SPG, TWO___FED, TWO__SPGT, TWO_CHANN, x, and y.

Referenced by endLuminosityBlock().

                                          {
   tevt_=0;
   if (meTevtHist_) tevt_= (int)meTevtHist_->getBinContent(1);
   NumBadHB=0;
   NumBadHE=0;
   NumBadHO=0;
   NumBadHF=0;
   NumBadHFLUMI=0;
   NumBadHO0=0;
   NumBadHO12=0;
 
 
   meLRBDataCorruptionIndicators_->setBinContent(0,0,tevt_);
   for (int x=0; x<THREE_FED; x++)
     for (int y=0; y<THREE_SPG; y++)
       if (LRBDataCorruptionIndicators_  [x][y]) 
     meLRBDataCorruptionIndicators_->setBinContent(x+1,y+1,LRBDataCorruptionIndicators_[x][y]);
     
   meHalfHTRDataCorruptionIndicators_->setBinContent(0,0,tevt_);
   for (int x=0; x<THREE_FED; x++)
     for (int y=0; y<THREE_SPG; y++)
       if (HalfHTRDataCorruptionIndicators_  [x][y])
     meHalfHTRDataCorruptionIndicators_->setBinContent(x+1,y+1,HalfHTRDataCorruptionIndicators_[x][y]);
 
   meChannSumm_DataIntegrityCheck_->setBinContent(0,0,tevt_);     
   for (int x=0; x<TWO___FED; x++)
     for (int y=0; y<TWO__SPGT; y++)
       if (ChannSumm_DataIntegrityCheck_[x][y]) 
     meChannSumm_DataIntegrityCheck_->setBinContent(x+1,y+1,ChannSumm_DataIntegrityCheck_[x][y]);
 
   for (int f=0; f<NUMDCCS; f++){
     meChann_DataIntegrityCheck_[f]->setBinContent(0,0,tevt_);
     for (int x=0; x<TWO_CHANN; x++)
       for (int y=0; y<TWO__SPGT; y++)      
     if (Chann_DataIntegrityCheck_[f][x][y])
       meChann_DataIntegrityCheck_[f]->setBinContent(x+1,y+1,Chann_DataIntegrityCheck_ [f][x][y]);
   }
   
   meDataFlowInd_->setBinContent(0,0,tevt_);
   for (int x=0; x<TWO___FED; x++)
     for (int y=0; y<THREE_SPG; y++)      
       if (DataFlowInd_[x][y])
     meDataFlowInd_->setBinContent(x+1,y+1,DataFlowInd_[x][y]);
 } //UpdateMEs

void HcalRawDataMonitor::whosebad ( int subdet )

protected

Definition at line 1429 of file HcalRawDataMonitor.cc.

                                             {
 //  if (subdet==HcalBarrel)       ++NumBadHB;
 //  else if (subdet==HcalEndcap)  ++NumBadHE;
 //  else if (subdet==HcalOuter)  
 //    {
 //      ++NumBadHO;
 //      if (abs(ieta)<5) ++NumBadHO0;
 //      else ++NumBadHO12;
 //    }
 //  else if (subdet==HcalForward)
 //    {
 //      ++NumBadHF;
 //      if (depth==1 && (abs(ieta)==33 || abs(ieta)==34))
 //  ++NumBadHFLUMI;
 //      else if (depth==2 && (abs(ieta)==35 || abs(ieta)==36))
 //  ++NumBadHFLUMI;
 //    }
 }

Member Data Documentation

std::map<int, short>::iterator HcalRawDataMonitor::CDFReservedBits_it

private

Definition at line 144 of file HcalRawDataMonitor.h.

Referenced by unpack().

std::map<int, short> HcalRawDataMonitor::CDFReservedBits_list

private

Definition at line 143 of file HcalRawDataMonitor.h.

Referenced by unpack().

std::map<int, short>::iterator HcalRawDataMonitor::CDFvers_it

private

Definition at line 142 of file HcalRawDataMonitor.h.

Referenced by unpack().

std::map<int, short> HcalRawDataMonitor::CDFversionNumber_list

private

Definition at line 141 of file HcalRawDataMonitor.h.

Referenced by unpack().

float HcalRawDataMonitor::Chann_DataIntegrityCheck_[32][(1+((2+1)*24))][(1+((2+1)*15))]

private

Definition at line 122 of file HcalRawDataMonitor.h.

Referenced by reset(), unpack(), and UpdateMEs().

float HcalRawDataMonitor::ChannSumm_DataIntegrityCheck_[(1+((2+1)*32))][(1+((2+1)*15))]

private

Definition at line 121 of file HcalRawDataMonitor.h.

Referenced by reset(), unpack(), and UpdateMEs().

float HcalRawDataMonitor::DataFlowInd_[(1+((2+1)*32))][(1+((3+1)*15))]

private

Definition at line 123 of file HcalRawDataMonitor.h.

Referenced by reset(), unpack(), and UpdateMEs().

std::map<int, short>::iterator HcalRawDataMonitor::DCCEvtFormat_it

private

Definition at line 146 of file HcalRawDataMonitor.h.

Referenced by unpack().

std::map<int, short> HcalRawDataMonitor::DCCEvtFormat_list

private

Definition at line 145 of file HcalRawDataMonitor.h.

Referenced by unpack().

edm::InputTag HcalRawDataMonitor::digiLabel_

protected

Definition at line 58 of file HcalRawDataMonitor.h.

Referenced by analyze(), and HcalRawDataMonitor().

bool HcalRawDataMonitor::excludeHORing2_

private

Definition at line 214 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor(), mapChannproblem(), mapDCCproblem(), mapHTRproblem(), and setup().

edm::InputTag HcalRawDataMonitor::FEDRawDataCollection_

protected

Definition at line 57 of file HcalRawDataMonitor.h.

Referenced by analyze(), and HcalRawDataMonitor().

float HcalRawDataMonitor::HalfHTRDataCorruptionIndicators_[(1+((3+1)*32))][(1+((3+1)*15))]

private

Definition at line 119 of file HcalRawDataMonitor.h.

Referenced by reset(), unpack(), and UpdateMEs().

HcalDetId HcalRawDataMonitor::hashedHcalDetId_[32 *15 *24]

private

Definition at line 135 of file HcalRawDataMonitor.h.

Referenced by HashToHDI(), mapDCCproblem(), mapHTRproblem(), reset(), stashHDI(), and unpack().

MonitorElement* HcalRawDataMonitor::HTR_StatusWd_HBHE

private

Definition at line 173 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::HTR_StatusWd_HF

private

Definition at line 174 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::HTR_StatusWd_HO

private

Definition at line 175 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

float HcalRawDataMonitor::LRBDataCorruptionIndicators_[(1+((3+1)*32))][(1+((3+1)*15))]

private

Definition at line 120 of file HcalRawDataMonitor.h.

Referenced by reset(), unpack(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::meBCN_

private

Definition at line 154 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meBCNCheck_

private

Definition at line 156 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meBCNSynch_

private

Definition at line 157 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meBCNwhenOrNDiff_

private

Definition at line 164 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCDFErrorFound_

private

Definition at line 150 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED00_

private

Definition at line 83 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED01_

private

Definition at line 84 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED02_

private

Definition at line 85 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED03_

private

Definition at line 86 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED04_

private

Definition at line 87 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED05_

private

Definition at line 88 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED06_

private

Definition at line 89 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED07_

private

Definition at line 90 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED08_

private

Definition at line 91 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED09_

private

Definition at line 92 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED10_

private

Definition at line 93 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED11_

private

Definition at line 94 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED12_

private

Definition at line 95 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED13_

private

Definition at line 96 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED14_

private

Definition at line 97 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED15_

private

Definition at line 98 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED16_

private

Definition at line 99 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED17_

private

Definition at line 100 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED18_

private

Definition at line 101 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED19_

private

Definition at line 102 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED20_

private

Definition at line 103 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED21_

private

Definition at line 104 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED22_

private

Definition at line 105 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED23_

private

Definition at line 106 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED24_

private

Definition at line 107 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED25_

private

Definition at line 108 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED26_

private

Definition at line 109 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED27_

private

Definition at line 110 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED28_

private

Definition at line 111 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED29_

private

Definition at line 112 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED30_

private

Definition at line 113 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meCh_DataIntegrityFED31_

private

Definition at line 114 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor().

MonitorElement* HcalRawDataMonitor::meChann_DataIntegrityCheck_[32]

private

Definition at line 116 of file HcalRawDataMonitor.h.

Referenced by HcalRawDataMonitor(), processEvent(), setup(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::meChannSumm_DataIntegrityCheck_

private

Definition at line 127 of file HcalRawDataMonitor.h.

Referenced by processEvent(), setup(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::meCrate0HTRStatus_

private

Definition at line 182 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate10HTRStatus_

private

Definition at line 191 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate11HTRStatus_

private

Definition at line 192 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate12HTRStatus_

private

Definition at line 193 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate13HTRStatus_

private

Definition at line 194 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate14HTRStatus_

private

Definition at line 195 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate15HTRStatus_

private

Definition at line 196 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate17HTRStatus_

private

Definition at line 197 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate1HTRStatus_

private

Definition at line 183 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate2HTRStatus_

private

Definition at line 184 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate3HTRStatus_

private

Definition at line 185 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate4HTRStatus_

private

Definition at line 186 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate5HTRStatus_

private

Definition at line 187 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate6HTRStatus_

private

Definition at line 188 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate7HTRStatus_

private

Definition at line 189 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meCrate9HTRStatus_

private

Definition at line 190 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meDataFlowInd_

private

Definition at line 128 of file HcalRawDataMonitor.h.

Referenced by processEvent(), setup(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::medccBCN_

private

Definition at line 155 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meDCCEventFormatError_

private

Definition at line 151 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meDCCVersion_

private

Definition at line 170 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meEvFragSize2_

private

Definition at line 169 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meEvFragSize_

private

Definition at line 168 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meEvtNCheck_

private

Definition at line 159 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meEvtNumberSynch_

private

Definition at line 160 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::mefedEntries_

private

Definition at line 166 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFEDRawDataSizes_

private

Definition at line 167 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib1OrbMsgBCN_

private

Definition at line 201 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib2OrbMsgBCN_

private

Definition at line 202 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib3OrbMsgBCN_

private

Definition at line 203 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib4OrbMsgBCN_

private

Definition at line 204 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib5OrbMsgBCN_

private

Definition at line 205 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib6OrbMsgBCN_

private

Definition at line 206 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib7OrbMsgBCN_

private

Definition at line 207 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFib8OrbMsgBCN_

private

Definition at line 208 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meFibBCN_

private

Definition at line 178 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meHalfHTRDataCorruptionIndicators_

private

Definition at line 125 of file HcalRawDataMonitor.h.

Referenced by processEvent(), setup(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::meHTRFWVersion_

private

Definition at line 200 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meInvHTRData_

private

Definition at line 177 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meLRBDataCorruptionIndicators_

private

Definition at line 126 of file HcalRawDataMonitor.h.

Referenced by processEvent(), setup(), and UpdateMEs().

MonitorElement* HcalRawDataMonitor::meOrNCheck_

private

Definition at line 162 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meOrNSynch_

private

Definition at line 163 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meStatusWdCrate_

private

Definition at line 176 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

MonitorElement* HcalRawDataMonitor::meUSFractSpigs_

private

Definition at line 199 of file HcalRawDataMonitor.h.

Referenced by setup(), and unpack().

int HcalRawDataMonitor::NumBadHB

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHE

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHF

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHFLUMI

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHO

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHO0

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

int HcalRawDataMonitor::NumBadHO12

private

Definition at line 210 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), reset(), and UpdateMEs().

uint64_t HcalRawDataMonitor::problemcount[85][72][4]

protected

Definition at line 75 of file HcalRawDataMonitor.h.

Referenced by analyze(), processEvent(), and reset().

bool HcalRawDataMonitor::problemfound[85][72][4]

protected

Definition at line 76 of file HcalRawDataMonitor.h.

Referenced by mapChannproblem(), mapDCCproblem(), mapHTRproblem(), processEvent(), and reset().

const HcalElectronicsMap* HcalRawDataMonitor::readoutMap_

protected

Definition at line 63 of file HcalRawDataMonitor.h.

Referenced by bookHistograms().

edm::EDGetTokenT<FEDRawDataCollection> HcalRawDataMonitor::tok_raw_

protected

Definition at line 60 of file HcalRawDataMonitor.h.

Referenced by analyze(), and HcalRawDataMonitor().

edm::EDGetTokenT<HcalUnpackerReport> HcalRawDataMonitor::tok_unpack_

protected

Definition at line 61 of file HcalRawDataMonitor.h.

Referenced by analyze(), and HcalRawDataMonitor().

uint64_t HcalRawDataMonitor::uniqcounter[85][72][4]

protected

Definition at line 73 of file HcalRawDataMonitor.h.

Referenced by analyze(), endLuminosityBlock(), and reset().

uint64_t HcalRawDataMonitor::UScount[32][15]

private

Definition at line 118 of file HcalRawDataMonitor.h.

Referenced by reset(), and unpack().

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