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EcalSelectiveReadoutValidation Class Reference

#include <EcalSelectiveReadoutValidation.h>

Inheritance diagram for EcalSelectiveReadoutValidation:
DQMOneEDAnalyzer<> edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... > edm::one::EDProducerBase edm::ProducerBase edm::EDConsumerBase edm::ProductRegistryHelper

Classes

struct  energiesEb_t
 
struct  energiesEe_t
 

Public Member Functions

void bookHistograms (DQMStore::IBooker &i, edm::Run const &, edm::EventSetup const &) override
 
void dqmBeginRun (edm::Run const &, edm::EventSetup const &) override
 
 EcalSelectiveReadoutValidation (const edm::ParameterSet &ps)
 Constructor. More...
 
 ~EcalSelectiveReadoutValidation () override
 Destructor. More...
 
- Public Member Functions inherited from DQMOneEDAnalyzer<>
void accumulate (edm::Event const &event, edm::EventSetup const &setup) override
 
void beginRun (edm::Run const &run, edm::EventSetup const &setup) final
 
 DQMOneEDAnalyzer ()
 
void endRun (edm::Run const &, edm::EventSetup const &) final
 
void endRunProduce (edm::Run &run, edm::EventSetup const &setup) final
 
virtual bool getCanSaveByLumi ()
 
- Public Member Functions inherited from edm::one::EDProducer< edm::EndRunProducer, edm::one::WatchRuns, edm::Accumulator, Args... >
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
SerialTaskQueueglobalLuminosityBlocksQueue () final
 
SerialTaskQueueglobalRunsQueue () final
 
bool hasAbilityToProduceInBeginLumis () const final
 
bool hasAbilityToProduceInBeginProcessBlocks () const final
 
bool hasAbilityToProduceInBeginRuns () const final
 
bool hasAbilityToProduceInEndLumis () const final
 
bool hasAbilityToProduceInEndProcessBlocks () const final
 
bool hasAbilityToProduceInEndRuns () const final
 
const EDProduceroperator= (const EDProducer &)=delete
 
bool wantsGlobalLuminosityBlocks () const final
 
bool wantsGlobalRuns () const final
 
bool wantsInputProcessBlocks () const final
 
bool wantsProcessBlocks () const final
 
- Public Member Functions inherited from edm::one::EDProducerBase
 EDProducerBase ()
 
ModuleDescription const & moduleDescription () const
 
bool wantsStreamLuminosityBlocks () const
 
bool wantsStreamRuns () const
 
 ~EDProducerBase () override
 
- Public Member Functions inherited from edm::ProducerBase
void callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
 
std::vector< edm::ProductResolverIndex > const & indiciesForPutProducts (BranchType iBranchType) const
 
 ProducerBase ()
 
std::vector< edm::ProductResolverIndex > const & putTokenIndexToProductResolverIndex () const
 
std::vector< bool > const & recordProvenanceList () const
 
void registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
 
std::function< void(BranchDescription const &)> registrationCallback () const
 used by the fwk to register list of products More...
 
void resolvePutIndicies (BranchType iBranchType, ModuleToResolverIndicies const &iIndicies, std::string const &moduleLabel)
 
TypeLabelList const & typeLabelList () const
 used by the fwk to register the list of products of this module More...
 
 ~ProducerBase () noexcept(false) override
 
- Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfoconsumesInfo () const
 
void convertCurrentProcessAlias (std::string const &processName)
 Convert "@currentProcess" in InputTag process names to the actual current process name. More...
 
 EDConsumerBase ()
 
 EDConsumerBase (EDConsumerBase const &)=delete
 
 EDConsumerBase (EDConsumerBase &&)=default
 
ESProxyIndex const * esGetTokenIndices (edm::Transition iTrans) const
 
std::vector< ESProxyIndex > const & esGetTokenIndicesVector (edm::Transition iTrans) const
 
std::vector< ESRecordIndex > const & esGetTokenRecordIndicesVector (edm::Transition iTrans) const
 
ProductResolverIndexAndSkipBit indexFrom (EDGetToken, BranchType, TypeID const &) const
 
void itemsMayGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
void itemsToGet (BranchType, std::vector< ProductResolverIndexAndSkipBit > &) const
 
std::vector< ProductResolverIndexAndSkipBit > const & itemsToGetFrom (BranchType iType) const
 
void labelsForToken (EDGetToken iToken, Labels &oLabels) const
 
void modulesWhoseProductsAreConsumed (std::array< std::vector< ModuleDescription const *> *, NumBranchTypes > &modulesAll, std::vector< ModuleProcessName > &modulesInPreviousProcesses, ProductRegistry const &preg, std::map< std::string, ModuleDescription const *> const &labelsToDesc, std::string const &processName) const
 
EDConsumerBase const & operator= (EDConsumerBase const &)=delete
 
EDConsumerBaseoperator= (EDConsumerBase &&)=default
 
bool registeredToConsume (ProductResolverIndex, bool, BranchType) const
 
bool registeredToConsumeMany (TypeID const &, BranchType) const
 
void selectInputProcessBlocks (ProductRegistry const &productRegistry, ProcessBlockHelperBase const &processBlockHelperBase)
 
ProductResolverIndexAndSkipBit uncheckedIndexFrom (EDGetToken) const
 
void updateLookup (BranchType iBranchType, ProductResolverIndexHelper const &, bool iPrefetchMayGet)
 
void updateLookup (eventsetup::ESRecordsToProxyIndices const &)
 
virtual ~EDConsumerBase () noexcept(false)
 

Protected Member Functions

void analyze (edm::Event const &e, edm::EventSetup const &c) override
 Analyzes the event. More...
 
void dqmEndRun (const edm::Run &r, const edm::EventSetup &c) override
 
- Protected Member Functions inherited from edm::ProducerBase
template<Transition Tr = Transition::Event>
auto produces (std::string instanceName) noexcept
 declare what type of product will make and with which optional label More...
 
template<Transition B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<BranchType B>
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
BranchAliasSetter produces (const TypeID &id, std::string instanceName=std::string(), bool recordProvenance=true)
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<class ProductType >
BranchAliasSetterT< ProductType > produces ()
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<typename ProductType , BranchType B>
BranchAliasSetterT< ProductType > produces ()
 
template<class ProductType >
BranchAliasSetterT< ProductType > produces (std::string instanceName)
 
template<typename ProductType , Transition B>
BranchAliasSetterT< ProductType > produces ()
 
template<Transition Tr = Transition::Event>
auto produces () noexcept
 
ProducesCollector producesCollector ()
 
- Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType > consumes (edm::InputTag const &tag)
 
template<BranchType B = InEvent>
EDConsumerBaseAdaptor< Bconsumes (edm::InputTag tag) noexcept
 
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 ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes ()
 
template<typename ESProduct , typename ESRecord , Transition Tr = Transition::Event>
auto esConsumes (ESInputTag const &tag)
 
template<Transition Tr = Transition::Event>
constexpr auto esConsumes ()
 
template<Transition Tr = Transition::Event>
auto esConsumes (ESInputTag tag)
 
template<Transition Tr = Transition::Event>
ESGetTokenGeneric esConsumes (eventsetup::EventSetupRecordKey const &iRecord, eventsetup::DataKey const &iKey)
 Used with EventSetupRecord::doGet. More...
 
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)
 
void resetItemsToGetFrom (BranchType iType)
 

Private Types

typedef EcalRecHit RecHit
 
typedef EcalRecHitCollection RecHitCollection
 
enum  subdet_t { EB, EE }
 distinguishes barral and endcap of ECAL. More...
 

Private Member Functions

template<class T , class U >
void anaDigi (const T &frame, const U &srFlagColl)
 
void anaDigiInit ()
 
void analyzeDataVolume (const edm::Event &e, const edm::EventSetup &es)
 
void analyzeEB (const edm::Event &event, const edm::EventSetup &es)
 
void analyzeEE (const edm::Event &event, const edm::EventSetup &es)
 
void analyzeTP (const edm::Event &event, const edm::EventSetup &es)
 
template<class T >
void checkSrApplication (const edm::Event &event, T &srfs)
 
int cIndex2iEta (int i) const
 
int cIndex2iPhi (int i) const
 
int cIndex2iTtEta (int i) const
 
int cIndex2iTtPhi (int i) const
 
int cIndex2iXY (int iX0) const
 
template<class T >
void compareSrfColl (const edm::Event &event, T &srfFromData, T &computedSrf)
 
void configFirWeights (const std::vector< double > &weightsForZsFIR)
 
std::pair< int, int > dccCh (const DetId &xtalId) const
 
double frame2Energy (const EcalDataFrame &frame) const
 
template<class T >
double frame2EnergyForTp (const T &frame, int offset=0) const
 
double getBytesPerCrystal () const
 
int getCrystalCount (int iDcc, int iDccCh)
 
double getDccEventSize (int iDcc0, double nReadXtals) const
 
double getDccOverhead (subdet_t subdet) const
 
double getDccSrDependentPayload (int iDcc0, double nReadRus, double nReadXtals) const
 
double getEbEventSize (double nReadXtals) const
 
double getEeEventSize (double nReadXtals) const
 
double getL1aRate () const
 
int getRuCount (int iDcc0) const
 
int iEta2cIndex (int iEta) const
 
void initAsciiFile ()
 
int iPhi2cIndex (int iPhi) const
 
int iTtEta2cIndex (int iEta) const
 
int iTtPhi2cIndex (int iPhi) const
 
int iXY2cIndex (int iX) const
 
void printAvailableHists ()
 
void readAllCollections (const edm::Event &e)
 
bool registerHist (const std::string &name, const std::string &title)
 
void selectFedsForLog ()
 
void setTtEtSums (const edm::EventSetup &es, const EBDigiCollection &ebDigis, const EEDigiCollection &eeDigis)
 
void updateL1aRate (const edm::Event &event)
 
EcalTrigTowerDetId readOutUnitOf (const EBDetId &xtalId) const
 
EcalScDetId readOutUnitOf (const EEDetId &xtalId) const
 
MonitorElementbookFloat (DQMStore::IBooker &, const std::string &name)
 
MonitorElementbook1D (DQMStore::IBooker &, const std::string &name, const std::string &title, int nbins, double xmin, double xmax)
 
MonitorElementbook2D (DQMStore::IBooker &, const std::string &name, const std::string &title, int nxbins, double xmin, double xmax, int nybins, double ymin, double ymax)
 
MonitorElementbookProfile (DQMStore::IBooker &, const std::string &name, const std::string &title, int nbins, double xmin, double xmax)
 
MonitorElementbookProfile2D (DQMStore::IBooker &, const std::string &name, const std::string &title, int nbinx, double xmin, double xmax, int nbiny, double ymin, double ymax, const char *option="")
 
void fill (MonitorElement *me, float x)
 
void fill (MonitorElement *me, float x, float yw)
 
void fill (MonitorElement *me, float x, float y, float zw)
 
void fill (MonitorElement *me, float x, float y, float z, float w)
 
int ruGraphX (const EcalScDetId &id) const
 
int ruGraphY (const EcalScDetId &id) const
 
int ruGraphX (const EcalTrigTowerDetId &id) const
 
int ruGraphY (const EcalTrigTowerDetId &id) const
 
int xtalGraphX (const EEDetId &id) const
 
int xtalGraphY (const EEDetId &id) const
 
int xtalGraphX (const EBDetId &id) const
 
int xtalGraphY (const EBDetId &id) const
 
int dccId (const EcalScDetId &detId) const
 
int dccId (const EcalTrigTowerDetId &detId) const
 

Static Private Member Functions

static int dccZsFIR (const EcalDataFrame &frame, const std::vector< int > &firWeights, int firstFIRSample, bool *saturated=nullptr)
 
static std::vector< int > getFIRWeights (const std::vector< double > &normalizedWeights)
 

Private Attributes

bool allHists_
 
std::map< std::string, std::string > availableHistList_
 
bool collNotFoundWarn_
 Switch for collection-not-found warning. More...
 
int ebZsThr_
 
edm::ESGetToken< EcalElectronicsMapping, EcalMappingRcdecalmapping
 
int eeZsThr_
 
const EcalElectronicsMappingelecMap_
 
int firstFIRSample_
 
std::vector< int > firWeights_
 
edm::ESGetToken< CaloGeometry, CaloGeometryRecordgeoToken
 
std::string histDir_
 
std::set< std::string > histList_
 
edm::ESGetToken< EcalTrigTowerConstituentsMap, IdealGeometryRecordhTriggerTowerMap
 
int ievt_
 
bool isRuComplete_ [nDccs_][nDccChs_]
 
bool localReco_
 
std::vector< bool > logErrForDccs_
 
bool logSrApplicationErrors_
 
bool logSrpAlgoErrors_
 
edm::ESGetToken< EcalTPGLutGroup, EcalTPGLutGroupRcdlutGrpHandle
 
edm::ESGetToken< EcalTPGLutIdMap, EcalTPGLutIdMapRcdlutMapHandle
 
MonitorElementmeL1aRate_
 
int nCompleteZS_
 Counter of ZS-flagged RU fully read out. More...
 
int nDroppedFRO_
 Counter of FRO-flagged RU dropped from data. More...
 
int nEb_
 
int nEbFROCnt_
 Counter of EB FRO-flagged RUs. More...
 
int nEbHI_
 
int nEbLI_
 
int nEbZsErrors_
 Counter of EB ZS errors (LI channel below ZS threshold) More...
 
int nEbZsErrorsType1_
 
int nEe_
 
int nEeFROCnt_
 Counter of EE FRO-flagged RUs. More...
 
int nEeHI_
 
int nEeLI_
 
int nEeZsErrors_
 Counter of EE ZS errors (LI channel below ZS threshold) More...
 
int nEeZsErrorsType1_
 
int nHiPerDcc_ [nDccs_]
 
int nHiRuPerDcc_ [nDccs_]
 
int nIncompleteFRO_
 Counter of FRO-flagged RU only partial data. More...
 
int nLiPerDcc_ [nDccs_]
 
int nLiRuPerDcc_ [nDccs_]
 
int nPerDcc_ [nDccs_]
 
int nPerRu_ [nDccs_][nDccChs_]
 
int nRuPerDcc_ [nDccs_]
 
std::string outputFile_
 Output file for histograms. More...
 
edm::ESGetToken< EcalTPGPhysicsConst, EcalTPGPhysicsConstRcdphysHandle
 
bool SkipInnerSC_
 
std::ofstream srApplicationErrorLog_
 Output ascii file for unconsistency between Xtals and RU Flags. More...
 
std::string srApplicationErrorLogFileName_
 
std::ofstream srpAlgoErrorLog_
 Output ascii file for unconsistency on SR flags. More...
 
std::string srpAlgoErrorLogFileName_
 
bool tpInGeV_
 
const EcalTrigTowerConstituentsMaptriggerTowerMap_
 
double ttEtSums [nTtEta][nTtPhi]
 
bool useEventRate_
 
bool verbose_
 Verbosity switch. More...
 
std::vector< double > weights_
 
bool withEbSimHit_
 
bool withEeSimHit_
 
std::ofstream zsErrorLog_
 File to log ZS and other errors. More...
 
CollHandle< EBDigiCollectionebDigis_
 
CollHandle< EEDigiCollectioneeDigis_
 
CollHandle< EBDigiCollectionebNoZsDigis_
 
CollHandle< EEDigiCollectioneeNoZsDigis_
 
CollHandle< EBSrFlagCollectionebSrFlags_
 
CollHandle< EESrFlagCollectioneeSrFlags_
 
CollHandle< EBSrFlagCollectionebComputedSrFlags_
 
CollHandle< EESrFlagCollectioneeComputedSrFlags_
 
CollHandle< std::vector< PCaloHit > > ebSimHits_
 
CollHandle< std::vector< PCaloHit > > eeSimHits_
 
CollHandle< EcalTrigPrimDigiCollectiontps_
 
CollHandle< RecHitCollectionebRecHits_
 
CollHandle< RecHitCollectioneeRecHits_
 
CollHandle< FEDRawDataCollectionfedRaw_
 
int64_t tmax
 
int64_t tmin
 
int64_t l1aOfTmin
 
int64_t l1aOfTmax
 
bool l1aRateErr
 
MonitorElementmeDccVol_
 
MonitorElementmeDccLiVol_
 
MonitorElementmeDccHiVol_
 
MonitorElementmeDccVolFromData_
 
MonitorElementmeVol_
 
MonitorElementmeVolB_
 
MonitorElementmeVolE_
 
MonitorElementmeVolBLI_
 
MonitorElementmeVolELI_
 
MonitorElementmeVolLI_
 
MonitorElementmeVolBHI_
 
MonitorElementmeVolEHI_
 
MonitorElementmeVolHI_
 
MonitorElementmeChOcc_
 
MonitorElementmeTp_
 
MonitorElementmeTtf_
 
MonitorElementmeTtfVsTp_
 
MonitorElementmeTtfVsEtSum_
 
MonitorElementmeTpVsEtSum_
 
MonitorElementmeEbRecE_
 
MonitorElementmeEbEMean_
 
MonitorElementmeEbNoise_
 
MonitorElementmeEbSimE_
 
MonitorElementmeEbRecEHitXtal_
 
MonitorElementmeEbRecVsSimE_
 
MonitorElementmeEbNoZsRecVsSimE_
 
MonitorElementmeEeRecE_
 
MonitorElementmeEeEMean_
 
MonitorElementmeEeNoise_
 
MonitorElementmeEeSimE_
 
MonitorElementmeEeRecEHitXtal_
 
MonitorElementmeEeRecVsSimE_
 
MonitorElementmeEeNoZsRecVsSimE_
 
MonitorElementmeFullRoRu_
 
MonitorElementmeZs1Ru_
 
MonitorElementmeForcedRu_
 
MonitorElementmeLiTtf_
 
MonitorElementmeMiTtf_
 
MonitorElementmeHiTtf_
 
MonitorElementmeForcedTtf_
 
MonitorElementmeTpMap_
 
MonitorElementmeFullRoCnt_
 
MonitorElementmeEbFullRoCnt_
 
MonitorElementmeEeFullRoCnt_
 
MonitorElementmeEbLiZsFir_
 
MonitorElementmeEbHiZsFir_
 
MonitorElementmeEbIncompleteRUZsFir_
 
MonitorElementmeEeLiZsFir_
 
MonitorElementmeEeHiZsFir_
 
MonitorElementmeSRFlagsFromData_
 
MonitorElementmeSRFlagsComputed_
 
MonitorElementmeSRFlagsConsistency_
 
MonitorElementmeIncompleteFRO_
 
MonitorElementmeDroppedFRO_
 
MonitorElementmeCompleteZS_
 
MonitorElementmeIncompleteFROMap_
 
MonitorElementmeDroppedFROMap_
 
MonitorElementmeCompleteZSMap_
 
MonitorElementmeIncompleteFRORateMap_
 
MonitorElementmeDroppedFRORateMap_
 
MonitorElementmeCompleteZSRateMap_
 
MonitorElementmeIncompleteFROCnt_
 
MonitorElementmeDroppedFROCnt_
 
MonitorElementmeCompleteZSCnt_
 
MonitorElementmeEbZsErrCnt_
 
MonitorElementmeEeZsErrCnt_
 
MonitorElementmeZsErrCnt_
 
MonitorElementmeEbZsErrType1Cnt_
 
MonitorElementmeEeZsErrType1Cnt_
 
MonitorElementmeZsErrType1Cnt_
 
MonitorElementmeEbFixedPayload_
 
MonitorElementmeEeFixedPayload_
 
MonitorElementmeFixedPayload_
 
bool ebRuActive_ [nEbEta/ebTtEdge][nEbPhi/ebTtEdge]
 
bool eeRuActive_ [nEndcaps][nEeX/scEdge][nEeY/scEdge]
 

Static Private Attributes

static const int ebTtEdge = 5
 Number of crystals along an EB TT. More...
 
static const int kByte_ = 1024
 number of bytes in 1 kByte: More...
 
static const int maxDccId_ = minDccId_ + nDccs_ - 1
 
static const int minDccId_ = 1
 
static const unsigned nDccChs_ = 68
 Number of input channels of a DCC. More...
 
static const int nDccRus_ [nDccs_]
 number of RUs for each DCC More...
 
static const unsigned nDccs_ = 54
 Total number of DCCs. More...
 
static const int nEbDccs = 36
 number of DCCs for EB More...
 
static const int nEbEta = 170
 number of crystals along Eta in EB More...
 
static const int nEbPhi = 360
 number of crystals along Phi in EB More...
 
static const int nEbRus = 36 * 68
 number of RUs for EB More...
 
static const int nEbTtEta = 34
 Number of Trigger Towers in barrel along Eta. More...
 
static const int nEeDccs = 18
 number of DCCs for EE More...
 
static const int nEeRus = 2 * (34 + 32 + 33 + 33 + 32 + 34 + 33 + 34 + 33)
 number of RUs for EE More...
 
static const int nEeX = 100
 EE crystal grid size along X. More...
 
static const int nEeY = 100
 EE crystal grid size along Y. More...
 
static const int nEndcaps = 2
 number of endcaps More...
 
static const int nMaxXtalPerRu = 25
 Number of crystals per Readout Unit excepted partial SCs. More...
 
static const int nOneEeTtEta = 11
 Number of Trigger Towers in an endcap along Eta. More...
 
static const int nTtEta = 2 * nOneEeTtEta + nEbTtEta
 Number of Trigger Towers along Eta. More...
 
static const int nTtPhi = 72
 Number of Trigger Towers along Phi. More...
 
static const double rad2deg = 45. / atan(1.)
 Conversion factor from radian to degree. More...
 
static const int scEdge = 5
 Number of crystals along a supercrystal edge. More...
 

Additional Inherited Members

- Public Types inherited from DQMOneEDAnalyzer<>
typedef dqm::reco::DQMStore DQMStore
 
typedef dqm::reco::MonitorElement MonitorElement
 
- Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase ModuleType
 
- Public Types inherited from edm::ProducerBase
template<typename T >
using BranchAliasSetterT = ProductRegistryHelper::BranchAliasSetterT< T >
 
using ModuleToResolverIndicies = std::unordered_multimap< std::string, std::tuple< edm::TypeID const *, const char *, edm::ProductResolverIndex > >
 
typedef ProductRegistryHelper::TypeLabelList TypeLabelList
 
- Public Types inherited from edm::EDConsumerBase
typedef ProductLabels Labels
 
- Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string & baseType ()
 
static void fillDescriptions (ConfigurationDescriptions &descriptions)
 
static void prevalidate (ConfigurationDescriptions &descriptions)
 
- Protected Attributes inherited from DQMOneEDAnalyzer<>
edm::EDPutTokenT< DQMTokenrunToken_
 

Detailed Description

Definition at line 46 of file EcalSelectiveReadoutValidation.h.

Member Typedef Documentation

◆ RecHit

Definition at line 48 of file EcalSelectiveReadoutValidation.h.

◆ RecHitCollection

Definition at line 47 of file EcalSelectiveReadoutValidation.h.

Member Enumeration Documentation

◆ subdet_t

distinguishes barral and endcap of ECAL.

Enumerator
EB 
EE 

Definition at line 67 of file EcalSelectiveReadoutValidation.h.

Constructor & Destructor Documentation

◆ EcalSelectiveReadoutValidation()

EcalSelectiveReadoutValidation::EcalSelectiveReadoutValidation ( const edm::ParameterSet ps)

Constructor.

Definition at line 98 of file EcalSelectiveReadoutValidation.cc.

References allHists_, edm::BeginRun, configFirWeights(), edm::EDConsumerBase::consumesCollector(), ebComputedSrFlags_, ebDigis_, ebNoZsDigis_, ebRecHits_, ebSimHits_, ebSrFlags_, ebZsThr_, eeComputedSrFlags_, eeDigis_, eeNoZsDigis_, eeRecHits_, eeSimHits_, eeSrFlags_, eeZsThr_, fedRaw_, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), histList_, compare::hists, logSrApplicationErrors_, logSrpAlgoErrors_, outputFile_, CollHandle< T >::setToken(), srApplicationErrorLogFileName_, srpAlgoErrorLogFileName_, tps_, and verbose_.

99  : geoToken(esConsumes()),
100  ecalmapping(esConsumes<edm::Transition::BeginRun>()),
101  hTriggerTowerMap(esConsumes<edm::Transition::BeginRun>()),
105  collNotFoundWarn_(ps.getUntrackedParameter<bool>("warnIfCollectionNotFound", true)),
106  ebDigis_(ps.getParameter<edm::InputTag>("EbDigiCollection"), false, collNotFoundWarn_),
107  eeDigis_(ps.getParameter<edm::InputTag>("EeDigiCollection"), false, collNotFoundWarn_),
108  ebNoZsDigis_(ps.getParameter<edm::InputTag>("EbUnsuppressedDigiCollection"), false, false /*collNotFoundWarn_*/),
109  eeNoZsDigis_(ps.getParameter<edm::InputTag>("EeUnsuppressedDigiCollection"), false, false /*collNotFoundWarn_*/),
110  ebSrFlags_(ps.getParameter<edm::InputTag>("EbSrFlagCollection"), false, collNotFoundWarn_),
111  eeSrFlags_(ps.getParameter<edm::InputTag>("EeSrFlagCollection"), false, collNotFoundWarn_),
113  ps.getParameter<edm::InputTag>("EbSrFlagFromTTCollection"), false, false /*collNotFoundWarn_*/),
115  ps.getParameter<edm::InputTag>("EeSrFlagFromTTCollection"), false, false /*collNotFoundWarn_*/),
116  ebSimHits_(ps.getParameter<edm::InputTag>("EbSimHitCollection"), false, false /*collNotFoundWarn_*/),
117  eeSimHits_(ps.getParameter<edm::InputTag>("EeSimHitCollection"), false, false /*collNotFoundWarn_*/),
118  tps_(ps.getParameter<edm::InputTag>("TrigPrimCollection"), false, collNotFoundWarn_),
119  ebRecHits_(ps.getParameter<edm::InputTag>("EbRecHitCollection"), false, false /*collNotFoundWarn_*/),
120  eeRecHits_(ps.getParameter<edm::InputTag>("EeRecHitCollection"), false, false /*collNotFoundWarn_*/),
121  fedRaw_(ps.getParameter<edm::InputTag>("FEDRawCollection"), false, false /*collNotFoundWarn_*/),
122  tmax(0),
124  l1aOfTmin(0),
125  l1aOfTmax(0),
126  triggerTowerMap_(nullptr),
127  localReco_(ps.getParameter<bool>("LocalReco")),
128  weights_(ps.getParameter<vector<double>>("weights")),
129  tpInGeV_(ps.getParameter<bool>("tpInGeV")),
130  firstFIRSample_(ps.getParameter<int>("ecalDccZs1stSample")),
131  useEventRate_(ps.getParameter<bool>("useEventRate")),
132  logErrForDccs_(nDccs_, false),
133  ievt_(0),
134  allHists_(false),
135  histDir_(ps.getParameter<string>("histDir")),
136  withEeSimHit_(false),
137  withEbSimHit_(false) {
139  ebDigis_.setToken(collector);
140  eeDigis_.setToken(collector);
141  ebNoZsDigis_.setToken(collector);
142  eeNoZsDigis_.setToken(collector);
143  ebSrFlags_.setToken(collector);
144  eeSrFlags_.setToken(collector);
145  ebComputedSrFlags_.setToken(collector);
146  eeComputedSrFlags_.setToken(collector);
147  ebSimHits_.setToken(collector);
148  eeSimHits_.setToken(collector);
149  tps_.setToken(collector);
150  ebRecHits_.setToken(collector);
151  eeRecHits_.setToken(collector);
152  fedRaw_.setToken(collector);
153 
154  double ebZsThr = ps.getParameter<double>("ebZsThrADCCount");
155  double eeZsThr = ps.getParameter<double>("eeZsThrADCCount");
156 
157  ebZsThr_ = lround(ebZsThr * 4);
158  eeZsThr_ = lround(eeZsThr * 4);
159 
160  //File to log SRP algorithem inconsistency
161  srpAlgoErrorLogFileName_ = ps.getUntrackedParameter<string>("srpAlgoErrorLogFile", "");
163 
164  //File to log SRP decision application inconsistency
165  srApplicationErrorLogFileName_ = ps.getUntrackedParameter<string>("srApplicationErrorLogFile", "");
167 
168  //FIR ZS weights
169  configFirWeights(ps.getParameter<vector<double>>("dccWeights"));
170 
171  // DQM ROOT output
172  outputFile_ = ps.getUntrackedParameter<string>("outputFile", "");
173 
174  if (!outputFile_.empty()) {
175  LogInfo("OutputInfo") << " Ecal Digi Task histograms will be saved to '" << outputFile_.c_str() << "'";
176  } else {
177  LogInfo("OutputInfo") << " Ecal Digi Task histograms will NOT be saved";
178  }
179 
180  // verbosity switch
181  verbose_ = ps.getUntrackedParameter<bool>("verbose", false);
182 
183  // get hold of back-end interface
184 
185  vector<string> hists(ps.getUntrackedParameter<vector<string>>("histograms", vector<string>(1, "all")));
186 
187  for (vector<string>::iterator it = hists.begin(); it != hists.end(); ++it)
188  histList_.insert(*it);
189  if (histList_.find("all") != histList_.end())
190  allHists_ = true;
191 }
void configFirWeights(const std::vector< double > &weightsForZsFIR)
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
CollHandle< EBDigiCollection > ebNoZsDigis_
CollHandle< EcalTrigPrimDigiCollection > tps_
bool collNotFoundWarn_
Switch for collection-not-found warning.
edm::ESGetToken< EcalTPGLutIdMap, EcalTPGLutIdMapRcd > lutMapHandle
CollHandle< FEDRawDataCollection > fedRaw_
T getUntrackedParameter(std::string const &, T const &) const
edm::ESGetToken< EcalTrigTowerConstituentsMap, IdealGeometryRecord > hTriggerTowerMap
CollHandle< EESrFlagCollection > eeComputedSrFlags_
CollHandle< EEDigiCollection > eeDigis_
std::string outputFile_
Output file for histograms.
CollHandle< RecHitCollection > eeRecHits_
ConsumesCollector consumesCollector()
Use a ConsumesCollector to gather consumes information from helper functions.
edm::ESGetToken< EcalTPGLutGroup, EcalTPGLutGroupRcd > lutGrpHandle
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geoToken
CollHandle< EBSrFlagCollection > ebSrFlags_
edm::ESGetToken< EcalTPGPhysicsConst, EcalTPGPhysicsConstRcd > physHandle
CollHandle< std::vector< PCaloHit > > eeSimHits_
CollHandle< EESrFlagCollection > eeSrFlags_
Log< level::Info, false > LogInfo
CollHandle< std::vector< PCaloHit > > ebSimHits_
edm::ESGetToken< EcalElectronicsMapping, EcalMappingRcd > ecalmapping
CollHandle< EEDigiCollection > eeNoZsDigis_
void setToken(edm::ConsumesCollector &collector)
Definition: CollHandle.h:48
CollHandle< EBDigiCollection > ebDigis_
static const unsigned nDccs_
Total number of DCCs.
const EcalTrigTowerConstituentsMap * triggerTowerMap_
CollHandle< RecHitCollection > ebRecHits_
CollHandle< EBSrFlagCollection > ebComputedSrFlags_

◆ ~EcalSelectiveReadoutValidation()

EcalSelectiveReadoutValidation::~EcalSelectiveReadoutValidation ( )
override

Destructor.

Definition at line 844 of file EcalSelectiveReadoutValidation.cc.

844 {}

Member Function Documentation

◆ anaDigi()

template<class T , class U >
void EcalSelectiveReadoutValidation::anaDigi ( const T frame,
const U &  srFlagColl 
)
private

Accumulates statitics for data volume analysis. To be called for each ECAL digi. See anaDigiInit().

Definition at line 1662 of file EcalSelectiveReadoutValidation.cc.

References Reference_intrackfit_cff::barrel, dccCh(), ebRuActive_, ebTtEdge, EcalBarrel, eeRuActive_, Exception, RemoveAddSevLevel::flag, LEDCalibrationChannels::ieta, iEta2cIndex(), LEDCalibrationChannels::iphi, iPhi2cIndex(), iXY2cIndex(), minDccId_, nEb_, nEbHI_, nEbLI_, nEe_, nEeHI_, nEeLI_, nHiPerDcc_, nHiRuPerDcc_, nLiPerDcc_, nLiRuPerDcc_, nPerDcc_, nPerRu_, nRuPerDcc_, DetId::rawId(), readOutUnitOf(), scEdge, EcalSrFlag::SRF_FULL, DetId::subdetId(), and ecaldqm::zside().

Referenced by analyzeDataVolume().

1662  {
1663  const DetId& xtalId = frame.id();
1664  typedef typename U::key_type RuDetId;
1665  const RuDetId& ruId = readOutUnitOf(frame.id());
1666  typename U::const_iterator srf = srFlagColl.find(ruId);
1667 
1668  bool highInterest = false;
1669  int flag = 0;
1670 
1671  if (srf != srFlagColl.end()) {
1672  flag = srf->value() & ~EcalSrFlag::SRF_FORCED_MASK;
1673 
1674  highInterest = (flag == EcalSrFlag::SRF_FULL);
1675  }
1676 
1677  bool barrel = (xtalId.subdetId() == EcalBarrel);
1678 
1679  pair<int, int> ch = dccCh(xtalId);
1680 
1681  if (barrel) {
1682  ++nEb_;
1683  if (highInterest) {
1684  ++nEbHI_;
1685  } else { //low interest
1686  ++nEbLI_;
1687  }
1688  int iEta0 = iEta2cIndex(static_cast<const EBDetId&>(xtalId).ieta());
1689  int iPhi0 = iPhi2cIndex(static_cast<const EBDetId&>(xtalId).iphi());
1690  if (!ebRuActive_[iEta0 / ebTtEdge][iPhi0 / ebTtEdge]) {
1691  ++nRuPerDcc_[ch.first - minDccId_];
1692  if (highInterest) {
1693  ++nHiRuPerDcc_[ch.first - minDccId_];
1694  } else {
1695  ++nLiRuPerDcc_[ch.first - minDccId_];
1696  }
1697 
1698  ebRuActive_[iEta0 / ebTtEdge][iPhi0 / ebTtEdge] = true;
1699  }
1700  } else { //endcap
1701  ++nEe_;
1702  if (highInterest) {
1703  ++nEeHI_;
1704  } else { //low interest
1705  ++nEeLI_;
1706  }
1707  int iX0 = iXY2cIndex(static_cast<const EEDetId&>(frame.id()).ix());
1708  int iY0 = iXY2cIndex(static_cast<const EEDetId&>(frame.id()).iy());
1709  int iZ0 = static_cast<const EEDetId&>(frame.id()).zside() > 0 ? 1 : 0;
1710 
1711  if (!eeRuActive_[iZ0][iX0 / scEdge][iY0 / scEdge]) {
1712  ++nRuPerDcc_[ch.first - minDccId_];
1713  if (highInterest) {
1714  ++nHiRuPerDcc_[ch.first - minDccId_];
1715  } else {
1716  ++nLiRuPerDcc_[ch.first - minDccId_];
1717  }
1718 
1719  eeRuActive_[iZ0][iX0 / scEdge][iY0 / scEdge] = true;
1720  }
1721  }
1722 
1723  if (ch.second < 1 || ch.second > 68) {
1724  throw cms::Exception("EcalSelectiveReadoutValidation")
1725  << "Error in DCC channel retrieval for crystal with detId " << xtalId.rawId()
1726  << "DCC channel out of allowed range [1..68]\n";
1727  }
1728  ++nPerDcc_[ch.first - minDccId_];
1729  ++nPerRu_[ch.first - minDccId_][ch.second - 1];
1730  if (highInterest) {
1731  ++nHiPerDcc_[ch.first - minDccId_];
1732  } else { //low interest channel
1733  ++nLiPerDcc_[ch.first - minDccId_];
1734  }
1735 }
EcalTrigTowerDetId readOutUnitOf(const EBDetId &xtalId) const
std::pair< int, int > dccCh(const DetId &xtalId) const
int zside(DetId const &)
static const int SRF_FULL
Definition: EcalSrFlag.h:24
constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:48
static const int scEdge
Number of crystals along a supercrystal edge.
Definition: DetId.h:17
static const int ebTtEdge
Number of crystals along an EB TT.
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
bool ebRuActive_[nEbEta/ebTtEdge][nEbPhi/ebTtEdge]
bool eeRuActive_[nEndcaps][nEeX/scEdge][nEeY/scEdge]

◆ anaDigiInit()

void EcalSelectiveReadoutValidation::anaDigiInit ( )
private

Initializes statistics accumalator for data volume analysis. To be call at start of each event analysis.

Definition at line 1737 of file EcalSelectiveReadoutValidation.cc.

References ebRuActive_, eeRuActive_, nEb_, nEbHI_, nEbLI_, nEe_, nEeHI_, nEeLI_, nHiPerDcc_, nHiRuPerDcc_, nLiPerDcc_, nLiRuPerDcc_, nPerDcc_, nPerRu_, and nRuPerDcc_.

Referenced by analyzeDataVolume().

1737  {
1738  nEb_ = 0;
1739  nEe_ = 0;
1740  nEeLI_ = 0;
1741  nEeHI_ = 0;
1742  nEbLI_ = 0;
1743  nEbHI_ = 0;
1744  bzero(nPerDcc_, sizeof(nPerDcc_));
1745  bzero(nLiPerDcc_, sizeof(nLiPerDcc_));
1746  bzero(nHiPerDcc_, sizeof(nHiPerDcc_));
1747  bzero(nRuPerDcc_, sizeof(nRuPerDcc_));
1748  bzero(ebRuActive_, sizeof(ebRuActive_));
1749  bzero(eeRuActive_, sizeof(eeRuActive_));
1750  bzero(nPerRu_, sizeof(nPerRu_));
1751  bzero(nLiRuPerDcc_, sizeof(nLiRuPerDcc_));
1752  bzero(nHiRuPerDcc_, sizeof(nHiRuPerDcc_));
1753 }
bool ebRuActive_[nEbEta/ebTtEdge][nEbPhi/ebTtEdge]
bool eeRuActive_[nEndcaps][nEeX/scEdge][nEeY/scEdge]

◆ analyze()

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

Analyzes the event.

Reimplemented from DQMOneEDAnalyzer<>.

Definition at line 218 of file EcalSelectiveReadoutValidation.cc.

References analyzeDataVolume(), analyzeEB(), analyzeEE(), analyzeTP(), checkSrApplication(), compareSrfColl(), ebComputedSrFlags_, ebNoZsDigis_, ebSimHits_, ebSrFlags_, eeComputedSrFlags_, eeNoZsDigis_, eeSimHits_, eeSrFlags_, fill(), ievt_, meCompleteZSCnt_, meDroppedFROCnt_, meEbFullRoCnt_, meEbZsErrCnt_, meEbZsErrType1Cnt_, meEeFullRoCnt_, meEeZsErrCnt_, meEeZsErrType1Cnt_, meFullRoCnt_, meIncompleteFROCnt_, meZsErrCnt_, meZsErrType1Cnt_, nCompleteZS_, nDroppedFRO_, nEbFROCnt_, nEbZsErrors_, nEbZsErrorsType1_, nEeFROCnt_, nEeZsErrors_, nEeZsErrorsType1_, nIncompleteFRO_, readAllCollections(), selectFedsForLog(), setTtEtSums(), tps_, updateL1aRate(), withEbSimHit_, and withEeSimHit_.

218  {
220 
221  //retrieves event products:
223 
224  withEeSimHit_ = (!eeSimHits_->empty());
225  withEbSimHit_ = (!ebSimHits_->empty());
226 
227  if (ievt_ < 10) {
228  edm::LogInfo("EcalSrValid") << "Size of TP collection: " << tps_->size() << std::endl
229  << "Size of EB SRF collection read from data: " << ebSrFlags_->size() << std::endl
230  << "Size of EB SRF collection computed from data TTFs: " << ebComputedSrFlags_->size()
231  << std::endl
232  << "Size of EE SRF collection read from data: " << eeSrFlags_->size() << std::endl
233  << "Size of EE SRF collection computed from data TTFs: " << eeComputedSrFlags_->size()
234  << std::endl;
235  }
236 
237  if (ievt_ == 0) {
238  selectFedsForLog(); //note: must be called after readAllCollection
239  }
240 
241  //computes Et sum trigger tower crystals:
243 
244  //Data Volume
246 
247  //EB digis
248  //must be called after analyzeDataVolume because it uses
249  //isRuComplete_ array that this method fills
250  analyzeEB(event, es);
251 
252  //EE digis
253  //must be called after analyzeDataVolume because it uses
254  //isRuComplete_ array that this method fills
255  analyzeEE(event, es);
256 
260 
264 
268 
269  //TP
270  analyzeTP(event, es);
271 
272  if (!ebComputedSrFlags_->empty()) {
274  }
275  if (!eeComputedSrFlags_->empty()) {
277  }
278  nDroppedFRO_ = 0;
279  nIncompleteFRO_ = 0;
280  nCompleteZS_ = 0;
286  ++ievt_;
287 }
CollHandle< EBDigiCollection > ebNoZsDigis_
int nIncompleteFRO_
Counter of FRO-flagged RU only partial data.
CollHandle< EcalTrigPrimDigiCollection > tps_
void analyzeEB(const edm::Event &event, const edm::EventSetup &es)
int nEeZsErrors_
Counter of EE ZS errors (LI channel below ZS threshold)
void analyzeEE(const edm::Event &event, const edm::EventSetup &es)
void setTtEtSums(const edm::EventSetup &es, const EBDigiCollection &ebDigis, const EEDigiCollection &eeDigis)
CollHandle< EESrFlagCollection > eeComputedSrFlags_
void checkSrApplication(const edm::Event &event, T &srfs)
void analyzeDataVolume(const edm::Event &e, const edm::EventSetup &es)
CollHandle< EBSrFlagCollection > ebSrFlags_
void updateL1aRate(const edm::Event &event)
int nCompleteZS_
Counter of ZS-flagged RU fully read out.
CollHandle< std::vector< PCaloHit > > eeSimHits_
int nEeFROCnt_
Counter of EE FRO-flagged RUs.
CollHandle< EESrFlagCollection > eeSrFlags_
int nEbFROCnt_
Counter of EB FRO-flagged RUs.
Log< level::Info, false > LogInfo
CollHandle< std::vector< PCaloHit > > ebSimHits_
int nEbZsErrors_
Counter of EB ZS errors (LI channel below ZS threshold)
CollHandle< EEDigiCollection > eeNoZsDigis_
int nDroppedFRO_
Counter of FRO-flagged RU dropped from data.
void fill(MonitorElement *me, float x)
void compareSrfColl(const edm::Event &event, T &srfFromData, T &computedSrf)
void analyzeTP(const edm::Event &event, const edm::EventSetup &es)
Definition: event.py:1
CollHandle< EBSrFlagCollection > ebComputedSrFlags_

◆ analyzeDataVolume()

void EcalSelectiveReadoutValidation::analyzeDataVolume ( const edm::Event e,
const edm::EventSetup es 
)
private

Data volume analysis. To be called for each event.

Parameters
eventEDM event
esevent setup

Definition at line 1608 of file EcalSelectiveReadoutValidation.cc.

References a, anaDigi(), anaDigiInit(), b, ebDigis_, ebSrFlags_, eeDigis_, eeSrFlags_, FEDRawDataCollection::FEDData(), fedRaw_, fill(), getBytesPerCrystal(), getCrystalCount(), getDccEventSize(), getDccSrDependentPayload(), getEbEventSize(), getEeEventSize(), isRuComplete_, kByte_, maxDccId_, meDccHiVol_, meDccLiVol_, meDccVol_, meDccVolFromData_, meVol_, meVolB_, meVolBHI_, meVolBLI_, meVolE_, meVolEHI_, meVolELI_, meVolHI_, meVolLI_, minDccId_, nDccRus_, nDccs_, nEb_, nEbHI_, nEbLI_, nEe_, nEeHI_, nEeLI_, nHiPerDcc_, nHiRuPerDcc_, nLiPerDcc_, nLiRuPerDcc_, nPerDcc_, nPerRu_, FEDRawData::size(), and edm::DataFrameContainer::size().

Referenced by analyze().

1608  {
1609  anaDigiInit();
1610 
1611  //Complete RU, i.e. RU actually fully readout
1612  for (int iDcc = minDccId_; iDcc <= maxDccId_; ++iDcc) {
1613  for (int iCh = 1; iCh < nDccRus_[iDcc - minDccId_]; ++iCh) {
1614  isRuComplete_[iDcc - minDccId_][iCh - 1] = (nPerRu_[iDcc - minDccId_][iCh - 1] == getCrystalCount(iDcc, iCh));
1615  }
1616  }
1617 
1618  //Barrel
1619  for (unsigned int digis = 0; digis < ebDigis_->size(); ++digis) {
1620  EBDataFrame ebdf = (*ebDigis_)[digis];
1621  anaDigi(ebdf, *ebSrFlags_);
1622  }
1623 
1624  // Endcap
1625  for (unsigned int digis = 0; digis < eeDigis_->size(); ++digis) {
1626  EEDataFrame eedf = (*eeDigis_)[digis];
1627  anaDigi(eedf, *eeSrFlags_);
1628  }
1629 
1630  //histos
1631  for (unsigned iDcc0 = 0; iDcc0 < nDccs_; ++iDcc0) {
1632  fill(meDccVol_, iDcc0 + 1, getDccEventSize(iDcc0, nPerDcc_[iDcc0]) / kByte_);
1633  fill(meDccLiVol_, iDcc0 + 1, getDccSrDependentPayload(iDcc0, nLiRuPerDcc_[iDcc0], nLiPerDcc_[iDcc0]) / kByte_);
1634  fill(meDccHiVol_, iDcc0 + 1, getDccSrDependentPayload(iDcc0, nHiRuPerDcc_[iDcc0], nHiPerDcc_[iDcc0]) / kByte_);
1635  const FEDRawDataCollection& raw = *fedRaw_;
1636  fill(meDccVolFromData_, iDcc0 + 1, ((double)raw.FEDData(601 + iDcc0).size()) / kByte_);
1637  }
1638 
1639  //low interesest channels:
1640  double a = nEbLI_ * getBytesPerCrystal() / kByte_; //getEbEventSize(nEbLI_)/kByte_;
1641  fill(meVolBLI_, a);
1642  double b = nEeLI_ * getBytesPerCrystal() / kByte_; //getEeEventSize(nEeLI_)/kByte_;
1643  fill(meVolELI_, b);
1644  fill(meVolLI_, a + b);
1645 
1646  //high interest chanels:
1647  a = nEbHI_ * getBytesPerCrystal() / kByte_; //getEbEventSize(nEbHI_)/kByte_;
1648  fill(meVolBHI_, a);
1649  b = nEeHI_ * getBytesPerCrystal() / kByte_; //getEeEventSize(nEeHI_)/kByte_;
1650  fill(meVolEHI_, b);
1651  fill(meVolHI_, a + b);
1652 
1653  //any-interest channels:
1654  a = getEbEventSize(nEb_) / kByte_;
1655  fill(meVolB_, a);
1656  b = getEeEventSize(nEe_) / kByte_;
1657  fill(meVolE_, b);
1658  fill(meVol_, a + b);
1659 }
double getDccSrDependentPayload(int iDcc0, double nReadRus, double nReadXtals) const
size_t size() const
Lenght of the data buffer in bytes.
Definition: FEDRawData.h:45
CollHandle< FEDRawDataCollection > fedRaw_
CollHandle< EEDigiCollection > eeDigis_
double getDccEventSize(int iDcc0, double nReadXtals) const
CollHandle< EBSrFlagCollection > ebSrFlags_
void anaDigi(const T &frame, const U &srFlagColl)
const FEDRawData & FEDData(int fedid) const
retrieve data for fed
CollHandle< EESrFlagCollection > eeSrFlags_
static const int nDccRus_[nDccs_]
number of RUs for each DCC
double getEbEventSize(double nReadXtals) const
static const int kByte_
number of bytes in 1 kByte:
double b
Definition: hdecay.h:118
double a
Definition: hdecay.h:119
void fill(MonitorElement *me, float x)
CollHandle< EBDigiCollection > ebDigis_
double getEeEventSize(double nReadXtals) const
static const unsigned nDccs_
Total number of DCCs.

◆ analyzeEB()

void EcalSelectiveReadoutValidation::analyzeEB ( const edm::Event event,
const edm::EventSetup es 
)
private

ECAL barrel data analysis. To be called for each event.

Parameters
eventEDM event
esevent setup

Energy deposited in ECAL barrel crystals. Eta index starts from 0 at eta minimum and phi index starts at phi=0+ in CMS std coordinate system.

Definition at line 563 of file EcalSelectiveReadoutValidation.cc.

References cms::cuda::assert(), edm::DataFrameContainer::begin(), gather_cfg::cout, dccCh(), dccZsFIR(), ebDigis_, ebNoZsDigis_, ebRecHits_, ebSimHits_, ebSrFlags_, ebZsThr_, DetId::Ecal, EcalBarrel, edm::DataFrameContainer::end(), PV3DBase< T, PVType, FrameType >::eta(), Exception, fill(), first, firstFIRSample_, firWeights_, RemoveAddSevLevel::flag, frame2Energy(), ecalLiteDTU::gainId(), geoToken, CaloSubdetectorGeometry::getGeometry(), edm::EventSetup::getHandle(), mps_fire::i, EBSrFlag::id(), hit::id, EcalTrigTowerDetId::ieta(), l1tTowerCalibrationProducer_cfi::iEta, LEDCalibrationChannels::ieta, iEta2cIndex(), EcalTrigTowerDetId::ietaAbs(), ievt_, EcalTrigTowerDetId::iphi(), LEDCalibrationChannels::iphi, iPhi2cIndex(), isRuComplete_, localReco_, SiStripPI::max, meChOcc_, meEbEMean_, meEbHiZsFir_, meEbLiZsFir_, meEbNoise_, meEbNoZsRecVsSimE_, meEbRecE_, meEbRecEHitXtal_, meEbRecVsSimE_, meEbSimE_, meForcedRu_, meFullRoRu_, meZs1Ru_, nEbEta, nEbFROCnt_, nEbPhi, nEbZsErrors_, nEbZsErrorsType1_, EcalSelectiveReadoutValidation::energiesEb_t::noZsRecE, PV3DBase< T, PVType, FrameType >::phi(), rad2deg, readOutUnitOf(), EcalSelectiveReadoutValidation::energiesEb_t::recE, alignCSCRings::s, edm::second(), EcalSelectiveReadoutValidation::energiesEb_t::simE, rpcPointValidation_cfi::simHit, EcalSelectiveReadoutValidation::energiesEb_t::simHit, srApplicationErrorLog_, EcalSrFlag::SRF_FORCED_MASK, EcalSrFlag::SRF_FULL, EcalSrFlag::SRF_ZS1, findQualityFiles::v, EcalSrFlag::value(), withEbSimHit_, x, xtalGraphX(), xtalGraphY(), y, and EcalTrigTowerDetId::zside().

Referenced by analyze().

563  {
564  bool eventError = false;
565  nEbZsErrors_ = 0;
566  nEbZsErrorsType1_ = 0;
567  vector<pair<int, int>> xtalEtaPhi;
568 
569  xtalEtaPhi.reserve(nEbPhi * nEbEta);
570 
574  std::unique_ptr<std::array<std::array<energiesEb_t, nEbPhi>, nEbEta>> ebEnergies =
575  std::make_unique<std::array<std::array<energiesEb_t, nEbPhi>, nEbEta>>();
576 
577  for (int iEta0 = 0; iEta0 < nEbEta; ++iEta0) {
578  for (int iPhi0 = 0; iPhi0 < nEbPhi; ++iPhi0) {
579  (*ebEnergies)[iEta0][iPhi0].noZsRecE = -numeric_limits<double>::max();
580  (*ebEnergies)[iEta0][iPhi0].recE = -numeric_limits<double>::max();
581  (*ebEnergies)[iEta0][iPhi0].simE = 0; //must be zero.
582  (*ebEnergies)[iEta0][iPhi0].simHit = 0;
583  (*ebEnergies)[iEta0][iPhi0].gain12 = false;
584  xtalEtaPhi.push_back(pair<int, int>(iEta0, iPhi0));
585  }
586  }
587 
588  // get the barrel geometry:
589  auto geoHandle = es.getHandle(geoToken);
590  const CaloSubdetectorGeometry* geometry_p = (*geoHandle).getSubdetectorGeometry(DetId::Ecal, EcalBarrel);
591  //CaloSubdetectorGeometry const& geometry = *geometry_p;
592 
593  //EB unsuppressed digis:
594  for (EBDigiCollection::const_iterator it = ebNoZsDigis_->begin(); it != ebNoZsDigis_->end(); ++it) {
595  const EBDataFrame& frame = *it;
596  int iEta0 = iEta2cIndex(static_cast<const EBDetId&>(frame.id()).ieta());
597  int iPhi0 = iPhi2cIndex(static_cast<const EBDetId&>(frame.id()).iphi());
598  if (iEta0 < 0 || iEta0 >= nEbEta) {
599  stringstream s;
600  s << "EcalSelectiveReadoutValidation: "
601  << "iEta0 (= " << iEta0 << ") is out of range ("
602  << "[0," << nEbEta - 1 << "]\n";
603  throw cms::Exception(s.str());
604  }
605  if (iPhi0 < 0 || iPhi0 >= nEbPhi) {
606  stringstream s;
607  s << "EcalSelectiveReadoutValidation: "
608  << "iPhi0 (= " << iPhi0 << ") is out of range ("
609  << "[0," << nEbPhi - 1 << "]\n";
610  throw cms::Exception(s.str());
611  }
612 
613  (*ebEnergies)[iEta0][iPhi0].noZsRecE = frame2Energy(frame);
614  (*ebEnergies)[iEta0][iPhi0].gain12 = true;
615  for (int i = 0; i < frame.size(); ++i) {
616  const int gain12Code = 0x1;
617  if (frame[i].gainId() != gain12Code)
618  (*ebEnergies)[iEta0][iPhi0].gain12 = false;
619  }
620 
621  const GlobalPoint xtalPos = geometry_p->getGeometry(frame.id())->getPosition();
622 
623  (*ebEnergies)[iEta0][iPhi0].phi = rad2deg * ((double)xtalPos.phi());
624  (*ebEnergies)[iEta0][iPhi0].eta = xtalPos.eta();
625  } //next non-zs digi
626 
627  //EB sim hits
628  for (vector<PCaloHit>::const_iterator it = ebSimHits_->begin(); it != ebSimHits_->end(); ++it) {
629  const PCaloHit& simHit = *it;
630  EBDetId detId(simHit.id());
631  int iEta = detId.ieta();
632  int iEta0 = iEta2cIndex(iEta);
633  int iPhi = detId.iphi();
634  int iPhi0 = iPhi2cIndex(iPhi);
635  (*ebEnergies)[iEta0][iPhi0].simE += simHit.energy();
636  ++(*ebEnergies)[iEta0][iPhi0].simHit;
637  }
638 
639  bool crystalShot[nEbEta][nEbPhi];
640  pair<int, int> EBxtalCoor[nEbEta][nEbPhi];
641 
642  for (int iEta0 = 0; iEta0 < nEbEta; ++iEta0) {
643  for (int iPhi0 = 0; iPhi0 < nEbPhi; ++iPhi0) {
644  crystalShot[iEta0][iPhi0] = false;
645  EBxtalCoor[iEta0][iPhi0] = make_pair(0, 0);
646  }
647  }
648 
649  int nEbDigi = 0;
650 
651  for (EBDigiCollection::const_iterator it = ebDigis_->begin(); it != ebDigis_->end(); ++it) {
652  ++nEbDigi;
653  const EBDataFrame& frame = *it;
654  int iEta = static_cast<const EBDetId&>(frame.id()).ieta();
655  int iPhi = static_cast<const EBDetId&>(frame.id()).iphi();
656  int iEta0 = iEta2cIndex(iEta);
657  int iPhi0 = iPhi2cIndex(iPhi);
658  if (iEta0 < 0 || iEta0 >= nEbEta) {
659  throw(cms::Exception("EcalSelectiveReadoutValidation") << "iEta0 (= " << iEta0 << ") is out of range ("
660  << "[0," << nEbEta - 1 << "]");
661  }
662  if (iPhi0 < 0 || iPhi0 >= nEbPhi) {
663  throw(cms::Exception("EcalSelectiveReadoutValidation") << "iPhi0 (= " << iPhi0 << ") is out of range ("
664  << "[0," << nEbPhi - 1 << "]");
665  }
666  assert(iEta0 >= 0 && iEta0 < nEbEta);
667  assert(iPhi0 >= 0 && iPhi0 < nEbPhi);
668  if (!crystalShot[iEta0][iPhi0]) {
669  crystalShot[iEta0][iPhi0] = true;
670  EBxtalCoor[iEta0][iPhi0] = make_pair(xtalGraphX(frame.id()), xtalGraphY(frame.id()));
671  } else {
672  cout << "Error: several digi for same crystal!";
673  abort();
674  }
675  if (localReco_) {
676  (*ebEnergies)[iEta0][iPhi0].recE = frame2Energy(frame);
677  }
678 
679  (*ebEnergies)[iEta0][iPhi0].gain12 = true;
680  for (int i = 0; i < frame.size(); ++i) {
681  const int gain12Code = 0x1;
682  if (frame[i].gainId() != gain12Code) {
683  (*ebEnergies)[iEta0][iPhi0].gain12 = false;
684  }
685  }
686 
688 
689  bool highInterest = false;
690 
691  // if(srf == ebSrFlags_->end()){
692  // throw cms::Exception("EcalSelectiveReadoutValidation")
693  // << __FILE__ << ":" << __LINE__ << ": SR flag not found";
694  //}
695 
696  if (srf != ebSrFlags_->end()) {
697  highInterest = ((srf->value() & ~EcalSrFlag::SRF_FORCED_MASK) == EcalSrFlag::SRF_FULL);
698  }
699 
700  if (highInterest) {
702  } else {
703  int v = dccZsFIR(frame, firWeights_, firstFIRSample_, nullptr);
704  fill(meEbLiZsFir_, v);
705  if (v < ebZsThr_) {
706  eventError = true;
707  ++nEbZsErrors_;
708  pair<int, int> ru = dccCh(frame.id());
709  if (isRuComplete_[ru.first - 1][ru.second - 1])
711  if (nEbZsErrors_ < 3) {
712  srApplicationErrorLog_ << event.id() << ", "
713  << "RU " << frame.id() << ", "
714  << "DCC " << ru.first << " Ch : " << ru.second << ": "
715  << "LI channel under ZS threshold.\n";
716  }
717  if (nEbZsErrors_ == 3) {
718  srApplicationErrorLog_ << event.id() << ": "
719  << "more ZS errors for this event...\n";
720  }
721  }
722  }
723  } //next EB digi
724 
725  for (int iEta0 = 0; iEta0 < nEbEta; ++iEta0) {
726  for (int iPhi0 = 0; iPhi0 < nEbPhi; ++iPhi0)
727  fill(meChOcc_,
728  EBxtalCoor[iEta0][iPhi0].first,
729  EBxtalCoor[iEta0][iPhi0].second,
730  crystalShot[iEta0][iPhi0] ? 1. : 0.);
731  }
732 
733  if (!localReco_) {
734  for (RecHitCollection::const_iterator it = ebRecHits_->begin(); it != ebRecHits_->end(); ++it) {
735  ++nEbDigi;
736  const RecHit& hit = *it;
737  int iEta = static_cast<const EBDetId&>(hit.id()).ieta();
738  int iPhi = static_cast<const EBDetId&>(hit.id()).iphi();
739  int iEta0 = iEta2cIndex(iEta);
740  int iPhi0 = iPhi2cIndex(iPhi);
741  if (iEta0 < 0 || iEta0 >= nEbEta) {
742  LogError("EcalSrValid") << "iEta0 (= " << iEta0 << ") is out of range ("
743  << "[0," << nEbEta - 1 << "]\n";
744  }
745  if (iPhi0 < 0 || iPhi0 >= nEbPhi) {
746  LogError("EcalSrValid") << "iPhi0 (= " << iPhi0 << ") is out of range ("
747  << "[0," << nEbPhi - 1 << "]\n";
748  }
749  (*ebEnergies)[iEta0][iPhi0].recE = hit.energy();
750  }
751  }
752 
753  for (unsigned int i = 0; i < xtalEtaPhi.size(); ++i) {
754  int iEta0 = xtalEtaPhi[i].first;
755  int iPhi0 = xtalEtaPhi[i].second;
756  energiesEb_t& energies = (*ebEnergies)[iEta0][iPhi0];
757 
758  double recE = energies.recE;
759  if (recE != -numeric_limits<double>::max()) { //not zero suppressed
760  fill(meEbRecE_, (*ebEnergies)[iEta0][iPhi0].recE);
761  fill(meEbEMean_, ievt_ + 1, recE);
762  } //not zero suppressed
763 
764  if (withEbSimHit_) {
765  if (!energies.simHit) { //noise only crystal channel
766  fill(meEbNoise_, energies.noZsRecE);
767  } else {
768  fill(meEbSimE_, energies.simE);
769  fill(meEbRecEHitXtal_, energies.recE);
770  }
771  fill(meEbRecVsSimE_, energies.simE, energies.recE);
772  fill(meEbNoZsRecVsSimE_, energies.simE, energies.noZsRecE);
773  }
774  }
775 
776  int EBZs1RuCount[2][17][72];
777  int EBFullRuCount[2][17][72];
778  int EBForcedRuCount[2][17][72];
779  std::pair<int, int> EBtowerCoor[2][17][72];
780  for (int iZ(0); iZ < 2; iZ++) {
781  for (int iEta(0); iEta < 17; iEta++) {
782  for (int iPhi(0); iPhi < 72; iPhi++) {
783  EBZs1RuCount[iZ][iEta][iPhi] = 0;
784  EBFullRuCount[iZ][iEta][iPhi] = 0;
785  EBForcedRuCount[iZ][iEta][iPhi] = 0;
786  }
787  }
788  }
789 
790  //SRF
791  nEbFROCnt_ = 0;
792  char ebSrfMark[2][17][72];
793  bzero(ebSrfMark, sizeof(ebSrfMark));
794  // int idbg = 0;
795  for (EBSrFlagCollection::const_iterator it = ebSrFlags_->begin(); it != ebSrFlags_->end(); ++it) {
796  const EBSrFlag& srf = *it;
797  int iEtaAbs = srf.id().ietaAbs();
798  int iPhi = srf.id().iphi();
799  int iZ = srf.id().zside();
800 
801  // cout << "--> " << ++idbg << iEtaAbs << " " << iPhi << " " << iZ
802  // << " " << srf.id() << "\n";
803 
804  if (iEtaAbs < 1 || iEtaAbs > 17 || iPhi < 1 || iPhi > 72)
805  throw cms::Exception("EcalSelectiveReadoutValidation")
806  << "Found a barrel SRF with an invalid det ID: " << srf.id() << ".\n";
807  ++ebSrfMark[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1];
808  if (ebSrfMark[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1] > 1)
809  throw cms::Exception("EcalSelectiveReadoutValidation") << "Duplicate SRF for RU " << srf.id() << ".\n";
810 
811  EBtowerCoor[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1] = std::pair<int, int>(srf.id().ieta(), srf.id().iphi());
812 
813  int flag = srf.value() & ~EcalSrFlag::SRF_FORCED_MASK;
814  if (flag == EcalSrFlag::SRF_ZS1) {
815  EBZs1RuCount[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1] += 1;
816  }
817  if (flag == EcalSrFlag::SRF_FULL) {
818  EBFullRuCount[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1] += 1;
819  ++nEbFROCnt_;
820  }
821  if (srf.value() & EcalSrFlag::SRF_FORCED_MASK) {
822  EBForcedRuCount[iZ > 0 ? 1 : 0][iEtaAbs - 1][iPhi - 1] += 1;
823  }
824  }
825  for (int iZ(0); iZ < 2; iZ++) {
826  for (int iEta(0); iEta < 17; iEta++) {
827  for (int iPhi(0); iPhi < 72; iPhi++) {
828  float x(EBtowerCoor[iZ][iEta][iPhi].first);
829  float y(EBtowerCoor[iZ][iEta][iPhi].second);
830  fill(meZs1Ru_, x, y, EBZs1RuCount[iZ][iEta][iPhi]);
831  fill(meFullRoRu_, x, y, EBFullRuCount[iZ][iEta][iPhi]);
832  fill(meForcedRu_, x, y, EBForcedRuCount[iZ][iEta][iPhi]);
833  }
834  }
835  }
836 
837  if (eventError)
838  srApplicationErrorLog_ << event.id() << ": " << nEbZsErrors_
839  << " ZS-flagged EB channels under "
840  "the ZS threshold, whose "
841  << nEbZsErrorsType1_ << " in a complete RU.\n";
842 }
CollHandle< EBDigiCollection > ebNoZsDigis_
std::ofstream srApplicationErrorLog_
Output ascii file for unconsistency between Xtals and RU Flags.
EcalTrigTowerDetId readOutUnitOf(const EBDetId &xtalId) const
int ieta() const
get the tower ieta
static const int nEbPhi
number of crystals along Phi in EB
static const int SRF_FORCED_MASK
Definition: EcalSrFlag.h:29
static const double rad2deg
Conversion factor from radian to degree.
Geom::Phi< T > phi() const
Definition: PV3DBase.h:66
T eta() const
Definition: PV3DBase.h:73
std::pair< int, int > dccCh(const DetId &xtalId) const
std::vector< T >::const_iterator const_iterator
Log< level::Error, false > LogError
assert(be >=bs)
double frame2Energy(const EcalDataFrame &frame) const
const EcalTrigTowerDetId & id() const override
Definition: EBSrFlag.h:36
static const int nEbEta
number of crystals along Eta in EB
U second(std::pair< T, U > const &p)
int zside() const
get the z-side of the tower (1/-1)
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geoToken
CollHandle< EBSrFlagCollection > ebSrFlags_
static const int SRF_FULL
Definition: EcalSrFlag.h:24
int value() const
Definition: EcalSrFlag.h:44
static int dccZsFIR(const EcalDataFrame &frame, const std::vector< int > &firWeights, int firstFIRSample, bool *saturated=nullptr)
ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:151
static const int SRF_ZS1
Definition: EcalSrFlag.h:18
virtual std::shared_ptr< const CaloCellGeometry > getGeometry(const DetId &id) const
Get the cell geometry of a given detector id. Should return false if not found.
const_iterator end() const
unsigned int id
int nEbFROCnt_
Counter of EB FRO-flagged RUs.
int ietaAbs() const
get the absolute value of the tower ieta
CollHandle< std::vector< PCaloHit > > ebSimHits_
int nEbZsErrors_
Counter of EB ZS errors (LI channel below ZS threshold)
constexpr int gainId(sample_type sample)
get the gainId (2 bits)
const_iterator begin() const
The iterator returned can not safely be used across threads.
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
void fill(MonitorElement *me, float x)
CollHandle< EBDigiCollection > ebDigis_
int iphi() const
get the tower iphi
CollHandle< RecHitCollection > ebRecHits_

◆ analyzeEE()

void EcalSelectiveReadoutValidation::analyzeEE ( const edm::Event event,
const edm::EventSetup es 
)
private

ECAL endcap data analysis. To be called for each event.

Parameters
eventEDM event
esevent setup

Energy deposited in ECAL endcap crystals. Endcap index is 0 for EE- and 1 for EE+. X and Y index starts at x and y minimum in std CMS coordinate system.

Definition at line 289 of file EcalSelectiveReadoutValidation.cc.

References edm::DataFrameContainer::begin(), gather_cfg::cout, dccCh(), dccZsFIR(), DetId::Ecal, EcalEndcap, eeDigis_, eeNoZsDigis_, eeRecHits_, eeSimHits_, eeSrFlags_, eeZsThr_, edm::DataFrameContainer::end(), PV3DBase< T, PVType, FrameType >::eta(), Exception, fill(), first, firstFIRSample_, firWeights_, RemoveAddSevLevel::flag, frame2Energy(), ecalLiteDTU::gainId(), geoToken, CaloSubdetectorGeometry::getGeometry(), edm::EventSetup::getHandle(), mps_fire::i, EESrFlag::id(), hit::id, ievt_, isRuComplete_, EcalScDetId::ix(), EEDetId::ix(), iXY2cIndex(), EcalScDetId::iy(), localReco_, SiStripPI::max, meChOcc_, meEeEMean_, meEeHiZsFir_, meEeLiZsFir_, meEeNoise_, meEeNoZsRecVsSimE_, meEeRecE_, meEeRecEHitXtal_, meEeRecVsSimE_, meEeSimE_, meForcedRu_, meFullRoRu_, meZs1Ru_, nEeFROCnt_, nEeX, nEeY, nEeZsErrors_, nEeZsErrorsType1_, nEndcaps, PV3DBase< T, PVType, FrameType >::phi(), rad2deg, readOutUnitOf(), edm::second(), rpcPointValidation_cfi::simHit, edm::DataFrameContainer::size(), srApplicationErrorLog_, EcalSrFlag::SRF_FORCED_MASK, EcalSrFlag::SRF_FULL, EcalSrFlag::SRF_ZS1, findQualityFiles::v, EcalSrFlag::value(), withEeSimHit_, phase1PixelTopology::xOffset, xtalGraphX(), xtalGraphY(), EcalScDetId::zside(), and ecaldqm::zside().

Referenced by analyze().

289  {
290  bool eventError = false;
291  nEeZsErrors_ = 0;
292  nEeZsErrorsType1_ = 0;
293 
297  std::unique_ptr<std::array<std::array<std::array<energiesEe_t, nEeY>, nEeX>, nEndcaps>> eeEnergies =
298  std::make_unique<std::array<std::array<std::array<energiesEe_t, nEeY>, nEeX>, nEndcaps>>();
299 
300  for (int iZ0 = 0; iZ0 < nEndcaps; ++iZ0) {
301  for (int iX0 = 0; iX0 < nEeX; ++iX0) {
302  for (int iY0 = 0; iY0 < nEeY; ++iY0) {
303  (*eeEnergies)[iZ0][iX0][iY0].noZsRecE = -numeric_limits<double>::max();
304  (*eeEnergies)[iZ0][iX0][iY0].recE = -numeric_limits<double>::max();
305  (*eeEnergies)[iZ0][iX0][iY0].simE = 0; //must be set to zero.
306  (*eeEnergies)[iZ0][iX0][iY0].simHit = 0;
307  (*eeEnergies)[iZ0][iX0][iY0].gain12 = false;
308  }
309  }
310  }
311 
312  // gets the endcap geometry:
313  auto geoHandle = es.getHandle(geoToken);
314  const CaloSubdetectorGeometry* geometry_p = (*geoHandle).getSubdetectorGeometry(DetId::Ecal, EcalEndcap);
315  //CaloSubdetectorGeometry const& geometry = *geometry_p;
316 
317  //EE unsupressed digis:
318  for (unsigned int digis = 0; digis < eeNoZsDigis_->size(); ++digis) {
319  EEDataFrame frame = (*eeNoZsDigis_)[digis];
320  int iX0 = iXY2cIndex(frame.id().ix());
321  int iY0 = iXY2cIndex(frame.id().iy());
322  int iZ0 = frame.id().zside() > 0 ? 1 : 0;
323 
324  if (iX0 < 0 || iX0 >= nEeX) {
325  edm::LogError("EcalSrValid") << "iX0 (= " << iX0 << ") is out of range ("
326  << "[0," << nEeX - 1 << "]\n";
327  }
328  if (iY0 < 0 || iY0 >= nEeY) {
329  edm::LogError("EcalSrValid") << "iY0 (= " << iY0 << ") is out of range ("
330  << "[0," << nEeY - 1 << "]\n";
331  }
332  // cout << "EE no ZS energy computation..." ;
333  (*eeEnergies)[iZ0][iX0][iY0].noZsRecE = frame2Energy(frame);
334 
335  (*eeEnergies)[iZ0][iX0][iY0].gain12 = true;
336  for (int i = 0; i < frame.size(); ++i) {
337  const int gain12Code = 0x1;
338  if (frame[i].gainId() != gain12Code)
339  (*eeEnergies)[iZ0][iX0][iY0].gain12 = false;
340  }
341 
342  const GlobalPoint xtalPos = geometry_p->getGeometry(frame.id())->getPosition();
343 
344  (*eeEnergies)[iZ0][iX0][iY0].phi = rad2deg * ((double)xtalPos.phi());
345  (*eeEnergies)[iZ0][iX0][iY0].eta = xtalPos.eta();
346  }
347 
348  //EE rec hits:
349  if (!localReco_) {
350  for (RecHitCollection::const_iterator it = eeRecHits_->begin(); it != eeRecHits_->end(); ++it) {
351  const RecHit& hit = *it;
352  int iX0 = iXY2cIndex(static_cast<const EEDetId&>(hit.id()).ix());
353  int iY0 = iXY2cIndex(static_cast<const EEDetId&>(hit.id()).iy());
354  int iZ0 = static_cast<const EEDetId&>(hit.id()).zside() > 0 ? 1 : 0;
355 
356  if (iX0 < 0 || iX0 >= nEeX) {
357  LogError("EcalSrValid") << "iX0 (= " << iX0 << ") is out of range ("
358  << "[0," << nEeX - 1 << "]\n";
359  }
360  if (iY0 < 0 || iY0 >= nEeY) {
361  LogError("EcalSrValid") << "iY0 (= " << iY0 << ") is out of range ("
362  << "[0," << nEeY - 1 << "]\n";
363  }
364  // cout << "EE no ZS energy computation..." ;
365  (*eeEnergies)[iZ0][iX0][iY0].recE = hit.energy();
366  }
367  }
368 
369  //EE sim hits:
370  for (vector<PCaloHit>::const_iterator it = eeSimHits_->begin(); it != eeSimHits_->end(); ++it) {
371  const PCaloHit& simHit = *it;
372  EEDetId detId(simHit.id());
373  int iX = detId.ix();
374  int iX0 = iXY2cIndex(iX);
375  int iY = detId.iy();
376  int iY0 = iXY2cIndex(iY);
377  int iZ0 = detId.zside() > 0 ? 1 : 0;
378  (*eeEnergies)[iZ0][iX0][iY0].simE += simHit.energy();
379  ++(*eeEnergies)[iZ0][iX0][iY0].simHit;
380  }
381 
382  bool EEcrystalShot[nEeX][nEeY][2];
383  pair<int, int> EExtalCoor[nEeX][nEeY][2];
384 
385  for (int iEeZ = 0; iEeZ < 2; ++iEeZ) {
386  for (int iEeX = 0; iEeX < nEeX; ++iEeX) {
387  for (int iEeY = 0; iEeY < nEeY; ++iEeY) {
388  EEcrystalShot[iEeX][iEeY][iEeZ] = false;
389  EExtalCoor[iEeX][iEeY][iEeZ] = make_pair(0, 0);
390  }
391  }
392  }
393 
394  //EE suppressed digis
395  for (EEDigiCollection::const_iterator it = eeDigis_->begin(); it != eeDigis_->end(); ++it) {
396  const EEDataFrame& frame = *it;
397  int iX0 = iXY2cIndex(static_cast<const EEDetId&>(frame.id()).ix());
398  int iY0 = iXY2cIndex(static_cast<const EEDetId&>(frame.id()).iy());
399  int iZ0 = static_cast<const EEDetId&>(frame.id()).zside() > 0 ? 1 : 0;
400  if (iX0 < 0 || iX0 >= nEeX) {
401  LogError("EcalSrValid") << "iX0 (= " << iX0 << ") is out of range ("
402  << "[0," << nEeX - 1 << "]\n";
403  }
404  if (iY0 < 0 || iY0 >= nEeY) {
405  LogError("EcalSrValid") << "iY0 (= " << iY0 << ") is out of range ("
406  << "[0," << nEeY - 1 << "]\n";
407  }
408 
409  if (!EEcrystalShot[iX0][iY0][iZ0]) {
410  EEcrystalShot[iX0][iY0][iZ0] = true;
411  EExtalCoor[iX0][iY0][iZ0] = make_pair(xtalGraphX(frame.id()), xtalGraphY(frame.id()));
412  } else {
413  cout << "Error: several digi for same crystal!";
414  abort();
415  }
416 
417  if (localReco_) {
418  (*eeEnergies)[iZ0][iX0][iY0].recE = frame2Energy(frame);
419  }
420 
421  (*eeEnergies)[iZ0][iX0][iY0].gain12 = true;
422  for (int i = 0; i < frame.size(); ++i) {
423  const int gain12Code = 0x1;
424  if (frame[i].gainId() != gain12Code) {
425  (*eeEnergies)[iZ0][iX0][iY0].gain12 = false;
426  }
427  }
428 
430 
431  bool highInterest = false;
432 
433  if (srf == eeSrFlags_->end())
434  continue;
435 
436  if (srf != eeSrFlags_->end()) {
437  highInterest = ((srf->value() & ~EcalSrFlag::SRF_FORCED_MASK) == EcalSrFlag::SRF_FULL);
438  }
439 
440  if (highInterest) {
442  } else {
443  int v = dccZsFIR(frame, firWeights_, firstFIRSample_, nullptr);
444  fill(meEeLiZsFir_, v);
445  if (v < eeZsThr_) {
446  eventError = true;
447  ++nEeZsErrors_;
448  pair<int, int> ru = dccCh(frame.id());
449  if (isRuComplete_[ru.first - 1][ru.second - 1])
451  if (nEeZsErrors_ < 3) {
452  srApplicationErrorLog_ << event.id() << ", "
453  << "RU " << frame.id() << ", "
454  << "DCC " << ru.first << " Ch : " << ru.second << ": "
455  << "LI channel under ZS threshold.\n";
456  }
457  if (nEeZsErrors_ == 3) {
458  srApplicationErrorLog_ << event.id() << ": "
459  << "more ZS errors for this event...\n";
460  }
461  }
462  }
463  } //next ZS digi.
464 
465  for (int iEeZ = 0; iEeZ < 2; ++iEeZ) {
466  for (int iEeX = 0; iEeX < nEeX; ++iEeX) {
467  for (int iEeY = 0; iEeY < nEeY; ++iEeY) {
468  fill(meChOcc_,
469  EExtalCoor[iEeX][iEeY][iEeZ].first,
470  EExtalCoor[iEeX][iEeY][iEeZ].second,
471  EEcrystalShot[iEeX][iEeY][iEeZ] ? 1 : 0);
472  }
473  }
474  }
475 
476  for (int iZ0 = 0; iZ0 < nEndcaps; ++iZ0) {
477  for (int iX0 = 0; iX0 < nEeX; ++iX0) {
478  for (int iY0 = 0; iY0 < nEeY; ++iY0) {
479  double recE = (*eeEnergies)[iZ0][iX0][iY0].recE;
480  if (recE == -numeric_limits<double>::max())
481  continue; //not a crystal or ZS
482  fill(meEeRecE_, (*eeEnergies)[iZ0][iX0][iY0].recE);
483 
484  fill(meEeEMean_, ievt_ + 1, (*eeEnergies)[iZ0][iX0][iY0].recE);
485 
486  if (withEeSimHit_) {
487  if (!(*eeEnergies)[iZ0][iX0][iY0].simHit) { //noise only crystal channel
488  fill(meEeNoise_, (*eeEnergies)[iZ0][iX0][iY0].noZsRecE);
489  } else {
490  fill(meEeSimE_, (*eeEnergies)[iZ0][iX0][iY0].simE);
491  fill(meEeRecEHitXtal_, (*eeEnergies)[iZ0][iX0][iY0].recE);
492  }
493  fill(meEeRecVsSimE_, (*eeEnergies)[iZ0][iX0][iY0].simE, (*eeEnergies)[iZ0][iX0][iY0].recE);
494  fill(meEeNoZsRecVsSimE_, (*eeEnergies)[iZ0][iX0][iY0].simE, (*eeEnergies)[iZ0][iX0][iY0].noZsRecE);
495  }
496  }
497  }
498  }
499 
500  int EEZs1RuCount[2][20][20];
501  int EEFullRuCount[2][20][20];
502  int EEForcedRuCount[2][20][20];
503  for (int iZ(0); iZ < 2; iZ++) {
504  for (int iX(0); iX < 20; iX++) {
505  for (int iY(0); iY < 20; iY++) {
506  EEZs1RuCount[iZ][iX][iY] = 0;
507  EEFullRuCount[iZ][iX][iY] = 0;
508  EEForcedRuCount[iZ][iX][iY] = 0;
509  }
510  }
511  }
512 
513  nEeFROCnt_ = 0;
514  char eeSrfMark[2][20][20];
515  bzero(eeSrfMark, sizeof(eeSrfMark));
516  //Filling RU histo
517  for (EESrFlagCollection::const_iterator it = eeSrFlags_->begin(); it != eeSrFlags_->end(); ++it) {
518  const EESrFlag& srf = *it;
519  // srf.id() is EcalScDetId; 1 <= ix <= 20 1 <= iy <= 20
520  int iX = srf.id().ix();
521  int iY = srf.id().iy();
522  int zside = srf.id().zside(); //-1 for EE-, +1 for EE+
523  if (iX < 1 || iY > 100)
524  throw cms::Exception("EcalSelectiveReadoutValidation")
525  << "Found an endcap SRF with an invalid det ID: " << srf.id() << ".\n";
526  ++eeSrfMark[zside > 0 ? 1 : 0][iX - 1][iY - 1];
527  if (eeSrfMark[zside > 0 ? 1 : 0][iX - 1][iY - 1] > 1)
528  throw cms::Exception("EcalSelectiveReadoutValidation") << "Duplicate SRF for supercrystal " << srf.id() << ".\n";
529  int flag = srf.value() & ~EcalSrFlag::SRF_FORCED_MASK;
530  if (flag == EcalSrFlag::SRF_ZS1) {
531  EEZs1RuCount[zside > 0 ? 1 : 0][iX - 1][iY - 1] += 1;
532  }
533 
534  if (flag == EcalSrFlag::SRF_FULL) {
535  EEFullRuCount[zside > 0 ? 1 : 0][iX - 1][iY - 1] += 1;
536  ++nEeFROCnt_;
537  }
538 
539  if (srf.value() & EcalSrFlag::SRF_FORCED_MASK) {
540  EEForcedRuCount[zside > 0 ? 1 : 0][iX - 1][iY - 1] += 1;
541  }
542  }
543  for (int iZ(0); iZ < 2; iZ++) {
544  int xOffset(iZ == 0 ? -40 : 20);
545  for (int iX(0); iX < 20; iX++) {
546  for (int iY(0); iY < 20; iY++) {
547  int GraphX = (iX + 1) + xOffset;
548  int GraphY = (iY + 1);
549  fill(meZs1Ru_, GraphX, GraphY, EEZs1RuCount[iZ][iX][iY]);
550  fill(meFullRoRu_, GraphX, GraphY, EEFullRuCount[iZ][iX][iY]);
551  fill(meForcedRu_, GraphX, GraphY, EEForcedRuCount[iZ][iX][iY]);
552  }
553  }
554  }
555 
556  if (eventError)
557  srApplicationErrorLog_ << event.id() << ": " << nEeZsErrors_
558  << " ZS-flagged EE channels under "
559  "the ZS threshold, whose "
560  << nEeZsErrorsType1_ << " in a complete RU.\n";
561 } //end of analyzeEE
std::ofstream srApplicationErrorLog_
Output ascii file for unconsistency between Xtals and RU Flags.
static const int nEeX
EE crystal grid size along X.
int zside() const
Definition: EcalScDetId.h:64
EcalTrigTowerDetId readOutUnitOf(const EBDetId &xtalId) const
static const int SRF_FORCED_MASK
Definition: EcalSrFlag.h:29
static const double rad2deg
Conversion factor from radian to degree.
Geom::Phi< T > phi() const
Definition: PV3DBase.h:66
T eta() const
Definition: PV3DBase.h:73
int ix() const
Definition: EEDetId.h:77
std::pair< int, int > dccCh(const DetId &xtalId) const
std::vector< EcalRecHit >::const_iterator const_iterator
int nEeZsErrors_
Counter of EE ZS errors (LI channel below ZS threshold)
int zside(DetId const &)
Log< level::Error, false > LogError
double frame2Energy(const EcalDataFrame &frame) const
const EcalScDetId & id() const override
Definition: EESrFlag.h:37
U second(std::pair< T, U > const &p)
CollHandle< EEDigiCollection > eeDigis_
CollHandle< RecHitCollection > eeRecHits_
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geoToken
static const int SRF_FULL
Definition: EcalSrFlag.h:24
int value() const
Definition: EcalSrFlag.h:44
CollHandle< std::vector< PCaloHit > > eeSimHits_
static int dccZsFIR(const EcalDataFrame &frame, const std::vector< int > &firWeights, int firstFIRSample, bool *saturated=nullptr)
int nEeFROCnt_
Counter of EE FRO-flagged RUs.
int iy() const
Definition: EcalScDetId.h:76
ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:151
static const int SRF_ZS1
Definition: EcalSrFlag.h:18
virtual std::shared_ptr< const CaloCellGeometry > getGeometry(const DetId &id) const
Get the cell geometry of a given detector id. Should return false if not found.
CollHandle< EESrFlagCollection > eeSrFlags_
const_iterator end() const
unsigned int id
constexpr int gainId(sample_type sample)
get the gainId (2 bits)
constexpr int16_t xOffset
const_iterator begin() const
The iterator returned can not safely be used across threads.
CollHandle< EEDigiCollection > eeNoZsDigis_
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
void fill(MonitorElement *me, float x)
static const int nEeY
EE crystal grid size along Y.
static const int nEndcaps
number of endcaps
int ix() const
Definition: EcalScDetId.h:70

◆ analyzeTP()

void EcalSelectiveReadoutValidation::analyzeTP ( const edm::Event event,
const edm::EventSetup es 
)
private

Trigger primitive analysis. To be called for each event.

Parameters
eventEDM event
esevent setup

Definition at line 1491 of file EcalSelectiveReadoutValidation.cc.

References cIndex2iTtEta(), cIndex2iTtPhi(), DetId::Ecal, EcalBarrel, EcalEndcap, fill(), edm::EventSetup::getData(), dqm::impl::MonitorElement::getTProfile(), mps_fire::i, l1tTowerCalibrationProducer_cfi::iEta, iTtEta2cIndex(), iTtPhi2cIndex(), lutGrpHandle, lutMapHandle, meForcedTtf_, meHiTtf_, meLiTtf_, meMiTtf_, meTp_, meTpMap_, meTpVsEtSum_, meTtf_, meTtfVsEtSum_, meTtfVsTp_, nTtEta, nTtPhi, physHandle, ecaldqm::towerId(), tpInGeV_, tps_, and ttEtSums.

Referenced by analyze().

1491  {
1492  int TTFlagCount[8];
1493  int LiTTFlagCount[nTtEta][nTtPhi];
1494  int MiTTFlagCount[nTtEta][nTtPhi];
1495  int HiTTFlagCount[nTtEta][nTtPhi];
1496  for (int iTTFlag(0); iTTFlag < 8; iTTFlag++) {
1497  TTFlagCount[iTTFlag] = 0;
1498  }
1499  for (int iTtEta(0); iTtEta < nTtEta; iTtEta++) {
1500  for (int iTtPhi(0); iTtPhi < nTtPhi; iTtPhi++) {
1501  LiTTFlagCount[iTtEta][iTtPhi] = 0;
1502  MiTTFlagCount[iTtEta][iTtPhi] = 0;
1503  HiTTFlagCount[iTtEta][iTtPhi] = 0;
1504  }
1505  }
1506  int tpEtCount[100];
1507  for (int iEt(0); iEt < 100; iEt++) {
1508  tpEtCount[iEt] = 0;
1509  }
1510 
1511  const EcalTPGPhysicsConstMap& physMap = es.getData(physHandle).getMap();
1512 
1513  const EcalTPGGroups::EcalTPGGroupsMap& lutGrpMap = es.getData(lutGrpHandle).getMap();
1514 
1515  const EcalTPGLutIdMap::EcalTPGLutMap& lutMap = es.getData(lutMapHandle).getMap();
1516 
1517  EcalTPGPhysicsConstMapIterator ebItr(physMap.find(DetId(DetId::Ecal, EcalBarrel).rawId()));
1518  double lsb10bitsEB(ebItr == physMap.end() ? 0. : ebItr->second.EtSat / 1024.);
1519  EcalTPGPhysicsConstMapIterator eeItr(physMap.find(DetId(DetId::Ecal, EcalEndcap).rawId()));
1520  double lsb10bitsEE(eeItr == physMap.end() ? 0. : eeItr->second.EtSat / 1024.);
1521 
1522  for (EcalTrigPrimDigiCollection::const_iterator it = tps_->begin(); it != tps_->end(); ++it) {
1523  double tpEt;
1524  if (tpInGeV_) {
1525  EcalTrigTowerDetId const& towerId(it->id());
1526  unsigned int ADC = it->compressedEt();
1527 
1528  double lsb10bits(0.);
1529  if (towerId.subDet() == EcalBarrel)
1530  lsb10bits = lsb10bitsEB;
1531  else if (towerId.subDet() == EcalEndcap)
1532  lsb10bits = lsb10bitsEE;
1533 
1534  int tpg10bits = 0;
1535  EcalTPGGroups::EcalTPGGroupsMapItr itgrp = lutGrpMap.find(towerId.rawId());
1536  uint32_t lutGrp = 999;
1537  if (itgrp != lutGrpMap.end())
1538  lutGrp = itgrp->second;
1539 
1540  EcalTPGLutIdMap::EcalTPGLutMapItr itLut = lutMap.find(lutGrp);
1541  if (itLut != lutMap.end()) {
1542  const unsigned int* lut = (itLut->second).getLut();
1543  for (unsigned int i = 0; i < 1024; i++)
1544  if (ADC == (0xff & lut[i])) {
1545  tpg10bits = i;
1546  break;
1547  }
1548  }
1549 
1550  tpEt = lsb10bits * tpg10bits;
1551  } else {
1552  tpEt = it->compressedEt();
1553  }
1554  int iEta = it->id().ieta();
1555  int iEta0 = iTtEta2cIndex(iEta);
1556  int iPhi = it->id().iphi();
1557  int iPhi0 = iTtPhi2cIndex(iPhi);
1558  double etSum = ttEtSums[iEta0][iPhi0];
1559 
1560  int iE = meTp_->getTProfile()->FindFixBin(tpEt);
1561  if ((iE >= 0) && (iE < 100)) {
1562  ++tpEtCount[iE];
1563  } else {
1564  // FindFixBin might return an overflow bin (outside tpEtCount range).
1565  // To prevent a memory overflow / segfault, these values are ignored.
1566  //std::cout << "EcalSelectiveReadoutValidation: Invalid iE value: " << iE << std::endl;
1567  }
1568 
1569  fill(meTpVsEtSum_, etSum, tpEt);
1570  ++TTFlagCount[it->ttFlag()];
1571  if ((it->ttFlag() & 0x3) == 0) {
1572  LiTTFlagCount[iEta0][iPhi0] += 1;
1573  } else if ((it->ttFlag() & 0x3) == 1) {
1574  MiTTFlagCount[iEta0][iPhi0] += 1;
1575  } else if ((it->ttFlag() & 0x3) == 3) {
1576  HiTTFlagCount[iEta0][iPhi0] += 1;
1577  }
1578  if ((it->ttFlag() & 0x4)) {
1579  fill(meForcedTtf_, iEta, iPhi);
1580  }
1581 
1582  fill(meTtfVsTp_, tpEt, it->ttFlag());
1583  fill(meTtfVsEtSum_, etSum, it->ttFlag());
1584  fill(meTpMap_, iEta, iPhi, tpEt, 1.);
1585  }
1586 
1587  for (int ittflag(0); ittflag < 8; ittflag++) {
1588  fill(meTtf_, ittflag, TTFlagCount[ittflag]);
1589  }
1590  for (int iTtEta(0); iTtEta < nTtEta; iTtEta++) {
1591  for (int iTtPhi(0); iTtPhi < nTtPhi; iTtPhi++) {
1592  fill(meLiTtf_, cIndex2iTtEta(iTtEta), cIndex2iTtPhi(iTtPhi), LiTTFlagCount[iTtEta][iTtPhi]);
1593  fill(meMiTtf_, cIndex2iTtEta(iTtEta), cIndex2iTtPhi(iTtPhi), MiTTFlagCount[iTtEta][iTtPhi]);
1594  fill(meHiTtf_, cIndex2iTtEta(iTtEta), cIndex2iTtPhi(iTtPhi), HiTTFlagCount[iTtEta][iTtPhi]);
1595  }
1596  }
1597  if (tpInGeV_) {
1598  for (int iE(0); iE < 100; iE++) {
1599  fill(meTp_, iE, tpEtCount[iE]);
1600  }
1601  } else {
1602  for (int iE(0); iE < 40; iE++) {
1603  fill(meTp_, iE, tpEtCount[iE]);
1604  }
1605  }
1606 }
std::map< uint32_t, uint32_t >::const_iterator EcalTPGGroupsMapItr
Definition: EcalTPGGroups.h:20
CollHandle< EcalTrigPrimDigiCollection > tps_
edm::ESGetToken< EcalTPGLutIdMap, EcalTPGLutIdMapRcd > lutMapHandle
std::vector< T >::const_iterator const_iterator
static const int nTtPhi
Number of Trigger Towers along Phi.
unsigned towerId(DetId const &, EcalElectronicsMapping const *)
edm::ESGetToken< EcalTPGLutGroup, EcalTPGLutGroupRcd > lutGrpHandle
edm::ESGetToken< EcalTPGPhysicsConst, EcalTPGPhysicsConstRcd > physHandle
bool getData(T &iHolder) const
Definition: EventSetup.h:122
virtual TProfile * getTProfile()
Definition: DetId.h:17
std::map< uint32_t, EcalTPGLut > EcalTPGLutMap
static const int nTtEta
Number of Trigger Towers along Eta.
void fill(MonitorElement *me, float x)
std::map< uint32_t, EcalTPGPhysicsConst::Item > EcalTPGPhysicsConstMap
std::map< uint32_t, EcalTPGPhysicsConst::Item >::const_iterator EcalTPGPhysicsConstMapIterator
std::map< uint32_t, uint32_t > EcalTPGGroupsMap
Definition: EcalTPGGroups.h:19
std::map< uint32_t, EcalTPGLut >::const_iterator EcalTPGLutMapItr

◆ book1D()

EcalSelectiveReadoutValidation::MonitorElement * EcalSelectiveReadoutValidation::book1D ( DQMStore::IBooker ibook,
const std::string &  name,
const std::string &  title,
int  nbins,
double  xmin,
double  xmax 
)
private

Definition at line 1985 of file EcalSelectiveReadoutValidation.cc.

References dqm::implementation::IBooker::book1D(), Exception, Skims_PA_cff::name, LaserClient_cfi::nbins, registerHist(), mps_fire::result, runGCPTkAlMap::title, TrackerOfflineValidation_Dqm_cff::xmax, and TrackerOfflineValidation_Dqm_cff::xmin.

Referenced by bookHistograms().

1986  {
1987  if (!registerHist(name, title))
1988  return nullptr; //this histo is disabled
1990  if (result == nullptr) {
1991  throw cms::Exception("Histo") << "Failed to book histogram " << name;
1992  }
1993  return result;
1994 }
bool registerHist(const std::string &name, const std::string &title)
MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98

◆ book2D()

EcalSelectiveReadoutValidation::MonitorElement * EcalSelectiveReadoutValidation::book2D ( DQMStore::IBooker ibook,
const std::string &  name,
const std::string &  title,
int  nxbins,
double  xmin,
double  xmax,
int  nybins,
double  ymin,
double  ymax 
)
private

Definition at line 1996 of file EcalSelectiveReadoutValidation.cc.

References dqm::implementation::IBooker::book2D(), Exception, Skims_PA_cff::name, registerHist(), mps_fire::result, runGCPTkAlMap::title, TrackerOfflineValidation_Dqm_cff::xmax, TrackerOfflineValidation_Dqm_cff::xmin, L1TOccupancyClient_cfi::ymax, and L1TOccupancyClient_cfi::ymin.

Referenced by bookHistograms().

2004  {
2005  if (!registerHist(name, title))
2006  return nullptr; //this histo is disabled
2007  MonitorElement* result = ibook.book2D(name, title, nxbins, xmin, xmax, nybins, ymin, ymax);
2008  if (result == nullptr) {
2009  throw cms::Exception("Histo") << "Failed to book histogram " << name;
2010  }
2011  return result;
2012 }
bool registerHist(const std::string &name, const std::string &title)
MonitorElement * book2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, FUNC onbooking=NOOP())
Definition: DQMStore.h:212

◆ bookFloat()

EcalSelectiveReadoutValidation::MonitorElement * EcalSelectiveReadoutValidation::bookFloat ( DQMStore::IBooker ibook,
const std::string &  name 
)
private

Wrappers to the book methods of the DQMStore DQM histogramming interface.

Definition at line 1974 of file EcalSelectiveReadoutValidation.cc.

References dqm::implementation::IBooker::bookFloat(), Exception, Skims_PA_cff::name, registerHist(), and mps_fire::result.

Referenced by bookHistograms().

1975  {
1976  if (!registerHist(name, ""))
1977  return nullptr; //this histo is disabled
1978  MonitorElement* result = ibook.bookFloat(name);
1979  if (result == nullptr) {
1980  throw cms::Exception("DQM") << "Failed to book integer DQM monitor element" << name;
1981  }
1982  return result;
1983 }
MonitorElement * bookFloat(TString const &name, FUNC onbooking=NOOP())
Definition: DQMStore.h:80
bool registerHist(const std::string &name, const std::string &title)

◆ bookHistograms()

void EcalSelectiveReadoutValidation::bookHistograms ( DQMStore::IBooker i,
edm::Run const &  ,
edm::EventSetup const &   
)
overridevirtual

Implements DQMOneEDAnalyzer<>.

Definition at line 860 of file EcalSelectiveReadoutValidation.cc.

References availableHistList_, book1D(), book2D(), bookFloat(), bookProfile(), bookProfile2D(), visDQMUpload::buf, ebZsThr_, eeZsThr_, histList_, meChOcc_, meCompleteZSCnt_, meCompleteZSMap_, meCompleteZSRateMap_, meDccHiVol_, meDccLiVol_, meDccVol_, meDccVolFromData_, meDroppedFROCnt_, meDroppedFROMap_, meDroppedFRORateMap_, meEbEMean_, meEbFullRoCnt_, meEbHiZsFir_, meEbLiZsFir_, meEbNoise_, meEbNoZsRecVsSimE_, meEbRecE_, meEbRecEHitXtal_, meEbRecVsSimE_, meEbSimE_, meEbZsErrCnt_, meEbZsErrType1Cnt_, meEeEMean_, meEeFullRoCnt_, meEeHiZsFir_, meEeLiZsFir_, meEeNoise_, meEeNoZsRecVsSimE_, meEeRecE_, meEeRecEHitXtal_, meEeRecVsSimE_, meEeSimE_, meEeZsErrCnt_, meEeZsErrType1Cnt_, meForcedRu_, meForcedTtf_, meFullRoCnt_, meFullRoRu_, meHiTtf_, meIncompleteFROCnt_, meIncompleteFROMap_, meIncompleteFRORateMap_, meL1aRate_, meLiTtf_, meMiTtf_, meSRFlagsConsistency_, meTp_, meTpMap_, meTpVsEtSum_, meTtf_, meTtfVsEtSum_, meTtfVsTp_, meVol_, meVolB_, meVolBHI_, meVolBLI_, meVolE_, meVolEHI_, meVolELI_, meVolHI_, meVolLI_, meZs1Ru_, meZsErrCnt_, meZsErrType1Cnt_, nDccs_, printAvailableHists(), alignCSCRings::s, dqm::implementation::NavigatorBase::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, runGCPTkAlMap::title, and tpInGeV_.

862  {
863  ibooker.setCurrentFolder("EcalDigisV/SelectiveReadout");
864 
865  {
866  auto scope = DQMStore::IBooker::UseRunScope(ibooker);
867  meL1aRate_ = bookFloat(ibooker, "l1aRate_");
868  }
869 
870  meDccVol_ = bookProfile(ibooker,
871  "hDccVol", //"EcalDccEventSizeComputed",
872  "ECAL DCC event fragment size;Dcc id; "
873  "<Event size> (kB)",
874  nDccs_,
875  .5,
876  .5 + nDccs_);
877 
878  meDccLiVol_ = bookProfile(ibooker,
879  "hDccLiVol",
880  "LI channel payload per DCC;Dcc id; "
881  "<Event size> (kB)",
882  nDccs_,
883  .5,
884  .5 + nDccs_);
885 
886  meDccHiVol_ = bookProfile(ibooker,
887  "hDccHiVol",
888  "HI channel payload per DCC;Dcc id; "
889  "<Event size> (kB)",
890  nDccs_,
891  .5,
892  .5 + nDccs_);
893 
894  meDccVolFromData_ = bookProfile(ibooker,
895  "hDccVolFromData", //"EcalDccEventSize",
896  "ECAL DCC event fragment size;Dcc id; "
897  "<Event size> (kB)",
898  nDccs_,
899  .5,
900  .5 + nDccs_);
901 
902  meVolBLI_ = book1D(ibooker,
903  "hVolBLI", // "EBLowInterestPayload",
904  "ECAL Barrel low interest crystal data payload;"
905  "Event size (kB);Nevts",
906  100,
907  0.,
908  200.);
909 
910  meVolELI_ = book1D(ibooker,
911  "hVolELI", //"EELowInterestPayload",
912  "Endcap low interest crystal data payload;"
913  "Event size (kB);Nevts",
914  100,
915  0.,
916  200.);
917 
918  meVolLI_ = book1D(ibooker,
919  "hVolLI", //"EcalLowInterestPayload",
920  "ECAL low interest crystal data payload;"
921  "Event size (kB);Nevts",
922  100,
923  0.,
924  200.);
925 
926  meVolBHI_ = book1D(ibooker,
927  "hVolBHI", //"EBHighInterestPayload",
928  "Barrel high interest crystal data payload;"
929  "Event size (kB);Nevts",
930  100,
931  0.,
932  200.);
933 
934  meVolEHI_ = book1D(ibooker,
935  "hVolEHI", //"EEHighInterestPayload",
936  "Endcap high interest crystal data payload;"
937  "Event size (kB);Nevts",
938  100,
939  0.,
940  200.);
941 
942  meVolHI_ = book1D(ibooker,
943  "hVolHI", //"EcalHighInterestPayload",
944  "ECAL high interest crystal data payload;"
945  "Event size (kB);Nevts",
946  100,
947  0.,
948  200.);
949 
950  meVolB_ = book1D(ibooker,
951  "hVolB", //"EBEventSize",
952  "Barrel data volume;Event size (kB);Nevts",
953  100,
954  0.,
955  200.);
956 
957  meVolE_ = book1D(ibooker,
958  "hVolE", //"EEEventSize",
959  "Endcap data volume;Event size (kB);Nevts",
960  100,
961  0.,
962  200.);
963 
964  meVol_ = book1D(ibooker,
965  "hVol", //"EcalEventSize",
966  "ECAL data volume;Event size (kB);Nevts",
967  100,
968  0.,
969  200.);
970 
971  meChOcc_ = bookProfile2D(ibooker,
972  "h2ChOcc", //"EcalChannelOccupancy",
973  "ECAL crystal channel occupancy after zero suppression;"
974  "iX -200 / iEta / iX + 100;"
975  "iY / iPhi (starting from -10^{o}!);"
976  "Event count rate",
977  401,
978  -200.5,
979  200.5,
980  360,
981  .5,
982  360.5);
983 
984  //TP
985  string tpUnit;
986  if (tpInGeV_)
987  tpUnit = string("GeV");
988  else
989  tpUnit = string("TP hw unit");
990  string title;
991  title = string("Trigger primitive TT E_{T};E_{T} ") + tpUnit + string(";Event Count");
992  meTp_ = bookProfile(ibooker,
993  "hTp", //"EcalTriggerPrimitiveEt",
994  title,
995  (tpInGeV_ ? 100 : 40),
996  0.,
997  (tpInGeV_ ? 10. : 40.));
998 
999  meTtf_ = bookProfile(ibooker,
1000  "hTtf", //"EcalTriggerTowerFlag",
1001  "Trigger primitive TT flag;Flag number;Event count",
1002  8,
1003  -.5,
1004  7.5);
1005 
1006  title = string("Trigger tower flag vs TP;E_{T}(TT) (") + tpUnit + string(");Flag number");
1007  meTtfVsTp_ = book2D(ibooker, "h2TtfVsTp", title, 100, 0., (tpInGeV_ ? 10. : 40.), 8, -.5, 7.5);
1008 
1009  meTtfVsEtSum_ = book2D(ibooker,
1010  "h2TtfVsEtSum",
1011  "Trigger tower flag vs #sumE_{T};"
1012  "E_{T}(TT) (GeV);"
1013  "TTF",
1014  100,
1015  0.,
1016  10.,
1017  8,
1018  -.5,
1019  7.5);
1020  title = string(
1021  "Trigger primitive Et (TP) vs #sumE_{T};"
1022  "E_{T} (sum) (GeV);"
1023  "E_{T} (TP) (") +
1024  tpUnit + string(")");
1025 
1026  meTpVsEtSum_ = book2D(ibooker, "h2TpVsEtSum", title, 100, 0., 10., 100, 0., (tpInGeV_ ? 10. : 40.));
1027 
1028  title = string(
1029  "Trigger primitive E_{T};"
1030  "iEta;"
1031  "iPhi;"
1032  "E_{T} (TP) (") +
1033  tpUnit + string(")");
1034  meTpMap_ = bookProfile2D(ibooker, "h2Tp", title, 57, -28.5, 28.5, 72, .5, 72.5);
1035 
1036  //SRF
1037  meFullRoRu_ = book2D(ibooker,
1038  "h2FRORu", //"EcalFullReadoutSRFlagMap",
1039  "Full Read-out readout unit;"
1040  "iX - 40 / iEta / iX + 20;"
1041  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1042  "Event count",
1043  80,
1044  -39.5,
1045  40.5,
1046  72,
1047  .5,
1048  72.5);
1049 
1050  meFullRoCnt_ = book1D(ibooker,
1051  "hFROCnt",
1052  "Number of Full-readout-flagged readout units;"
1053  "FRO RU count;Event count",
1054  300,
1055  -.5,
1056  299.5);
1057 
1058  meEbFullRoCnt_ = book1D(ibooker,
1059  "hEbFROCnt",
1060  "Number of EB Full-readout-flagged readout units;"
1061  "FRO RU count;Event count",
1062  200,
1063  -.5,
1064  199.5);
1065 
1066  meEeFullRoCnt_ = book1D(ibooker,
1067  "hEeFROCnt",
1068  "Number of EE Full-readout-flagged readout units;"
1069  "FRO RU count;Event count",
1070  200,
1071  -.5,
1072  199.5);
1073 
1074  meZs1Ru_ = book2D(ibooker,
1075  "h2Zs1Ru", //"EbZeroSupp1SRFlagMap",
1076  "Readout unit with ZS-thr-1 flag;"
1077  "iX - 40 / iEta / iX + 20;"
1078  "iY0 / iPhi0 (iPhi = 1 at phi = 0 rad);"
1079  "Event count",
1080  80,
1081  -39.5,
1082  40.5,
1083  72,
1084  .5,
1085  72.5);
1086 
1087  meForcedRu_ = book2D(ibooker,
1088  "h2ForcedRu", //"EcalReadoutUnitForcedBitMap",
1089  "ECAL readout unit with forced bit of SR flag on;"
1090  "iX - 40 / iEta / iX + 20;"
1091  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1092  "Event count",
1093  80,
1094  -39.5,
1095  40.5,
1096  72,
1097  .5,
1098  72.5);
1099 
1100  meLiTtf_ = bookProfile2D(ibooker,
1101  "h2LiTtf", //"EcalLowInterestTriggerTowerFlagMap",
1102  "Low interest trigger tower flags;"
1103  "iEta;"
1104  "iPhi;"
1105  "Event count",
1106  57,
1107  -28.5,
1108  28.5,
1109  72,
1110  .5,
1111  72.5);
1112 
1113  meMiTtf_ = bookProfile2D(ibooker,
1114  "h2MiTtf", //"EcalMidInterestTriggerTowerFlagMap",
1115  "Mid interest trigger tower flags;"
1116  "iEta;"
1117  "iPhi;"
1118  "Event count",
1119  57,
1120  -28.5,
1121  28.5,
1122  72,
1123  .5,
1124  72.5);
1125 
1126  meHiTtf_ = bookProfile2D(ibooker,
1127  "h2HiTtf", //"EcalHighInterestTriggerTowerFlagMap",
1128  "High interest trigger tower flags;"
1129  "iEta;"
1130  "iPhi;"
1131  "Event count",
1132  57,
1133  -28.5,
1134  28.5,
1135  72,
1136  .5,
1137  72.5);
1138 
1139  meForcedTtf_ = book2D(ibooker,
1140  "h2ForcedTtf", //"EcalTtfForcedBitMap",
1141  "Trigger tower flags with forced bit set;"
1142  "iEta;"
1143  "iPhi;"
1144  "Event count",
1145  57,
1146  -28.5,
1147  28.5,
1148  72,
1149  .5,
1150  72.5);
1151 
1152  const float ebMinNoise = -1.;
1153  const float ebMaxNoise = 1.;
1154 
1155  const float eeMinNoise = -1.;
1156  const float eeMaxNoise = 1.;
1157 
1158  const float ebMinE = ebMinNoise;
1159  const float ebMaxE = ebMaxNoise;
1160 
1161  const float eeMinE = eeMinNoise;
1162  const float eeMaxE = eeMaxNoise;
1163 
1164  const int evtMax = 500;
1165 
1166  meEbRecE_ = book1D(ibooker, "hEbRecE", "Crystal reconstructed energy;E (GeV);Event count", 100, ebMinE, ebMaxE);
1167 
1168  meEbEMean_ = bookProfile(ibooker, "hEbEMean", "EE <E_hit>;event #;<E_hit> (GeV)", evtMax, .5, evtMax + .5);
1169 
1170  meEbNoise_ = book1D(ibooker,
1171  "hEbNoise",
1172  "Crystal noise "
1173  "(rec E of crystal without deposited energy)"
1174  ";Rec E (GeV);Event count",
1175  100,
1176  ebMinNoise,
1177  ebMaxNoise);
1178 
1179  meEbLiZsFir_ = book1D(ibooker,
1180  "zsEbLiFIRemu",
1181  "Emulated ouput of ZS FIR filter for EB "
1182  "low interest crystals;"
1183  "ADC count*4;"
1184  "Event count",
1185  60,
1186  -30,
1187  30);
1188 
1189  meEbHiZsFir_ = book1D(ibooker,
1190  "zsEbHiFIRemu",
1191  "Emulated ouput of ZS FIR filter for EB "
1192  "high interest crystals;"
1193  "ADC count*4;"
1194  "Event count",
1195  60,
1196  -30,
1197  30);
1198 
1199  //TODO: Fill this histogram...
1200  // meEbIncompleteRUZsFir_ = book1D(ibooker, "zsEbIncompleteRUFIRemu",
1201  // "Emulated ouput of ZS FIR filter for EB "
1202  // "incomplete FRO-flagged RU;"
1203  // "ADC count*4;"
1204  // "Event count",
1205  // 60, -30, 30);
1206 
1207  meEbSimE_ = book1D(ibooker, "hEbSimE", "EB hit crystal simulated energy", 100, ebMinE, ebMaxE);
1208 
1209  meEbRecEHitXtal_ = book1D(ibooker, "hEbRecEHitXtal", "EB rec energy of hit crystals", 100, ebMinE, ebMaxE);
1210 
1211  meEbRecVsSimE_ = book2D(ibooker,
1212  "hEbRecVsSimE",
1213  "Crystal simulated vs reconstructed energy;"
1214  "Esim (GeV);Erec GeV);Event count",
1215  100,
1216  ebMinE,
1217  ebMaxE,
1218  100,
1219  ebMinE,
1220  ebMaxE);
1221 
1222  meEbNoZsRecVsSimE_ = book2D(ibooker,
1223  "hEbNoZsRecVsSimE",
1224  "Crystal no-zs simulated vs reconstructed "
1225  "energy;"
1226  "Esim (GeV);Erec GeV);Event count",
1227  100,
1228  ebMinE,
1229  ebMaxE,
1230  100,
1231  ebMinE,
1232  ebMaxE);
1233 
1234  meEeRecE_ = book1D(ibooker,
1235  "hEeRecE",
1236  "EE crystal reconstructed energy;E (GeV);"
1237  "Event count",
1238  100,
1239  eeMinE,
1240  eeMaxE);
1241 
1242  meEeEMean_ = bookProfile(ibooker, "hEeEMean", "<E_{EE hit}>;event;<E_{hit}> (GeV)", evtMax, .5, evtMax + .5);
1243 
1244  meEeNoise_ = book1D(ibooker,
1245  "hEeNoise",
1246  "EE crystal noise "
1247  "(rec E of crystal without deposited energy);"
1248  "E (GeV);Event count",
1249  200,
1250  eeMinNoise,
1251  eeMaxNoise);
1252 
1253  meEeLiZsFir_ = book1D(ibooker,
1254  "zsEeLiFIRemu",
1255  "Emulated ouput of ZS FIR filter for EE "
1256  "low interest crystals;"
1257  "ADC count*4;"
1258  "Event count",
1259  60,
1260  -30,
1261  30);
1262 
1263  meEeHiZsFir_ = book1D(ibooker,
1264  "zsEeHiFIRemu",
1265  "Emulated ouput of ZS FIR filter for EE "
1266  "high interest crystals;"
1267  "ADC count*4;"
1268  "Event count",
1269  60,
1270  -30,
1271  30);
1272 
1273  //TODO: Fill this histogram...
1274  // meEeIncompleteRUZsFir_ = book1D(ibooker, "zsEeIncompleteRUFIRemu",
1275  // "Emulated ouput of ZS FIR filter for EE "
1276  // "incomplete FRO-flagged RU;"
1277  // "ADC count*4;"
1278  // "Event count",
1279  // 60, -30, 30);
1280 
1281  meEeSimE_ = book1D(ibooker, "hEeSimE", "EE hit crystal simulated energy", 100, eeMinE, eeMaxE);
1282 
1283  meEeRecEHitXtal_ = book1D(ibooker, "hEeRecEHitXtal", "EE rec energy of hit crystals", 100, eeMinE, eeMaxE);
1284 
1285  meEeRecVsSimE_ = book2D(ibooker,
1286  "hEeRecVsSimE",
1287  "EE crystal simulated vs reconstructed energy;"
1288  "Esim (GeV);Erec GeV);Event count",
1289  100,
1290  eeMinE,
1291  eeMaxE,
1292  100,
1293  eeMinE,
1294  eeMaxE);
1295 
1296  meEeNoZsRecVsSimE_ = book2D(ibooker,
1297  "hEeNoZsRecVsSimE",
1298  "EE crystal no-zs simulated vs "
1299  "reconstructed "
1300  "energy;Esim (GeV);Erec GeV);Event count",
1301  100,
1302  eeMinE,
1303  eeMaxE,
1304  100,
1305  eeMinE,
1306  eeMaxE);
1307 
1308  meSRFlagsConsistency_ = book2D(ibooker,
1309  "hSRAlgoErrorMap",
1310  "TTFlags and SR Flags mismatch;"
1311  "iX - 40 / iEta / iX + 20;"
1312  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1313  "Event count",
1314  80,
1315  -39.5,
1316  40.5,
1317  72,
1318  .5,
1319  72.5);
1320 
1321  //Readout Units histos (interest/Ncrystals)
1322  meIncompleteFROMap_ = book2D(ibooker,
1323  "hIncompleteFROMap",
1324  "Incomplete full-readout-flagged readout units;"
1325  "iX - 40 / iEta / iX + 20;"
1326  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1327  "Event count",
1328  80,
1329  -39.5,
1330  40.5,
1331  72,
1332  .5,
1333  72.5);
1334 
1335  meIncompleteFROCnt_ = book1D(ibooker,
1336  "hIncompleteFROCnt",
1337  "Number of incomplete full-readout-flagged "
1338  "readout units;"
1339  "Number of RUs;Event count;",
1340  200,
1341  -.5,
1342  199.5);
1343 
1345  "hIncompleteFRORateMap",
1346  "Incomplete full-readout-flagged readout units;"
1347  "iX - 40 / iEta / iX + 20;"
1348  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1349  "Incomplete error rate",
1350  80,
1351  -39.5,
1352  40.5,
1353  72,
1354  .5,
1355  72.5);
1356 
1357  meDroppedFROMap_ = book2D(ibooker,
1358  "hDroppedFROMap",
1359  "Dropped full-readout-flagged readout units;"
1360  "iX - 40 / iEta / iX + 20;"
1361  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1362  "Event count",
1363  80,
1364  -39.5,
1365  40.5,
1366  72,
1367  .5,
1368  72.5);
1369 
1370  meDroppedFROCnt_ = book1D(ibooker,
1371  "hDroppedFROCnt",
1372  "Number of dropped full-readout-flagged "
1373  "RU count;RU count;Event count",
1374  200,
1375  -.5,
1376  199.5);
1377 
1378  meCompleteZSCnt_ = book1D(ibooker,
1379  "hCompleteZsCnt",
1380  "Number of zero-suppressed-flagged RU fully "
1381  "readout;"
1382  "RU count;Event count",
1383  200,
1384  -.5,
1385  199.5);
1386 
1387  stringstream buf;
1388  buf << "Number of LI EB channels below the " << ebZsThr_ / 4.
1389  << " ADC count ZS threshold;"
1390  "Channel count;Event count",
1391  meEbZsErrCnt_ = book1D(ibooker, "hEbZsErrCnt", buf.str(), 200, -.5, 199.5);
1392 
1393  buf.str("");
1394  buf << "Number of LI EE channels below the " << eeZsThr_ / 4.
1395  << " ADC count ZS theshold;"
1396  "Channel count;Event count",
1397  meEeZsErrCnt_ = book1D(ibooker, "hEeZsErrCnt", buf.str(), 200, -.5, 199.5);
1398 
1399  meZsErrCnt_ = book1D(ibooker,
1400  "hZsErrCnt",
1401  "Number of LI channels below the ZS threshold;"
1402  "Channel count;Event count",
1403  200,
1404  -.5,
1405  199.5);
1406 
1407  meEbZsErrType1Cnt_ = book1D(ibooker,
1408  "hEbZsErrType1Cnt",
1409  "Number of EB channels below the ZS "
1410  "threshold in a LI but fully readout RU;"
1411  "Channel count;Event count;",
1412  200,
1413  -.5,
1414  199.5);
1415 
1416  meEeZsErrType1Cnt_ = book1D(ibooker,
1417  "hEeZsErrType1Cnt",
1418  "Number EE channels below the ZS threshold"
1419  " in a LI but fully readout RU;"
1420  "Channel count;Event count",
1421  200,
1422  -.5,
1423  199.5);
1424 
1425  meZsErrType1Cnt_ = book1D(ibooker,
1426  "hZsErrType1Cnt",
1427  "Number of LI channels below the ZS threshold "
1428  "in a LI but fully readout RU;"
1429  "Channel count;Event count",
1430  200,
1431  -.5,
1432  199.5);
1433 
1435  "hDroppedFRORateMap",
1436  "Dropped full-readout-flagged readout units"
1437  "iX - 40 / iEta / iX + 20;"
1438  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1439  "Dropping rate",
1440  80,
1441  -39.5,
1442  40.5,
1443  72,
1444  .5,
1445  72.5);
1446 
1447  meCompleteZSMap_ = book2D(ibooker,
1448  "hCompleteZSMap",
1449  "Complete zero-suppressed-flagged readout units;"
1450  "iX - 40 / iEta / iX + 20;"
1451  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1452  "Event count",
1453  80,
1454  -39.5,
1455  40.5,
1456  72,
1457  .5,
1458  72.5);
1459 
1461  "hCompleteZSRate",
1462  "Complete zero-suppressed-flagged readout units;"
1463  "iX - 40 / iEta / iX + 20;"
1464  "iY / iPhi (iPhi = 1 at phi = 0 rad);"
1465  "Completeness rate",
1466  80,
1467  -39.5,
1468  40.5,
1469  72,
1470  .5,
1471  72.5);
1472 
1473  //print list of available histograms (must be called after
1474  //the bookXX methods):
1476 
1477  //check the histList parameter:
1478  stringstream s;
1479  for (set<string>::iterator it = histList_.begin(); it != histList_.end(); ++it) {
1480  if (*it != string("all") && availableHistList_.find(*it) == availableHistList_.end()) {
1481  s << (s.str().empty() ? "" : ", ") << *it;
1482  }
1483  }
1484  if (!s.str().empty()) {
1485  LogWarning("Configuration") << "Parameter 'histList' contains some unknown histogram(s). "
1486  "Check spelling. Following name were not found: "
1487  << s.str();
1488  }
1489 }
MonitorElement * bookProfile2D(DQMStore::IBooker &, const std::string &name, const std::string &title, int nbinx, double xmin, double xmax, int nbiny, double ymin, double ymax, const char *option="")
MonitorElement * book2D(DQMStore::IBooker &, const std::string &name, const std::string &title, int nxbins, double xmin, double xmax, int nybins, double ymin, double ymax)
MonitorElement * book1D(DQMStore::IBooker &, const std::string &name, const std::string &title, int nbins, double xmin, double xmax)
MonitorElement * bookProfile(DQMStore::IBooker &, const std::string &name, const std::string &title, int nbins, double xmin, double xmax)
std::map< std::string, std::string > availableHistList_
Log< level::Warning, false > LogWarning
UseScope< MonitorElementData::Scope::RUN > UseRunScope
Definition: DQMStore.h:541
static const unsigned nDccs_
Total number of DCCs.
MonitorElement * bookFloat(DQMStore::IBooker &, const std::string &name)

◆ bookProfile()

EcalSelectiveReadoutValidation::MonitorElement * EcalSelectiveReadoutValidation::bookProfile ( DQMStore::IBooker ibook,
const std::string &  name,
const std::string &  title,
int  nbins,
double  xmin,
double  xmax 
)
private

Definition at line 2014 of file EcalSelectiveReadoutValidation.cc.

References dqm::implementation::IBooker::bookProfile(), Exception, Skims_PA_cff::name, LaserClient_cfi::nbins, registerHist(), mps_fire::result, runGCPTkAlMap::title, TrackerOfflineValidation_Dqm_cff::xmax, and TrackerOfflineValidation_Dqm_cff::xmin.

Referenced by bookHistograms().

2015  {
2016  if (!registerHist(name, title))
2017  return nullptr; //this histo is disabled
2018  MonitorElement* result = ibook.bookProfile(name, title, nbins, xmin, xmax, 0, 0, 0);
2019  if (result == nullptr) {
2020  throw cms::Exception("Histo") << "Failed to book histogram " << name;
2021  }
2022  return result;
2023 }
bool registerHist(const std::string &name, const std::string &title)
MonitorElement * bookProfile(TString const &name, TString const &title, int nchX, double lowX, double highX, int, double lowY, double highY, char const *option="s", FUNC onbooking=NOOP())
Definition: DQMStore.h:399

◆ bookProfile2D()

EcalSelectiveReadoutValidation::MonitorElement * EcalSelectiveReadoutValidation::bookProfile2D ( DQMStore::IBooker ibook,
const std::string &  name,
const std::string &  title,
int  nbinx,
double  xmin,
double  xmax,
int  nbiny,
double  ymin,
double  ymax,
const char *  option = "" 
)
private

Definition at line 2025 of file EcalSelectiveReadoutValidation.cc.

References dqm::implementation::IBooker::bookProfile2D(), Exception, Skims_PA_cff::name, fileinputsource_cfi::option, registerHist(), mps_fire::result, runGCPTkAlMap::title, TrackerOfflineValidation_Dqm_cff::xmax, TrackerOfflineValidation_Dqm_cff::xmin, L1TOccupancyClient_cfi::ymax, and L1TOccupancyClient_cfi::ymin.

Referenced by bookHistograms().

2034  {
2035  if (!registerHist(name, title))
2036  return nullptr; //this histo is disabled
2037  MonitorElement* result = ibook.bookProfile2D(name, title, nbinx, xmin, xmax, nbiny, ymin, ymax, 0, 0, 0, option);
2038  if (result == nullptr) {
2039  throw cms::Exception("Histo") << "Failed to book histogram " << name;
2040  }
2041  return result;
2042 }
MonitorElement * bookProfile2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, double lowZ, double highZ, char const *option="s", FUNC onbooking=NOOP())
Definition: DQMStore.h:476
bool registerHist(const std::string &name, const std::string &title)

◆ checkSrApplication()

template<class T >
void EcalSelectiveReadoutValidation::checkSrApplication ( const edm::Event event,
T srfs 
)
private

Checks application of SR decision by the DCC.

Parameters
eventevent currently analyzed.
srfsSelective readou flags

Definition at line 2322 of file EcalSelectiveReadoutValidation.cc.

References dccCh(), fill(), RemoveAddSevLevel::flag, getCrystalCount(), meCompleteZSMap_, meCompleteZSRateMap_, meDroppedFROMap_, meDroppedFRORateMap_, meIncompleteFROMap_, meIncompleteFRORateMap_, minDccId_, nCompleteZS_, nDroppedFRO_, nIncompleteFRO_, nPerRu_, ruGraphX(), ruGraphY(), srApplicationErrorLog_, EcalSrFlag::SRF_FULL, EcalSrFlag::SRF_ZS1, and EcalSrFlag::SRF_ZS2.

Referenced by analyze().

2322  {
2323  typedef typename T::const_iterator SrFlagCollectionConstIt;
2324  typedef typename T::key_type MyRuDetIdType;
2325 
2326  for (SrFlagCollectionConstIt itSrf = srfs.begin(); itSrf != srfs.end(); ++itSrf) {
2327  int flag = itSrf->value() & ~EcalSrFlag::SRF_FORCED_MASK;
2328  pair<int, int> ru = dccCh(itSrf->id());
2329 
2330  if (flag == EcalSrFlag::SRF_FULL) {
2331  if (nPerRu_[ru.first - minDccId_][ru.second - 1] == getCrystalCount(ru.first, ru.second)) { //no error
2332  fill(meIncompleteFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 0);
2333  fill(meDroppedFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 0);
2334  } else if (nPerRu_[ru.first - minDccId_][ru.second - 1] == 0) { //tower dropped!
2335  fill(meIncompleteFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 0);
2336  fill(meDroppedFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 1);
2337  fill(meDroppedFROMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 1);
2338  ++nDroppedFRO_;
2339  srApplicationErrorLog_ << event.id() << ": Flag of RU " << itSrf->id() << " (DCC " << ru.first << " ch "
2340  << ru.second << ") is 'Full readout' "
2341  << "while none of its channel was read out\n";
2342  } else { //tower partially read out
2343  fill(meIncompleteFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 1);
2344  fill(meDroppedFRORateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 0);
2345  fill(meIncompleteFROMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 1);
2346  ++nIncompleteFRO_;
2347  srApplicationErrorLog_ << event.id() << ": Flag of RU" << itSrf->id() << " (DCC " << ru.first << " ch "
2348  << ru.second << ") is 'Full readout' "
2349  << "while only " << nPerRu_[ru.first - minDccId_][ru.second - 1] << " / "
2350  << getCrystalCount(ru.first, ru.second) << " channels were read out.\n";
2351  }
2352  }
2353 
2355  if (nPerRu_[ru.first - minDccId_][ru.second - 1] == getCrystalCount(ru.first, ru.second)) {
2356  //ZS readout unit whose every channel was read
2357 
2358  fill(meCompleteZSMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()));
2359  fill(meCompleteZSRateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 1);
2360 
2361  ++nCompleteZS_;
2362  } else {
2363  fill(meCompleteZSRateMap_, ruGraphX(itSrf->id()), ruGraphY(itSrf->id()), 0);
2364  }
2365  }
2366  }
2367 }
std::ofstream srApplicationErrorLog_
Output ascii file for unconsistency between Xtals and RU Flags.
int nIncompleteFRO_
Counter of FRO-flagged RU only partial data.
static const int SRF_ZS2
Definition: EcalSrFlag.h:21
int ruGraphY(const EcalScDetId &id) const
std::pair< int, int > dccCh(const DetId &xtalId) const
int ruGraphX(const EcalScDetId &id) const
static const int SRF_FULL
Definition: EcalSrFlag.h:24
int nCompleteZS_
Counter of ZS-flagged RU fully read out.
static const int SRF_ZS1
Definition: EcalSrFlag.h:18
int nDroppedFRO_
Counter of FRO-flagged RU dropped from data.
void fill(MonitorElement *me, float x)

◆ cIndex2iEta()

int EcalSelectiveReadoutValidation::cIndex2iEta ( int  i) const
inlineprivate

converse of iEta2cIndex() method.

Definition at line 248 of file EcalSelectiveReadoutValidation.h.

References mps_fire::i.

Referenced by dccCh().

248 { return (i < 85) ? i - 85 : i - 84; }

◆ cIndex2iPhi()

int EcalSelectiveReadoutValidation::cIndex2iPhi ( int  i) const
inlineprivate

converse of iPhi2cIndex() method.

Definition at line 252 of file EcalSelectiveReadoutValidation.h.

References mps_fire::i.

Referenced by dccCh().

252 { return (i + 11) % 360; }

◆ cIndex2iTtEta()

int EcalSelectiveReadoutValidation::cIndex2iTtEta ( int  i) const
inlineprivate

converse of iTtEta2cIndex() method.

Definition at line 275 of file EcalSelectiveReadoutValidation.h.

References mps_fire::i.

Referenced by analyzeTP().

275 { return (i < 27) ? i - 28 : i - 27; }

◆ cIndex2iTtPhi()

int EcalSelectiveReadoutValidation::cIndex2iTtPhi ( int  i) const
inlineprivate

converse of iTtPhi2cIndex() method.

Definition at line 279 of file EcalSelectiveReadoutValidation.h.

References mps_fire::i.

Referenced by analyzeTP().

279 { return i + 1; }

◆ cIndex2iXY()

int EcalSelectiveReadoutValidation::cIndex2iXY ( int  iX0) const
inlineprivate

converse of iXY2cIndex() method.

Definition at line 244 of file EcalSelectiveReadoutValidation.h.

244 { return iX0 + 1; }

◆ compareSrfColl()

template<class T >
void EcalSelectiveReadoutValidation::compareSrfColl ( const edm::Event event,
T srfFromData,
T computedSrf 
)
private

Compares two SR flag collection, flags read from data and computed flags. Descripencies are recorded in relevant histogram and log file.

Template Parameters
Tcollection type. Must be either an EESrFlagCollection or an EBSrFlagCollection.
Parameters
eventevent currently analyzed. Used in logs.
srfFromDataSR flag collection read from data
compareSrfSR flag collection computed from TTF by SRP emulation

Definition at line 2228 of file EcalSelectiveReadoutValidation.cc.

References dccCh(), fill(), logErrForDccs_, meSRFlagsConsistency_, minDccId_, ruGraphX(), ruGraphY(), and srpAlgoErrorLog_.

Referenced by analyze().

2228  {
2229  typedef typename T::const_iterator SrFlagCollectionConstIt;
2230  typedef typename T::key_type MyRuDetIdType;
2231  SrFlagCollectionConstIt itSrfFromData = srfFromData.begin();
2232  SrFlagCollectionConstIt itComputedSr = computedSrf.begin();
2233 
2234  while (itSrfFromData != srfFromData.end() || itComputedSr != computedSrf.end()) {
2235  MyRuDetIdType inconsistentRu = 0;
2236  bool inconsistent = false;
2237  if (itComputedSr == computedSrf.end() ||
2238  (itSrfFromData != srfFromData.end() && itSrfFromData->id() < itComputedSr->id())) {
2239  //computedSrf is missig a detid found in srfFromData
2240  pair<int, int> ch = dccCh(itSrfFromData->id());
2241  srpAlgoErrorLog_ << event.id() << ": " << itSrfFromData->id() << ", DCC " << ch.first << " ch " << ch.second
2242  << " found in data (SRF:" << itSrfFromData->flagName()
2243  << ") but not in the set of SRFs computed from the data TTF.\n";
2244  inconsistentRu = itSrfFromData->id();
2245  inconsistent = true;
2246  ++itSrfFromData;
2247  } else if (itSrfFromData == srfFromData.end() ||
2248  (itComputedSr != computedSrf.end() && itComputedSr->id() < itSrfFromData->id())) {
2249  //ebSrFlags is missing a detid found in computedSrf
2250  pair<int, int> ch = dccCh(itComputedSr->id());
2251  if (logErrForDccs_[ch.first - minDccId_]) {
2252  srpAlgoErrorLog_ << event.id() << ": " << itComputedSr->id() << ", DCC " << ch.first << " ch " << ch.second
2253  << " not found in data. Computed SRF: " << itComputedSr->flagName() << ".\n";
2254  inconsistentRu = itComputedSr->id();
2255  inconsistent = true;
2256  }
2257  ++itComputedSr;
2258  } else {
2259  //*itSrfFromData and *itComputedSr has same detid
2260  if (itComputedSr->value() != itSrfFromData->value()) {
2261  pair<int, int> ch = dccCh(itSrfFromData->id());
2262  srpAlgoErrorLog_ << event.id() << ", " << itSrfFromData->id() << ", DCC " << ch.first << " ch " << ch.second
2263  << ", SRF inconsistency: "
2264  << "from data: " << itSrfFromData->flagName()
2265  << ", computed from TTF: " << itComputedSr->flagName() << "\n";
2266  inconsistentRu = itComputedSr->id();
2267  inconsistent = true;
2268  }
2269  if (itComputedSr != computedSrf.end())
2270  ++itComputedSr;
2271  if (itSrfFromData != srfFromData.end())
2272  ++itSrfFromData;
2273  }
2274 
2275  if (inconsistent)
2276  fill(meSRFlagsConsistency_, ruGraphX(inconsistentRu), ruGraphY(inconsistentRu));
2277  }
2278 }
int ruGraphY(const EcalScDetId &id) const
std::pair< int, int > dccCh(const DetId &xtalId) const
int ruGraphX(const EcalScDetId &id) const
void fill(MonitorElement *me, float x)
std::ofstream srpAlgoErrorLog_
Output ascii file for unconsistency on SR flags.

◆ configFirWeights()

void EcalSelectiveReadoutValidation::configFirWeights ( const std::vector< double > &  weightsForZsFIR)
private

Configure DCC ZS FIR weights. Heuristic is used to determine if input weights are normalized weights or integer weights in the hardware representation.

Parameters
weightsForZsFIRweights from configuration file

Definition at line 2160 of file EcalSelectiveReadoutValidation.cc.

References Exception, firstFIRSample_, firWeights_, getFIRWeights(), mps_fire::i, createfilelist::int, dqm-mbProfile::log, and mathSSE::sqrt().

Referenced by EcalSelectiveReadoutValidation().

2160  {
2161  bool notNormalized = false;
2162  bool notInt = false;
2163  for (unsigned i = 0; i < weightsForZsFIR.size(); ++i) {
2164  if (weightsForZsFIR[i] > 1.)
2165  notNormalized = true;
2166  if ((int)weightsForZsFIR[i] != weightsForZsFIR[i])
2167  notInt = true;
2168  }
2169  if (notInt && notNormalized) {
2170  throw cms::Exception("InvalidParameter") << "weigtsForZsFIR paramater values are not valid: they "
2171  << "must either be integer and uses the hardware representation "
2172  << "of the weights or less or equal than 1 and used the normalized "
2173  << "representation.";
2174  }
2175  LogInfo log("DccFir");
2176  if (notNormalized) {
2177  firWeights_ = vector<int>(weightsForZsFIR.size());
2178  for (unsigned i = 0; i < weightsForZsFIR.size(); ++i) {
2179  firWeights_[i] = (int)weightsForZsFIR[i];
2180  }
2181  } else {
2182  firWeights_ = getFIRWeights(weightsForZsFIR);
2183  }
2184 
2185  log << "Input weights for FIR: ";
2186  for (unsigned i = 0; i < weightsForZsFIR.size(); ++i) {
2187  log << weightsForZsFIR[i] << "\t";
2188  }
2189 
2190  double s2 = 0.;
2191  log << "\nActual FIR weights: ";
2192  for (unsigned i = 0; i < firWeights_.size(); ++i) {
2193  log << firWeights_[i] << "\t";
2194  s2 += firWeights_[i] * firWeights_[i];
2195  }
2196 
2197  s2 = sqrt(s2);
2198  log << "\nNormalized FIR weights after hw representation rounding: ";
2199  for (unsigned i = 0; i < firWeights_.size(); ++i) {
2200  log << firWeights_[i] / (double)(1 << 10) << "\t";
2201  }
2202 
2203  log << "\nFirst FIR sample: " << firstFIRSample_;
2204 }
T sqrt(T t)
Definition: SSEVec.h:19
static std::vector< int > getFIRWeights(const std::vector< double > &normalizedWeights)

◆ dccCh()

pair< int, int > EcalSelectiveReadoutValidation::dccCh ( const DetId xtalId) const
private

Retrieves the logical number of the DCC reading a given crystal channel.

Parameters
xtarIdcrystal channel identifier
Returns
the DCC logical number starting from 1. Retrieves the DCC channel reading out a crystal, the crystals of a barrel trigger tower or the crystals, of an endcap supercrystal.
Parameters
xtarIdcrystal channel, barrel trigger tower or endcap supercrystal identifier
Returns
pair of (DCC ID, DCC channel)

Definition at line 1791 of file EcalSelectiveReadoutValidation.cc.

References cIndex2iEta(), cIndex2iPhi(), EcalElectronicsId::dccId(), TauDecayModes::dec, DetId::det(), DetId::Ecal, EcalBarrel, EcalEndcap, EcalTriggerTower, elecMap_, Exception, EcalElectronicsMapping::getDCCandSC(), EcalElectronicsMapping::getElectronicsId(), iTtEta2cIndex(), iTtPhi2cIndex(), maxDccId_, minDccId_, nOneEeTtEta, DetId::rawId(), mps_fire::result, DetId::subdetId(), and EcalElectronicsId::towerId().

Referenced by anaDigi(), analyzeEB(), analyzeEE(), checkSrApplication(), compareSrfColl(), and dccId().

1791  {
1792  if (detId.det() != DetId::Ecal) {
1793  throw cms::Exception("InvalidParameter") << "Wrong type of DetId passed to the "
1794  "EcalSelectiveReadoutValidation::dccCh(const DetId&). "
1795  "An ECAL DetId was expected.\n";
1796  }
1797 
1798  DetId xtalId;
1799  switch (detId.subdetId()) {
1800  case EcalTriggerTower: //Trigger tower
1801  {
1802  const EcalTrigTowerDetId tt = detId;
1803  //pick up one crystal of the trigger tower: they are however all readout by
1804  //the same DCC channel in the barrel.
1805  //Arithmetic is easier on the "c" indices:
1806  const int iTtPhi0 = iTtPhi2cIndex(tt.iphi());
1807  const int iTtEta0 = iTtEta2cIndex(tt.ieta());
1808  const int oneXtalPhi0 = iTtPhi0 * 5;
1809  const int oneXtalEta0 = (iTtEta0 - nOneEeTtEta) * 5;
1810 
1811  xtalId = EBDetId(cIndex2iEta(oneXtalEta0), cIndex2iPhi(oneXtalPhi0));
1812  } break;
1813  case EcalEndcap:
1814  if (detId.rawId() & 0x8000) { //Supercrystal
1815  return elecMap_->getDCCandSC(EcalScDetId(detId));
1816  } else { //EE crystal
1817  xtalId = detId;
1818  }
1819  break;
1820  case EcalBarrel: //EB crystal
1821  xtalId = detId;
1822  break;
1823  default:
1824  throw cms::Exception("InvalidParameter")
1825  << "Wrong type of DetId passed to the method "
1826  "EcalSelectiveReadoutValidation::dccCh(const DetId&). "
1827  "A valid EcalTriggerTower, EcalBarrel or EcalEndcap DetId was expected. "
1828  "detid = "
1829  << xtalId.rawId() << ".\n";
1830  }
1831 
1832  const EcalElectronicsId& EcalElecId = elecMap_->getElectronicsId(xtalId);
1833 
1834  pair<int, int> result;
1835  result.first = EcalElecId.dccId();
1836 
1837  if (result.first < minDccId_ || result.second > maxDccId_) {
1838  throw cms::Exception("OutOfRange") << "Got an invalid DCC ID, DCCID = " << result.first << " for DetId 0x" << hex
1839  << detId.rawId() << " and 0x" << xtalId.rawId() << dec << "\n";
1840  }
1841 
1842  result.second = EcalElecId.towerId();
1843 
1844  if (result.second < 1 || result.second > 68) {
1845  throw cms::Exception("OutOfRange") << "Got an invalid DCC channel ID, DCC_CH = " << result.second << " for DetId 0x"
1846  << hex << detId.rawId() << " and 0x" << xtalId.rawId() << dec << "\n";
1847  }
1848 
1849  return result;
1850 }
std::pair< int, int > getDCCandSC(EcalScDetId id) const
Ecal readout channel identification [32:20] Unused (so far) [19:13] DCC id [12:6] tower [5:3] strip [...
int dccId() const
get the DCC (Ecal Local DCC value not global one) id
Definition: TTTypes.h:54
int towerId() const
get the tower id
static const int nOneEeTtEta
Number of Trigger Towers in an endcap along Eta.
Definition: DetId.h:17
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
EcalElectronicsId getElectronicsId(const DetId &id) const
Get the electronics id for this det id.
const EcalElectronicsMapping * elecMap_

◆ dccId() [1/2]

int EcalSelectiveReadoutValidation::dccId ( const EcalScDetId detId) const
private

Retrieves the ID of the DCC reading a readout unit

Parameters
detIddetid of the readout unit

Definition at line 2280 of file EcalSelectiveReadoutValidation.cc.

References elecMap_, and EcalElectronicsMapping::getDCCandSC().

Referenced by selectFedsForLog().

2280 { return elecMap_->getDCCandSC(detId).first; }
std::pair< int, int > getDCCandSC(EcalScDetId id) const
const EcalElectronicsMapping * elecMap_

◆ dccId() [2/2]

int EcalSelectiveReadoutValidation::dccId ( const EcalTrigTowerDetId detId) const
private

Definition at line 2282 of file EcalSelectiveReadoutValidation.cc.

References dccCh(), Exception, and EcalTrigTowerDetId::ietaAbs().

2282  {
2283  if (detId.ietaAbs() > 17) {
2284  throw cms::Exception("InvalidArgument")
2285  << "Argument of EcalSelectiveReadoutValidation::dccId(const EcalTrigTowerDetId&) "
2286  << "must be a barrel trigger tower Id\n";
2287  }
2288  return dccCh(detId).first;
2289 }
std::pair< int, int > dccCh(const DetId &xtalId) const
int ietaAbs() const
get the absolute value of the tower ieta

◆ dccZsFIR()

int EcalSelectiveReadoutValidation::dccZsFIR ( const EcalDataFrame frame,
const std::vector< int > &  firWeights,
int  firstFIRSample,
bool *  saturated = nullptr 
)
staticprivate

Emulates the DCC zero suppression FIR filter. If one of the time sample is not in gain 12, numeric_limits<int>::max() is returned.

Parameters
framedata frame
firWeightsTAP weights
firstFIRSampleindex (starting from 1) of the first time sample to be used in the filter
saturatedif not null, *saturated is set to true if all the time sample are not in gain 12 and set to false otherwise.
Returns
FIR output or numeric_limits<int>::max().

Definition at line 2100 of file EcalSelectiveReadoutValidation.cc.

References LogTrace, SiStripPI::max, ecalGpuTask_cfi::sample, and w().

Referenced by analyzeEB(), and analyzeEE().

2103  {
2104  const int nFIRTaps = 6;
2105  //FIR filter weights:
2106  const vector<int>& w = firWeights;
2107 
2108  //accumulator used to compute weighted sum of samples
2109  int acc = 0;
2110  bool gain12saturated = false;
2111  const int gain12 = 0x01;
2112  const int lastFIRSample = firstFIRSample + nFIRTaps - 1;
2113  //LogDebug("DccFir") << "DCC FIR operation: ";
2114  int iWeight = 0;
2115  for (int iSample = firstFIRSample - 1; iSample < lastFIRSample; ++iSample, ++iWeight) {
2116  if (iSample >= 0 && iSample < frame.size()) {
2117  EcalMGPASample sample(frame[iSample]);
2118  if (sample.gainId() != gain12)
2119  gain12saturated = true;
2120  LogTrace("DccFir") << (iSample >= firstFIRSample ? "+" : "") << sample.adc() << "*(" << w[iWeight] << ")";
2121  acc += sample.adc() * w[iWeight];
2122  } else {
2123  edm::LogWarning("DccFir") << __FILE__ << ":" << __LINE__
2124  << ": Not enough samples in data frame or 'ecalDccZs1stSample' module "
2125  "parameter is not valid...";
2126  }
2127  }
2128  LogTrace("DccFir") << "\n";
2129  //discards the 8 LSBs
2130  //(shift operator cannot be used on negative numbers because
2131  // the result depends on compilator implementation)
2132  acc = (acc >= 0) ? (acc >> 8) : -(-acc >> 8);
2133  //ZS passed if weighted sum acc above ZS threshold or if
2134  //one sample has a lower gain than gain 12 (that is gain 12 output
2135  //is saturated)
2136 
2137  LogTrace("DccFir") << "acc: " << acc << "\n"
2138  << "saturated: " << (gain12saturated ? "yes" : "no") << "\n";
2139 
2140  if (saturated) {
2141  *saturated = gain12saturated;
2142  }
2143 
2144  return gain12saturated ? numeric_limits<int>::max() : acc;
2145 }
T w() const
#define LogTrace(id)
Log< level::Warning, false > LogWarning

◆ dqmBeginRun()

void EcalSelectiveReadoutValidation::dqmBeginRun ( edm::Run const &  r,
edm::EventSetup const &  es 
)
overridevirtual

Reimplemented from DQMOneEDAnalyzer<>.

Definition at line 846 of file EcalSelectiveReadoutValidation.cc.

References ecalmapping, elecMap_, edm::EventSetup::getData(), hTriggerTowerMap, initAsciiFile(), and triggerTowerMap_.

846  {
847  // endcap mapping
848  triggerTowerMap_ = &es.getData(hTriggerTowerMap);
849 
850  //electronics map
851  elecMap_ = &es.getData(ecalmapping);
852 
853  initAsciiFile();
854 }
edm::ESGetToken< EcalTrigTowerConstituentsMap, IdealGeometryRecord > hTriggerTowerMap
edm::ESGetToken< EcalElectronicsMapping, EcalMappingRcd > ecalmapping
const EcalTrigTowerConstituentsMap * triggerTowerMap_
const EcalElectronicsMapping * elecMap_

◆ dqmEndRun()

void EcalSelectiveReadoutValidation::dqmEndRun ( const edm::Run r,
const edm::EventSetup c 
)
overrideprotectedvirtual

◆ fill() [1/4]

void EcalSelectiveReadoutValidation::fill ( MonitorElement me,
float  x 
)
inlineprivate

Wrapper to fill methods of DQM monitor elements.

Definition at line 350 of file EcalSelectiveReadoutValidation.h.

References hlt_dqm_clientPB-live_cfg::me, and x.

Referenced by analyze(), analyzeDataVolume(), analyzeEB(), analyzeEE(), analyzeTP(), checkSrApplication(), and compareSrfColl().

350  {
351  if (me)
352  me->Fill(x);
353  }

◆ fill() [2/4]

void EcalSelectiveReadoutValidation::fill ( MonitorElement me,
float  x,
float  yw 
)
inlineprivate

Definition at line 354 of file EcalSelectiveReadoutValidation.h.

References hlt_dqm_clientPB-live_cfg::me, and x.

354  {
355  if (me)
356  me->Fill(x, yw);
357  }

◆ fill() [3/4]

void EcalSelectiveReadoutValidation::fill ( MonitorElement me,
float  x,
float  y,
float  zw 
)
inlineprivate

Definition at line 358 of file EcalSelectiveReadoutValidation.h.

References hlt_dqm_clientPB-live_cfg::me, x, y, and zw().

358  {
359  if (me)
360  me->Fill(x, y, zw);
361  }
auto zw(V v) -> Vec2< typename std::remove_reference< decltype(v[0])>::type >
Definition: ExtVec.h:75

◆ fill() [4/4]

void EcalSelectiveReadoutValidation::fill ( MonitorElement me,
float  x,
float  y,
float  z,
float  w 
)
inlineprivate

Definition at line 362 of file EcalSelectiveReadoutValidation.h.

References hlt_dqm_clientPB-live_cfg::me, w(), x, y, and z.

362  {
363  if (me)
364  me->Fill(x, y, z, w);
365  }
T w() const

◆ frame2Energy()

double EcalSelectiveReadoutValidation::frame2Energy ( const EcalDataFrame frame) const
private

Selective Readout decisions Validation

Parameters
eventEDM event
esevent setup Energy reconstruction from ADC samples.
framethe ADC sample of an ECA channel

Definition at line 1755 of file EcalSelectiveReadoutValidation.cc.

References cms::cuda::assert(), visDQMUpload::buf, mps_fire::i, createfilelist::int, SiStripPI::min, dqmiodumpmetadata::n, and weights_.

Referenced by analyzeEB(), and analyzeEE().

1755  {
1756  static std::atomic<bool> firstCall{true};
1757  bool expected = true;
1758  if (firstCall.compare_exchange_strong(expected, false)) {
1759  stringstream buf;
1760  buf << "Weights:";
1761  for (unsigned i = 0; i < weights_.size(); ++i) {
1762  buf << "\t" << weights_[i];
1763  }
1764  edm::LogInfo("EcalSrValid") << buf.str() << "\n";
1765  firstCall = false;
1766  }
1767  double adc2GeV = 0.;
1768 
1769  if (typeid(EBDataFrame) == typeid(frame)) { //barrel APD
1770  adc2GeV = .035;
1771  } else if (typeid(EEDataFrame) == typeid(frame)) { //endcap VPT
1772  adc2GeV = 0.06;
1773  } else {
1774  assert(false);
1775  }
1776 
1777  double acc = 0;
1778 
1779  const int n = min(frame.size(), (int)weights_.size());
1780 
1781  double gainInv[] = {12., 1., 6., 12.};
1782 
1783  for (int i = 0; i < n; ++i) {
1784  acc += weights_[i] * frame[i].adc() * gainInv[frame[i].gainId()] * adc2GeV;
1785  }
1786  return acc;
1787 }
assert(be >=bs)
Log< level::Info, false > LogInfo

◆ frame2EnergyForTp()

template<class T >
double EcalSelectiveReadoutValidation::frame2EnergyForTp ( const T frame,
int  offset = 0 
) const
private

Energy reconstruction from ADC samples to be used for trigger primitive estimate.

Parameters
framethe ADC sample of an ECA channel
offsettime offset. To be used to evaluate energy of the event previous (offset=-1) and next (offset=+1) to the triggered one.

Definition at line 1942 of file EcalSelectiveReadoutValidation.cc.

References Exception, mps_fire::i, dqmiodumpmetadata::n, hltrates_dqm_sourceclient-live_cfg::offset, and hltDeepSecondaryVertexTagInfosPFPuppi_cfi::weights.

Referenced by setTtEtSums().

1942  {
1943  //we have to start by 0 in order to handle offset=-1
1944  //(however Fenix FIR has AFAK only 5 taps)
1945  double weights[] = {0., -1 / 3., -1 / 3., -1 / 3., 0., 1.};
1946 
1947  double adc2GeV = 0.;
1948  if (typeid(frame) == typeid(EBDataFrame)) {
1949  adc2GeV = 0.035;
1950  } else if (typeid(frame) == typeid(EEDataFrame)) {
1951  adc2GeV = 0.060;
1952  } else { //T is an invalid type!
1953  //TODO: replace message by a cms exception
1954  throw cms::Exception("Severe Error") << __FILE__ << ":" << __LINE__ << ": "
1955  << "this is a bug. Please report it.\n";
1956  }
1957 
1958  double acc = 0;
1959 
1960  const int n = min<int>(frame.size(), sizeof(weights) / sizeof(weights[0]));
1961 
1962  double gainInv[] = {12., 1., 6., 12};
1963 
1964  for (int i = offset; i < n; ++i) {
1965  int iframe = i + offset;
1966  if (iframe >= 0 && iframe < frame.size()) {
1967  acc += weights[i] * frame[iframe].adc() * gainInv[frame[iframe].gainId()] * adc2GeV;
1968  }
1969  }
1970  //cout << "\n";
1971  return acc;
1972 }

◆ getBytesPerCrystal()

double EcalSelectiveReadoutValidation::getBytesPerCrystal ( ) const
inlineprivate

Gets the number of bytes per crystal channel of the event part depending on the number of read crystal channels.

Returns
the number of bytes.

Definition at line 154 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), getDccSrDependentPayload(), getEbEventSize(), and getEeEventSize().

154 { return 3 * 8; }

◆ getCrystalCount()

int EcalSelectiveReadoutValidation::getCrystalCount ( int  iDcc,
int  iDccCh 
)
private

Retrieves number of crystal channel read out by a DCC channel

Parameters
iDccDCC ID starting from 1
iDccChDCC channel starting from 1
Returns
crystal count

Definition at line 2369 of file EcalSelectiveReadoutValidation.cc.

References maxDccId_.

Referenced by analyzeDataVolume(), and checkSrApplication().

2369  {
2370  if (iDcc < minDccId_ || iDcc > maxDccId_) { //invalid DCC
2371  return 0;
2372  } else if (10 <= iDcc && iDcc <= 45) { //EB
2373  return 25;
2374  } else { //EE
2375  int iDccPhi;
2376  if (iDcc < 10)
2377  iDccPhi = iDcc;
2378  else
2379  iDccPhi = iDcc - 45;
2380  switch (iDccPhi * 100 + iDccCh) {
2381  case 110:
2382  case 232:
2383  case 312:
2384  case 412:
2385  case 532:
2386  case 610:
2387  case 830:
2388  case 806:
2389  //inner partials at 12, 3, and 9 o'clock
2390  return 20;
2391  case 134:
2392  case 634:
2393  case 827:
2394  case 803:
2395  return 10;
2396  case 330:
2397  case 430:
2398  return 20;
2399  case 203:
2400  case 503:
2401  case 721:
2402  case 921:
2403  return 21;
2404  default:
2405  return 25;
2406  }
2407  }
2408 }

◆ getDccEventSize()

double EcalSelectiveReadoutValidation::getDccEventSize ( int  iDcc0,
double  nReadXtals 
) const
inlineprivate

Gets the size of an DCC event fragment.

Parameters
iDcc0the DCC logical number starting from 0.
nReadXtalsnumber of read crystal channels.
Returns
the DCC event fragment size in bytes.

Definition at line 161 of file EcalSelectiveReadoutValidation.h.

References EB, EE, getDccOverhead(), getDccSrDependentPayload(), and getRuCount().

Referenced by analyzeDataVolume().

161  {
162  subdet_t subdet;
163  if (iDcc0 < 9 || iDcc0 >= 45) {
164  subdet = EE;
165  } else {
166  subdet = EB;
167  }
168  // return getDccOverhead(subdet)+nReadXtals*getBytesPerCrystal()
169  // + getRuCount(iDcc0)*8;
170  return getDccOverhead(subdet) + getDccSrDependentPayload(iDcc0, getRuCount(iDcc0), nReadXtals);
171  }
double getDccSrDependentPayload(int iDcc0, double nReadRus, double nReadXtals) const
double getDccOverhead(subdet_t subdet) const
subdet_t
distinguishes barral and endcap of ECAL.

◆ getDccOverhead()

double EcalSelectiveReadoutValidation::getDccOverhead ( subdet_t  subdet) const
inlineprivate

Gets the size in bytes fixed-size part of a DCC event fragment.

Returns
the fixed size in bytes.

Definition at line 145 of file EcalSelectiveReadoutValidation.h.

References EB.

Referenced by getDccEventSize(), getEbEventSize(), and getEeEventSize().

145  {
146  // return (subdet==EB?34:25)*8;
147  return (subdet == EB ? 34 : 52) * 8;
148  }

◆ getDccSrDependentPayload()

double EcalSelectiveReadoutValidation::getDccSrDependentPayload ( int  iDcc0,
double  nReadRus,
double  nReadXtals 
) const
inlineprivate

Gets DCC event fragment payload depending on the channel selection made by the selective readout.

Parameters
iDcc0the DCC logical number starting from 0.
nReadRusnumber of read-out RUs
nReadXtalsnumber of read-out crystal channels.
Returns
the DCC event fragment payload in bytes.

Definition at line 180 of file EcalSelectiveReadoutValidation.h.

References getBytesPerCrystal().

Referenced by analyzeDataVolume(), and getDccEventSize().

180  {
181  return nReadXtals * getBytesPerCrystal() + nReadRus * 8;
182  }

◆ getEbEventSize()

double EcalSelectiveReadoutValidation::getEbEventSize ( double  nReadXtals) const
private

Computes the size of an ECAL barrel event fragment.

Parameters
nReadXtalsnumber of read crystal channels
Returns
the event fragment size in bytes

Definition at line 2076 of file EcalSelectiveReadoutValidation.cc.

References EB, getBytesPerCrystal(), getDccOverhead(), getRuCount(), nEbDccs, and nEeDccs.

Referenced by analyzeDataVolume().

2076  {
2077  double ruHeaderPayload = 0.;
2078  const int firstEbDcc0 = nEeDccs / 2;
2079  for (int iDcc0 = firstEbDcc0; iDcc0 < firstEbDcc0 + nEbDccs; ++iDcc0) {
2080  ruHeaderPayload += getRuCount(iDcc0) * 8.;
2081  }
2082 
2083  return getDccOverhead(EB) * nEbDccs + nReadXtals * getBytesPerCrystal() + ruHeaderPayload;
2084 }
static const int nEeDccs
number of DCCs for EE
double getDccOverhead(subdet_t subdet) const
static const int nEbDccs
number of DCCs for EB

◆ getEeEventSize()

double EcalSelectiveReadoutValidation::getEeEventSize ( double  nReadXtals) const
private

Computes the size of an ECAL endcap event fragment.

Parameters
nReadXtalsnumber of read crystal channels
Returns
the event fragment size in bytes

Definition at line 2086 of file EcalSelectiveReadoutValidation.cc.

References EE, getBytesPerCrystal(), getDccOverhead(), getRuCount(), nDccs_, nEbDccs, and nEeDccs.

Referenced by analyzeDataVolume().

2086  {
2087  double ruHeaderPayload = 0.;
2088  const unsigned firstEbDcc0 = nEeDccs / 2;
2089  for (unsigned iDcc0 = 0; iDcc0 < nDccs_; ++iDcc0) {
2090  //skip barrel:
2091  if (iDcc0 == firstEbDcc0)
2092  iDcc0 += nEbDccs;
2093  ruHeaderPayload += getRuCount(iDcc0) * 8.;
2094  }
2095  return getDccOverhead(EE) * nEeDccs + nReadXtals * getBytesPerCrystal() + ruHeaderPayload;
2096 }
static const int nEeDccs
number of DCCs for EE
double getDccOverhead(subdet_t subdet) const
static const int nEbDccs
number of DCCs for EB
static const unsigned nDccs_
Total number of DCCs.

◆ getFIRWeights()

std::vector< int > EcalSelectiveReadoutValidation::getFIRWeights ( const std::vector< double > &  normalizedWeights)
staticprivate

Computes the ZS FIR filter weights from the normalized weights.

Parameters
normalizedWeightsthe normalized weights
Returns
the computed ZS filter weights.

Definition at line 2147 of file EcalSelectiveReadoutValidation.cc.

References funct::abs(), mps_fire::i, and SiStripPI::min.

Referenced by configFirWeights().

2147  {
2148  const int nFIRTaps = 6;
2149  vector<int> firWeights(nFIRTaps, 0); //default weight: 0;
2150  const static int maxWeight = 0xEFF; //weights coded on 11+1 signed bits
2151  for (unsigned i = 0; i < min((size_t)nFIRTaps, normalizedWeights.size()); ++i) {
2152  firWeights[i] = lround(normalizedWeights[i] * (1 << 10));
2153  if (abs(firWeights[i]) > maxWeight) { //overflow
2154  firWeights[i] = firWeights[i] < 0 ? -maxWeight : maxWeight;
2155  }
2156  }
2157  return firWeights;
2158 }
Abs< T >::type abs(const T &t)
Definition: Abs.h:22

◆ getL1aRate()

double EcalSelectiveReadoutValidation::getL1aRate ( ) const
private

Gets L1A rate estimate.

See also
updateL1aRate(const edm::Event&)
Returns
L1A rate estimate

Definition at line 211 of file EcalSelectiveReadoutValidation.cc.

References MillePedeFileConverter_cfg::e, l1aOfTmax, l1aOfTmin, LogDebug, tmax, and tmin.

Referenced by dqmEndRun().

211  {
212  LogDebug("EcalSrValid") << __FILE__ << ":" << __LINE__ << ": "
213  << "Tmax = " << tmax << " x 25ns; Tmin = " << tmin << " x 25ns; L1A(Tmax) = " << l1aOfTmax
214  << "; L1A(Tmin) = " << l1aOfTmin << "\n";
215  return (double)(l1aOfTmax - l1aOfTmin) / ((tmax - tmin) * 25e-9);
216 }
#define LogDebug(id)

◆ getRuCount()

int EcalSelectiveReadoutValidation::getRuCount ( int  iDcc0) const
private

Gets the number of readout unit read by a DCC. A readout unit correspond to an active DCC input channel.

Parameters
iDcc0DCC logical number starting from 0.

Definition at line 1789 of file EcalSelectiveReadoutValidation.cc.

References nRuPerDcc_.

Referenced by getDccEventSize(), getEbEventSize(), and getEeEventSize().

1789 { return nRuPerDcc_[iDcc0]; }

◆ iEta2cIndex()

int EcalSelectiveReadoutValidation::iEta2cIndex ( int  iEta) const
inlineprivate

Converts a std CMSSW crystal eta index to a c-array index (starting from zero and without hole).

Definition at line 224 of file EcalSelectiveReadoutValidation.h.

References l1tTowerCalibrationProducer_cfi::iEta.

Referenced by anaDigi(), and analyzeEB().

224 { return (iEta < 0) ? iEta + 85 : iEta + 84; }

◆ initAsciiFile()

void EcalSelectiveReadoutValidation::initAsciiFile ( )
private

Definition at line 2206 of file EcalSelectiveReadoutValidation.cc.

References Exception, logSrApplicationErrors_, logSrpAlgoErrors_, MillePedeFileConverter_cfg::out, srApplicationErrorLog_, srApplicationErrorLogFileName_, srpAlgoErrorLog_, srpAlgoErrorLogFileName_, and pileupReCalc_HLTpaths::trunc.

Referenced by dqmBeginRun().

2206  {
2207  if (logSrpAlgoErrors_) {
2209  if (!srpAlgoErrorLog_.good()) {
2210  throw cms::Exception("Output") << "Failed to open the log file '" << srpAlgoErrorLogFileName_
2211  << "' for SRP algorithm result check.\n";
2212  }
2213  }
2214 
2217  if (!srApplicationErrorLog_.good()) {
2218  throw cms::Exception("Output") << "Failed to open the log file '" << srApplicationErrorLogFileName_
2219  << "' for Selective Readout decision application check.\n";
2220  }
2221  }
2222 }
std::ofstream srApplicationErrorLog_
Output ascii file for unconsistency between Xtals and RU Flags.
std::ofstream srpAlgoErrorLog_
Output ascii file for unconsistency on SR flags.

◆ iPhi2cIndex()

int EcalSelectiveReadoutValidation::iPhi2cIndex ( int  iPhi) const
inlineprivate

Converts a std CMSSW crystal phi index to a c-array index (starting from zero and without hole).

Definition at line 229 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), and analyzeEB().

229  {
230  // return iPhi-1;
231  int iPhi0 = iPhi - 11;
232  if (iPhi0 < 0)
233  iPhi0 += 360;
234  return iPhi0;
235  }

◆ iTtEta2cIndex()

int EcalSelectiveReadoutValidation::iTtEta2cIndex ( int  iEta) const
inlineprivate

Transforms CMSSW eta ECAL TT indices to indices starting at 0 to use for c-array or vector.

Parameters
iEtaCMSSW eta index (numbering -28...-1,28...56)
Returns
index in numbering from 0 to 55

Definition at line 259 of file EcalSelectiveReadoutValidation.h.

References l1tTowerCalibrationProducer_cfi::iEta.

Referenced by analyzeTP(), dccCh(), and setTtEtSums().

259 { return (iEta < 0) ? iEta + 28 : iEta + 27; }

◆ iTtPhi2cIndex()

int EcalSelectiveReadoutValidation::iTtPhi2cIndex ( int  iPhi) const
inlineprivate

Transforms CMSSW phi ECAL crystal indices to indices starting at 0 to use for c-array or vector.

Parameters
iPhiCMSSW phi index (numbering 1...72)
Returns
index in numbering 0...71

Definition at line 266 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), dccCh(), and setTtEtSums().

266  {
267  return iPhi - 1;
268  //int iPhi0 = iPhi - 3;
269  //if(iPhi0<0) iPhi0 += 72;
270  //return iPhi0;
271  }

◆ iXY2cIndex()

int EcalSelectiveReadoutValidation::iXY2cIndex ( int  iX) const
inlineprivate

Converts a std CMSSW crystal x or y index to a c-array index (starting from zero and without hole).

Definition at line 240 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), and analyzeEE().

240 { return iX - 1; }

◆ printAvailableHists()

void EcalSelectiveReadoutValidation::printAvailableHists ( )
private

Prints the list of available histograms (registered by the registerHist method), including disabled one.

Definition at line 2066 of file EcalSelectiveReadoutValidation.cc.

References availableHistList_, and dqm-mbProfile::log.

Referenced by bookHistograms().

2066  {
2067  LogInfo log("HistoList");
2068  log << "Avalailable histograms (DQM monitor elements): \n";
2069  for (map<string, string>::iterator it = availableHistList_.begin(); it != availableHistList_.end(); ++it) {
2070  log << it->first << ": " << it->second << "\n";
2071  }
2072  log << "\nTo include an histogram add its name in the vstring parameter "
2073  "'histograms' of the EcalSelectiveReadoutValidation module\n";
2074 }
std::map< std::string, std::string > availableHistList_

◆ readAllCollections()

void EcalSelectiveReadoutValidation::readAllCollections ( const edm::Event e)
private

Reads the data collections from the event. Called at start of each event analysis.

Parameters
eventthe EDM event.

Definition at line 2049 of file EcalSelectiveReadoutValidation.cc.

References ebComputedSrFlags_, ebDigis_, ebNoZsDigis_, ebRecHits_, ebSimHits_, ebSrFlags_, eeComputedSrFlags_, eeDigis_, eeNoZsDigis_, eeRecHits_, eeSimHits_, eeSrFlags_, fedRaw_, CollHandle< T >::read(), and tps_.

Referenced by analyze().

2049  {
2050  ebRecHits_.read(event);
2051  eeRecHits_.read(event);
2052  ebDigis_.read(event);
2053  eeDigis_.read(event);
2056  ebSrFlags_.read(event);
2057  eeSrFlags_.read(event);
2058  ebComputedSrFlags_.read(event);
2059  eeComputedSrFlags_.read(event);
2062  tps_.read(event);
2063  fedRaw_.read(event);
2064 }
CollHandle< EBDigiCollection > ebNoZsDigis_
CollHandle< EcalTrigPrimDigiCollection > tps_
CollHandle< FEDRawDataCollection > fedRaw_
CollHandle< EESrFlagCollection > eeComputedSrFlags_
CollHandle< EEDigiCollection > eeDigis_
CollHandle< RecHitCollection > eeRecHits_
CollHandle< EBSrFlagCollection > ebSrFlags_
CollHandle< std::vector< PCaloHit > > eeSimHits_
void read(const edm::Event &event)
Definition: CollHandle.h:58
CollHandle< EESrFlagCollection > eeSrFlags_
CollHandle< std::vector< PCaloHit > > ebSimHits_
CollHandle< EEDigiCollection > eeNoZsDigis_
CollHandle< EBDigiCollection > ebDigis_
CollHandle< RecHitCollection > ebRecHits_
Definition: event.py:1
CollHandle< EBSrFlagCollection > ebComputedSrFlags_

◆ readOutUnitOf() [1/2]

EcalTrigTowerDetId EcalSelectiveReadoutValidation::readOutUnitOf ( const EBDetId xtalId) const
private

Retrives the readout unit, a trigger tower in the barrel case, and a supercrystal in the endcap case, a given crystal belongs to.

Parameters
xtalIdidentifier of the crystal
Returns
identifer of the supercrystal or of the trigger tower.

Definition at line 1852 of file EcalSelectiveReadoutValidation.cc.

References EcalTrigTowerConstituentsMap::towerOf(), and triggerTowerMap_.

Referenced by anaDigi(), analyzeEB(), and analyzeEE().

1852  {
1853  return triggerTowerMap_->towerOf(xtalId);
1854 }
EcalTrigTowerDetId towerOf(const DetId &id) const
Get the tower id for this det id (or null if not known)
const EcalTrigTowerConstituentsMap * triggerTowerMap_

◆ readOutUnitOf() [2/2]

EcalScDetId EcalSelectiveReadoutValidation::readOutUnitOf ( const EEDetId xtalId) const
private

Definition at line 1856 of file EcalSelectiveReadoutValidation.cc.

References EcalElectronicsId::dccId(), elecMap_, EcalElectronicsMapping::getEcalScDetId(), EcalElectronicsMapping::getElectronicsId(), and EcalElectronicsId::towerId().

1856  {
1857  const EcalElectronicsId& EcalElecId = elecMap_->getElectronicsId(xtalId);
1858  int iDCC = EcalElecId.dccId();
1859  int iDccChan = EcalElecId.towerId();
1860  const bool ignoreSingle = true;
1861  const vector<EcalScDetId> id = elecMap_->getEcalScDetId(iDCC, iDccChan, ignoreSingle);
1862  return !id.empty() ? id[0] : EcalScDetId();
1863 }
Ecal readout channel identification [32:20] Unused (so far) [19:13] DCC id [12:6] tower [5:3] strip [...
int dccId() const
get the DCC (Ecal Local DCC value not global one) id
int towerId() const
get the tower id
std::vector< EcalScDetId > getEcalScDetId(int DCCid, int DCC_Channel, bool ignoreSingleCrystal=true) const
EcalElectronicsId getElectronicsId(const DetId &id) const
Get the electronics id for this det id.
const EcalElectronicsMapping * elecMap_

◆ registerHist()

bool EcalSelectiveReadoutValidation::registerHist ( const std::string &  name,
const std::string &  title 
)
private

Register a histogram in the available histogram list and check if the histogram is enabled. Called by the histogram booking methods.

Returns
true if the histogram is enable, false otherwise

Definition at line 2044 of file EcalSelectiveReadoutValidation.cc.

References allHists_, availableHistList_, histList_, Skims_PA_cff::name, and runGCPTkAlMap::title.

Referenced by book1D(), book2D(), bookFloat(), bookProfile(), and bookProfile2D().

2044  {
2045  availableHistList_.insert(pair<string, string>(name, title));
2046  return allHists_ || histList_.find(name) != histList_.end();
2047 }
std::map< std::string, std::string > availableHistList_

◆ ruGraphX() [1/2]

int EcalSelectiveReadoutValidation::ruGraphX ( const EcalScDetId id) const
inlineprivate

Functions to compute x and y coordinates of RU maps grouping endcap and barrel.

Definition at line 870 of file EcalSelectiveReadoutValidation.h.

Referenced by checkSrApplication(), and compareSrfColl().

870 { return id.ix() + (id.zside() > 0 ? 20 : -40); }

◆ ruGraphX() [2/2]

int EcalSelectiveReadoutValidation::ruGraphX ( const EcalTrigTowerDetId id) const
inlineprivate

Definition at line 874 of file EcalSelectiveReadoutValidation.h.

874 { return id.ieta(); }

◆ ruGraphY() [1/2]

int EcalSelectiveReadoutValidation::ruGraphY ( const EcalScDetId id) const
inlineprivate

Definition at line 872 of file EcalSelectiveReadoutValidation.h.

Referenced by checkSrApplication(), and compareSrfColl().

872 { return id.iy(); }

◆ ruGraphY() [2/2]

int EcalSelectiveReadoutValidation::ruGraphY ( const EcalTrigTowerDetId id) const
inlineprivate

Definition at line 876 of file EcalSelectiveReadoutValidation.h.

876 { return id.iphi(); }

◆ selectFedsForLog()

void EcalSelectiveReadoutValidation::selectFedsForLog ( )
private

Look in events whose DCC has SR flags and enable error logging for them. To be called with the processed first event. List of monitored DCCs is reported in the log file.

Definition at line 2291 of file EcalSelectiveReadoutValidation.cc.

References visDQMUpload::buf, dccId(), ebSrFlags_, eeSrFlags_, first, logErrForDccs_, minDccId_, nDccs_, srApplicationErrorLog_, and srpAlgoErrorLog_.

Referenced by analyze().

2291  {
2292  logErrForDccs_ = vector<bool>(nDccs_, false);
2293 
2294  for (EBSrFlagCollection::const_iterator it = ebSrFlags_->begin(); it != ebSrFlags_->end(); ++it) {
2295  int iDcc = dccId(it->id()) - minDccId_;
2296 
2297  logErrForDccs_.at(iDcc) = true;
2298  }
2299 
2300  for (EESrFlagCollection::const_iterator it = eeSrFlags_->begin(); it != eeSrFlags_->end(); ++it) {
2301  int iDcc = dccId(it->id()) - minDccId_;
2302 
2303  logErrForDccs_.at(iDcc) = true;
2304  }
2305 
2306  stringstream buf;
2307  buf << "List of DCCs found in the first processed event: ";
2308  bool first = true;
2309  for (unsigned iDcc = 0; iDcc < nDccs_; ++iDcc) {
2310  if (logErrForDccs_[iDcc]) {
2311  buf << (first ? "" : ", ") << (iDcc + minDccId_);
2312  first = false;
2313  }
2314  }
2315  buf << "\nOnly DCCs from this list will be considered for error logging\n";
2316  srpAlgoErrorLog_ << buf.str();
2317  srApplicationErrorLog_ << buf.str();
2318  LogInfo("EcalSrValid") << buf.str();
2319 }
std::ofstream srApplicationErrorLog_
Output ascii file for unconsistency between Xtals and RU Flags.
std::vector< T >::const_iterator const_iterator
CollHandle< EBSrFlagCollection > ebSrFlags_
CollHandle< EESrFlagCollection > eeSrFlags_
int dccId(const EcalScDetId &detId) const
Log< level::Info, false > LogInfo
std::ofstream srpAlgoErrorLog_
Output ascii file for unconsistency on SR flags.
static const unsigned nDccs_
Total number of DCCs.

◆ setTtEtSums()

void EcalSelectiveReadoutValidation::setTtEtSums ( const edm::EventSetup es,
const EBDigiCollection ebDigis,
const EEDigiCollection eeDigis 
)
private

Computes trigger primitive estimates. A sum of crystal deposited transverse energy is performed.

Parameters
esevent setup
ebDigisthe ECAL barrel unsuppressed digi to use for the computation
ebDigisthe ECAL endcap unsuppressed digi to use for the computation

Definition at line 1865 of file EcalSelectiveReadoutValidation.cc.

References edm::DataFrameContainer::begin(), MillePedeFileConverter_cfg::e, ebDigis_, DetId::Ecal, EcalBarrel, EcalEndcap, SimL1EmulatorDM_cff::eeDigis, edm::DataFrameContainer::end(), EgHLTOffHistBins_cfi::et, frame2EnergyForTp(), geoToken, edm::EventSetup::getData(), CaloSubdetectorGeometry::getGeometry(), edm::EventSetup::getHandle(), iTtEta2cIndex(), iTtPhi2cIndex(), nTtEta, nTtPhi, funct::sin(), theta(), EcalTrigTowerConstituentsMap::towerOf(), triggerTowerMap_, ttEtSums, and ecaldqm::ttId().

Referenced by analyze().

1867  {
1868  //ecal geometry:
1869  const CaloSubdetectorGeometry* eeGeometry = nullptr;
1870  const CaloSubdetectorGeometry* ebGeometry = nullptr;
1871  if (eeGeometry == nullptr || ebGeometry == nullptr) {
1872  es.getData(geoToken);
1873  auto geoHandle = es.getHandle(geoToken);
1874  eeGeometry = (*geoHandle).getSubdetectorGeometry(DetId::Ecal, EcalEndcap);
1875  ebGeometry = (*geoHandle).getSubdetectorGeometry(DetId::Ecal, EcalBarrel);
1876  }
1877 
1878  //init etSum array:
1879  for (int iEta0 = 0; iEta0 < nTtEta; ++iEta0) {
1880  for (int iPhi0 = 0; iPhi0 < nTtPhi; ++iPhi0) {
1881  ttEtSums[iEta0][iPhi0] = 0.;
1882  }
1883  }
1884 
1885  for (EBDigiCollection::const_iterator it = ebDigis_->begin(); it != ebDigis_->end(); ++it) {
1886  const EBDataFrame& frame = *it;
1888 
1889  const int iTtEta0 = iTtEta2cIndex(ttId.ieta());
1890  const int iTtPhi0 = iTtPhi2cIndex(ttId.iphi());
1891  double theta = ebGeometry->getGeometry(frame.id())->getPosition().theta();
1892  double e = frame2EnergyForTp(frame);
1893  if ((frame2EnergyForTp(frame, -1) < e) && (frame2EnergyForTp(frame, 1) < e)) {
1894  ttEtSums[iTtEta0][iTtPhi0] += e * sin(theta);
1895  }
1896  }
1897 
1898  for (EEDigiCollection::const_iterator it = eeDigis.begin(); it != eeDigis.end(); ++it) {
1899  const EEDataFrame& frame = *it;
1901  const int iTtEta0 = iTtEta2cIndex(ttId.ieta());
1902  const int iTtPhi0 = iTtPhi2cIndex(ttId.iphi());
1903 
1904  double theta = eeGeometry->getGeometry(frame.id())->getPosition().theta();
1905  double e = frame2EnergyForTp(frame);
1906  if ((frame2EnergyForTp(frame, -1) < e) && (frame2EnergyForTp(frame, 1) < e)) {
1907  ttEtSums[iTtEta0][iTtPhi0] += e * sin(theta);
1908  }
1909  }
1910 
1911  //dealing with pseudo-TT in two inner EE eta-ring:
1912  int innerTTEtas[] = {0, 1, 54, 55};
1913  for (unsigned iRing = 0; iRing < sizeof(innerTTEtas) / sizeof(innerTTEtas[0]); ++iRing) {
1914  int iTtEta0 = innerTTEtas[iRing];
1915  //this detector eta-section is divided in only 36 phi bins
1916  //For this eta regions,
1917  //current tower eta numbering scheme is inconsistent. For geometry
1918  //version 133:
1919  //- TT are numbered from 0 to 72 for 36 bins
1920  //- some TT have an even index, some an odd index
1921  //For geometry version 125, there are 72 phi bins.
1922  //The code below should handle both geometry definition.
1923  //If there are 72 input trigger primitives for each inner eta-ring,
1924  //then the average of the trigger primitive of the two pseudo-TT of
1925  //a pair (nEta, nEta+1) is taken as Et of both pseudo TTs.
1926  //If there are only 36 input TTs for each inner eta ring, then half
1927  //of the present primitive of a pseudo TT pair is used as Et of both
1928  //pseudo TTs.
1929 
1930  for (unsigned iTtPhi0 = 0; iTtPhi0 < nTtPhi - 1; iTtPhi0 += 2) {
1931  double et = .5 * (ttEtSums[iTtEta0][iTtPhi0] + ttEtSums[iTtEta0][iTtPhi0 + 1]);
1932  //divides the TT into 2 phi bins in order to match with 72 phi-bins SRP
1933  //scheme or average the Et on the two pseudo TTs if the TT is already
1934  //divided into two trigger primitives.
1935  ttEtSums[iTtEta0][iTtPhi0] = et;
1936  ttEtSums[iTtEta0][iTtPhi0 + 1] = et;
1937  }
1938  }
1939 }
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
unsigned ttId(DetId const &, EcalElectronicsMapping const *)
double frame2EnergyForTp(const T &frame, int offset=0) const
EcalTrigTowerDetId towerOf(const DetId &id) const
Get the tower id for this det id (or null if not known)
static const int nTtPhi
Number of Trigger Towers along Phi.
edm::ESGetToken< CaloGeometry, CaloGeometryRecord > geoToken
bool getData(T &iHolder) const
Definition: EventSetup.h:122
ESHandle< T > getHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:151
virtual std::shared_ptr< const CaloCellGeometry > getGeometry(const DetId &id) const
Get the cell geometry of a given detector id. Should return false if not found.
const_iterator end() const
const_iterator begin() const
The iterator returned can not safely be used across threads.
boost::transform_iterator< IterHelp, boost::counting_iterator< int > > const_iterator
static const int nTtEta
Number of Trigger Towers along Eta.
CollHandle< EBDigiCollection > ebDigis_
Geom::Theta< T > theta() const
const EcalTrigTowerConstituentsMap * triggerTowerMap_

◆ updateL1aRate()

void EcalSelectiveReadoutValidation::updateL1aRate ( const edm::Event event)
private

Updates estimate of L1A rate

Parameters
eventEDM event

Definition at line 193 of file EcalSelectiveReadoutValidation.cc.

References simKBmtfDigis_cfi::bx, l1aOfTmax, l1aOfTmin, submitPVValidationJobs::t, tmax, and tmin.

Referenced by analyze().

193  {
194  const int32_t bx = event.bunchCrossing();
195  if (bx < 1 || bx > 3564)
196  return;
197 
198  int64_t t = event.bunchCrossing() + (event.orbitNumber() - 1) * 3564;
199 
200  if (t < tmin) {
201  tmin = t;
202  l1aOfTmin = event.id().event();
203  }
204 
205  if (t > tmax) {
206  tmax = t;
207  l1aOfTmax = event.id().event();
208  }
209 }

◆ xtalGraphX() [1/2]

int EcalSelectiveReadoutValidation::xtalGraphX ( const EEDetId id) const
inlineprivate

Definition at line 878 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and analyzeEE().

878 { return id.ix() + (id.zside() > 0 ? 100 : -200); }

◆ xtalGraphX() [2/2]

int EcalSelectiveReadoutValidation::xtalGraphX ( const EBDetId id) const
inlineprivate

Definition at line 882 of file EcalSelectiveReadoutValidation.h.

882 { return id.ieta(); }

◆ xtalGraphY() [1/2]

int EcalSelectiveReadoutValidation::xtalGraphY ( const EEDetId id) const
inlineprivate

Definition at line 880 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and analyzeEE().

880 { return id.iy(); }

◆ xtalGraphY() [2/2]

int EcalSelectiveReadoutValidation::xtalGraphY ( const EBDetId id) const
inlineprivate

Definition at line 884 of file EcalSelectiveReadoutValidation.h.

884 { return id.iphi(); }

Member Data Documentation

◆ allHists_

bool EcalSelectiveReadoutValidation::allHists_
private

When true, every histogram is enabled.

Definition at line 800 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation(), and registerHist().

◆ availableHistList_

std::map<std::string, std::string> EcalSelectiveReadoutValidation::availableHistList_
private

List of available histograms. Filled by the booking methods. key: name, value: title.

Definition at line 809 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), printAvailableHists(), and registerHist().

◆ collNotFoundWarn_

bool EcalSelectiveReadoutValidation::collNotFoundWarn_
private

Switch for collection-not-found warning.

Definition at line 491 of file EcalSelectiveReadoutValidation.h.

◆ ebComputedSrFlags_

CollHandle<EBSrFlagCollection> EcalSelectiveReadoutValidation::ebComputedSrFlags_
private

◆ ebDigis_

CollHandle<EBDigiCollection> EcalSelectiveReadoutValidation::ebDigis_
private

The event product collections.

Definition at line 513 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), analyzeEB(), EcalSelectiveReadoutValidation(), readAllCollections(), and setTtEtSums().

◆ ebNoZsDigis_

CollHandle<EBDigiCollection> EcalSelectiveReadoutValidation::ebNoZsDigis_
private

◆ ebRecHits_

CollHandle<RecHitCollection> EcalSelectiveReadoutValidation::ebRecHits_
private

◆ ebRuActive_

bool EcalSelectiveReadoutValidation::ebRuActive_[nEbEta/ebTtEdge][nEbPhi/ebTtEdge]
private

For book keeping of RU actually read out (not fully zero suppressed)

Definition at line 769 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), and anaDigiInit().

◆ ebSimHits_

CollHandle<std::vector<PCaloHit> > EcalSelectiveReadoutValidation::ebSimHits_
private

◆ ebSrFlags_

CollHandle<EBSrFlagCollection> EcalSelectiveReadoutValidation::ebSrFlags_
private

◆ ebTtEdge

const int EcalSelectiveReadoutValidation::ebTtEdge = 5
staticprivate

Number of crystals along an EB TT.

Definition at line 462 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi().

◆ ebZsThr_

int EcalSelectiveReadoutValidation::ebZsThr_
private

ZS threshold in 1/4th ADC count for EB

Definition at line 692 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), bookHistograms(), and EcalSelectiveReadoutValidation().

◆ ecalmapping

edm::ESGetToken<EcalElectronicsMapping, EcalMappingRcd> EcalSelectiveReadoutValidation::ecalmapping
private

Definition at line 409 of file EcalSelectiveReadoutValidation.h.

Referenced by dqmBeginRun().

◆ eeComputedSrFlags_

CollHandle<EESrFlagCollection> EcalSelectiveReadoutValidation::eeComputedSrFlags_
private

◆ eeDigis_

CollHandle<EEDigiCollection> EcalSelectiveReadoutValidation::eeDigis_
private

◆ eeNoZsDigis_

CollHandle<EEDigiCollection> EcalSelectiveReadoutValidation::eeNoZsDigis_
private

◆ eeRecHits_

CollHandle<RecHitCollection> EcalSelectiveReadoutValidation::eeRecHits_
private

◆ eeRuActive_

bool EcalSelectiveReadoutValidation::eeRuActive_[nEndcaps][nEeX/scEdge][nEeY/scEdge]
private

Definition at line 770 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), and anaDigiInit().

◆ eeSimHits_

CollHandle<std::vector<PCaloHit> > EcalSelectiveReadoutValidation::eeSimHits_
private

◆ eeSrFlags_

CollHandle<EESrFlagCollection> EcalSelectiveReadoutValidation::eeSrFlags_
private

◆ eeZsThr_

int EcalSelectiveReadoutValidation::eeZsThr_
private

ZS threshold in 1/4th ADC count for EE

Definition at line 696 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), bookHistograms(), and EcalSelectiveReadoutValidation().

◆ elecMap_

const EcalElectronicsMapping* EcalSelectiveReadoutValidation::elecMap_
private

Ecal electronics/geometrical mapping.

Definition at line 675 of file EcalSelectiveReadoutValidation.h.

Referenced by dccCh(), dccId(), dqmBeginRun(), and readOutUnitOf().

◆ fedRaw_

CollHandle<FEDRawDataCollection> EcalSelectiveReadoutValidation::fedRaw_
private

◆ firstFIRSample_

int EcalSelectiveReadoutValidation::firstFIRSample_
private

Time position of the first sample to use in zero suppession FIR filter. Numbering starts at 0.

Definition at line 705 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and configFirWeights().

◆ firWeights_

std::vector<int> EcalSelectiveReadoutValidation::firWeights_
private

Weights to be used for the ZS FIR filter

Definition at line 688 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and configFirWeights().

◆ geoToken

edm::ESGetToken<CaloGeometry, CaloGeometryRecord> EcalSelectiveReadoutValidation::geoToken
private

Definition at line 408 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and setTtEtSums().

◆ histDir_

std::string EcalSelectiveReadoutValidation::histDir_
private

Histogram directory PATH in DQM or within the output ROOT file

Definition at line 804 of file EcalSelectiveReadoutValidation.h.

◆ histList_

std::set<std::string> EcalSelectiveReadoutValidation::histList_
private

List of enabled histograms. Special name "all" is used to indicate all available histograms.

Definition at line 796 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), EcalSelectiveReadoutValidation(), and registerHist().

◆ hTriggerTowerMap

edm::ESGetToken<EcalTrigTowerConstituentsMap, IdealGeometryRecord> EcalSelectiveReadoutValidation::hTriggerTowerMap
private

Definition at line 410 of file EcalSelectiveReadoutValidation.h.

Referenced by dqmBeginRun().

◆ ievt_

int EcalSelectiveReadoutValidation::ievt_
private

Event sequence number

Definition at line 781 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), analyzeEB(), and analyzeEE().

◆ isRuComplete_

bool EcalSelectiveReadoutValidation::isRuComplete_[nDccs_][nDccChs_]
private

Definition at line 773 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), analyzeEB(), and analyzeEE().

◆ kByte_

const int EcalSelectiveReadoutValidation::kByte_ = 1024
staticprivate

number of bytes in 1 kByte:

Definition at line 416 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume().

◆ l1aOfTmax

int64_t EcalSelectiveReadoutValidation::l1aOfTmax
private

Definition at line 535 of file EcalSelectiveReadoutValidation.h.

Referenced by getL1aRate(), and updateL1aRate().

◆ l1aOfTmin

int64_t EcalSelectiveReadoutValidation::l1aOfTmin
private

Definition at line 534 of file EcalSelectiveReadoutValidation.h.

Referenced by getL1aRate(), and updateL1aRate().

◆ l1aRateErr

bool EcalSelectiveReadoutValidation::l1aRateErr
private

Definition at line 536 of file EcalSelectiveReadoutValidation.h.

◆ localReco_

bool EcalSelectiveReadoutValidation::localReco_
private

Local reconstruction switch: true to reconstruct locally the amplitude insted of using the Rec Hits.

Definition at line 680 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and analyzeEE().

◆ logErrForDccs_

std::vector<bool> EcalSelectiveReadoutValidation::logErrForDccs_
private

List of TCC masks for validation If tccMasks[iTcc-1] is false then TCC is considered to have been out of the run and related validations are skipped.

Definition at line 716 of file EcalSelectiveReadoutValidation.h.

Referenced by compareSrfColl(), and selectFedsForLog().

◆ logSrApplicationErrors_

bool EcalSelectiveReadoutValidation::logSrApplicationErrors_
private

Switch to log SR decision that fails to be applied on data: inconstitencies between SRF and number of read out crystals.

Definition at line 846 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation(), and initAsciiFile().

◆ logSrpAlgoErrors_

bool EcalSelectiveReadoutValidation::logSrpAlgoErrors_
private

Switch to log in an ascii file inconsistencies found between SRFs read from data and SRFs obtained by rerunning SRP algorithm on TTFs.

Definition at line 841 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation(), and initAsciiFile().

◆ lutGrpHandle

edm::ESGetToken<EcalTPGLutGroup, EcalTPGLutGroupRcd> EcalSelectiveReadoutValidation::lutGrpHandle
private

Definition at line 412 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP().

◆ lutMapHandle

edm::ESGetToken<EcalTPGLutIdMap, EcalTPGLutIdMapRcd> EcalSelectiveReadoutValidation::lutMapHandle
private

Definition at line 413 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP().

◆ maxDccId_

const int EcalSelectiveReadoutValidation::maxDccId_ = minDccId_ + nDccs_ - 1
staticprivate

Definition at line 429 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), dccCh(), and getCrystalCount().

◆ meChOcc_

MonitorElement* EcalSelectiveReadoutValidation::meChOcc_
private

Definition at line 555 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and bookHistograms().

◆ meCompleteZS_

MonitorElement* EcalSelectiveReadoutValidation::meCompleteZS_
private

Definition at line 606 of file EcalSelectiveReadoutValidation.h.

◆ meCompleteZSCnt_

MonitorElement* EcalSelectiveReadoutValidation::meCompleteZSCnt_
private

Definition at line 618 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meCompleteZSMap_

MonitorElement* EcalSelectiveReadoutValidation::meCompleteZSMap_
private

Definition at line 610 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meCompleteZSRateMap_

MonitorElement* EcalSelectiveReadoutValidation::meCompleteZSRateMap_
private

Definition at line 614 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meDccHiVol_

MonitorElement* EcalSelectiveReadoutValidation::meDccHiVol_
private

Definition at line 544 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meDccLiVol_

MonitorElement* EcalSelectiveReadoutValidation::meDccLiVol_
private

Definition at line 543 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meDccVol_

MonitorElement* EcalSelectiveReadoutValidation::meDccVol_
private

The histograms

Definition at line 542 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meDccVolFromData_

MonitorElement* EcalSelectiveReadoutValidation::meDccVolFromData_
private

Definition at line 545 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meDroppedFRO_

MonitorElement* EcalSelectiveReadoutValidation::meDroppedFRO_
private

Definition at line 605 of file EcalSelectiveReadoutValidation.h.

◆ meDroppedFROCnt_

MonitorElement* EcalSelectiveReadoutValidation::meDroppedFROCnt_
private

Definition at line 617 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meDroppedFROMap_

MonitorElement* EcalSelectiveReadoutValidation::meDroppedFROMap_
private

Definition at line 609 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meDroppedFRORateMap_

MonitorElement* EcalSelectiveReadoutValidation::meDroppedFRORateMap_
private

Definition at line 613 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meEbEMean_

MonitorElement* EcalSelectiveReadoutValidation::meEbEMean_
private

Definition at line 564 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbFixedPayload_

MonitorElement* EcalSelectiveReadoutValidation::meEbFixedPayload_
private

Event payload that do not depend on the number of crystals passing the SR

Definition at line 631 of file EcalSelectiveReadoutValidation.h.

◆ meEbFullRoCnt_

MonitorElement* EcalSelectiveReadoutValidation::meEbFullRoCnt_
private

Definition at line 591 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meEbHiZsFir_

MonitorElement* EcalSelectiveReadoutValidation::meEbHiZsFir_
private

Definition at line 595 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbIncompleteRUZsFir_

MonitorElement* EcalSelectiveReadoutValidation::meEbIncompleteRUZsFir_
private

Definition at line 596 of file EcalSelectiveReadoutValidation.h.

◆ meEbLiZsFir_

MonitorElement* EcalSelectiveReadoutValidation::meEbLiZsFir_
private

Definition at line 594 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbNoise_

MonitorElement* EcalSelectiveReadoutValidation::meEbNoise_
private

Definition at line 565 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbNoZsRecVsSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEbNoZsRecVsSimE_
private

Definition at line 569 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbRecE_

MonitorElement* EcalSelectiveReadoutValidation::meEbRecE_
private

Definition at line 563 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbRecEHitXtal_

MonitorElement* EcalSelectiveReadoutValidation::meEbRecEHitXtal_
private

Definition at line 567 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbRecVsSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEbRecVsSimE_
private

Definition at line 568 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEbSimE_
private

Definition at line 566 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and bookHistograms().

◆ meEbZsErrCnt_

MonitorElement* EcalSelectiveReadoutValidation::meEbZsErrCnt_
private

Definition at line 619 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meEbZsErrType1Cnt_

MonitorElement* EcalSelectiveReadoutValidation::meEbZsErrType1Cnt_
private

Definition at line 622 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meEeEMean_

MonitorElement* EcalSelectiveReadoutValidation::meEeEMean_
private

Definition at line 572 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeFixedPayload_

MonitorElement* EcalSelectiveReadoutValidation::meEeFixedPayload_
private

Definition at line 632 of file EcalSelectiveReadoutValidation.h.

◆ meEeFullRoCnt_

MonitorElement* EcalSelectiveReadoutValidation::meEeFullRoCnt_
private

Definition at line 592 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meEeHiZsFir_

MonitorElement* EcalSelectiveReadoutValidation::meEeHiZsFir_
private

Definition at line 599 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeLiZsFir_

MonitorElement* EcalSelectiveReadoutValidation::meEeLiZsFir_
private

Definition at line 598 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeNoise_

MonitorElement* EcalSelectiveReadoutValidation::meEeNoise_
private

Definition at line 573 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeNoZsRecVsSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEeNoZsRecVsSimE_
private

Definition at line 577 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeRecE_

MonitorElement* EcalSelectiveReadoutValidation::meEeRecE_
private

Definition at line 571 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeRecEHitXtal_

MonitorElement* EcalSelectiveReadoutValidation::meEeRecEHitXtal_
private

Definition at line 575 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeRecVsSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEeRecVsSimE_
private

Definition at line 576 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeSimE_

MonitorElement* EcalSelectiveReadoutValidation::meEeSimE_
private

Definition at line 574 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE(), and bookHistograms().

◆ meEeZsErrCnt_

MonitorElement* EcalSelectiveReadoutValidation::meEeZsErrCnt_
private

Definition at line 620 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meEeZsErrType1Cnt_

MonitorElement* EcalSelectiveReadoutValidation::meEeZsErrType1Cnt_
private

Definition at line 623 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meFixedPayload_

MonitorElement* EcalSelectiveReadoutValidation::meFixedPayload_
private

Definition at line 633 of file EcalSelectiveReadoutValidation.h.

◆ meForcedRu_

MonitorElement* EcalSelectiveReadoutValidation::meForcedRu_
private

Definition at line 581 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and bookHistograms().

◆ meForcedTtf_

MonitorElement* EcalSelectiveReadoutValidation::meForcedTtf_
private

Definition at line 586 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meFullRoCnt_

MonitorElement* EcalSelectiveReadoutValidation::meFullRoCnt_
private

Definition at line 590 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meFullRoRu_

MonitorElement* EcalSelectiveReadoutValidation::meFullRoRu_
private

Definition at line 579 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and bookHistograms().

◆ meHiTtf_

MonitorElement* EcalSelectiveReadoutValidation::meHiTtf_
private

Definition at line 585 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meIncompleteFRO_

MonitorElement* EcalSelectiveReadoutValidation::meIncompleteFRO_
private

Definition at line 604 of file EcalSelectiveReadoutValidation.h.

◆ meIncompleteFROCnt_

MonitorElement* EcalSelectiveReadoutValidation::meIncompleteFROCnt_
private

Definition at line 616 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meIncompleteFROMap_

MonitorElement* EcalSelectiveReadoutValidation::meIncompleteFROMap_
private

Definition at line 608 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meIncompleteFRORateMap_

MonitorElement* EcalSelectiveReadoutValidation::meIncompleteFRORateMap_
private

Definition at line 612 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and checkSrApplication().

◆ meL1aRate_

MonitorElement* EcalSelectiveReadoutValidation::meL1aRate_
private

Estimate of L1A rate

Definition at line 638 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and dqmEndRun().

◆ meLiTtf_

MonitorElement* EcalSelectiveReadoutValidation::meLiTtf_
private

Definition at line 583 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meMiTtf_

MonitorElement* EcalSelectiveReadoutValidation::meMiTtf_
private

Definition at line 584 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meSRFlagsComputed_

MonitorElement* EcalSelectiveReadoutValidation::meSRFlagsComputed_
private

Definition at line 601 of file EcalSelectiveReadoutValidation.h.

◆ meSRFlagsConsistency_

MonitorElement* EcalSelectiveReadoutValidation::meSRFlagsConsistency_
private

Definition at line 602 of file EcalSelectiveReadoutValidation.h.

Referenced by bookHistograms(), and compareSrfColl().

◆ meSRFlagsFromData_

MonitorElement* EcalSelectiveReadoutValidation::meSRFlagsFromData_
private

Definition at line 600 of file EcalSelectiveReadoutValidation.h.

◆ meTp_

MonitorElement* EcalSelectiveReadoutValidation::meTp_
private

Definition at line 557 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meTpMap_

MonitorElement* EcalSelectiveReadoutValidation::meTpMap_
private

Definition at line 588 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meTpVsEtSum_

MonitorElement* EcalSelectiveReadoutValidation::meTpVsEtSum_
private

Definition at line 561 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meTtf_

MonitorElement* EcalSelectiveReadoutValidation::meTtf_
private

Definition at line 558 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meTtfVsEtSum_

MonitorElement* EcalSelectiveReadoutValidation::meTtfVsEtSum_
private

Definition at line 560 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meTtfVsTp_

MonitorElement* EcalSelectiveReadoutValidation::meTtfVsTp_
private

Definition at line 559 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ meVol_

MonitorElement* EcalSelectiveReadoutValidation::meVol_
private

Definition at line 546 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolB_

MonitorElement* EcalSelectiveReadoutValidation::meVolB_
private

Definition at line 547 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolBHI_

MonitorElement* EcalSelectiveReadoutValidation::meVolBHI_
private

Definition at line 552 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolBLI_

MonitorElement* EcalSelectiveReadoutValidation::meVolBLI_
private

Definition at line 549 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolE_

MonitorElement* EcalSelectiveReadoutValidation::meVolE_
private

Definition at line 548 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolEHI_

MonitorElement* EcalSelectiveReadoutValidation::meVolEHI_
private

Definition at line 553 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolELI_

MonitorElement* EcalSelectiveReadoutValidation::meVolELI_
private

Definition at line 550 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolHI_

MonitorElement* EcalSelectiveReadoutValidation::meVolHI_
private

Definition at line 554 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meVolLI_

MonitorElement* EcalSelectiveReadoutValidation::meVolLI_
private

Definition at line 551 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), and bookHistograms().

◆ meZs1Ru_

MonitorElement* EcalSelectiveReadoutValidation::meZs1Ru_
private

Definition at line 580 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), and bookHistograms().

◆ meZsErrCnt_

MonitorElement* EcalSelectiveReadoutValidation::meZsErrCnt_
private

Definition at line 621 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ meZsErrType1Cnt_

MonitorElement* EcalSelectiveReadoutValidation::meZsErrType1Cnt_
private

Definition at line 624 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and bookHistograms().

◆ minDccId_

const int EcalSelectiveReadoutValidation::minDccId_ = 1
staticprivate

◆ nCompleteZS_

int EcalSelectiveReadoutValidation::nCompleteZS_
private

Counter of ZS-flagged RU fully read out.

Definition at line 647 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and checkSrApplication().

◆ nDccChs_

const unsigned EcalSelectiveReadoutValidation::nDccChs_ = 68
staticprivate

Number of input channels of a DCC.

Definition at line 423 of file EcalSelectiveReadoutValidation.h.

◆ nDccRus_

const int EcalSelectiveReadoutValidation::nDccRus_
staticprivate

number of RUs for each DCC

Definition at line 444 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume().

◆ nDccs_

const unsigned EcalSelectiveReadoutValidation::nDccs_ = 54
staticprivate

Total number of DCCs.

Definition at line 419 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeDataVolume(), bookHistograms(), getEeEventSize(), and selectFedsForLog().

◆ nDroppedFRO_

int EcalSelectiveReadoutValidation::nDroppedFRO_
private

Counter of FRO-flagged RU dropped from data.

Definition at line 641 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and checkSrApplication().

◆ nEb_

int EcalSelectiveReadoutValidation::nEb_
private

ECAL barrel read channel count

Definition at line 720 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEbDccs

const int EcalSelectiveReadoutValidation::nEbDccs = 36
staticprivate

number of DCCs for EB

Definition at line 432 of file EcalSelectiveReadoutValidation.h.

Referenced by getEbEventSize(), and getEeEventSize().

◆ nEbEta

const int EcalSelectiveReadoutValidation::nEbEta = 170
staticprivate

number of crystals along Eta in EB

Definition at line 450 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB().

◆ nEbFROCnt_

int EcalSelectiveReadoutValidation::nEbFROCnt_
private

Counter of EB FRO-flagged RUs.

Definition at line 650 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEB().

◆ nEbHI_

int EcalSelectiveReadoutValidation::nEbHI_
private

ECAL barrel high interest read channel count

Definition at line 740 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEbLI_

int EcalSelectiveReadoutValidation::nEbLI_
private

ECAL barrel low interest read channel count

Definition at line 736 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEbPhi

const int EcalSelectiveReadoutValidation::nEbPhi = 360
staticprivate

number of crystals along Phi in EB

Definition at line 453 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB().

◆ nEbRus

const int EcalSelectiveReadoutValidation::nEbRus = 36 * 68
staticprivate

number of RUs for EB

Definition at line 438 of file EcalSelectiveReadoutValidation.h.

◆ nEbTtEta

const int EcalSelectiveReadoutValidation::nEbTtEta = 34
staticprivate

Number of Trigger Towers in barrel along Eta.

Definition at line 471 of file EcalSelectiveReadoutValidation.h.

◆ nEbZsErrors_

int EcalSelectiveReadoutValidation::nEbZsErrors_
private

Counter of EB ZS errors (LI channel below ZS threshold)

Definition at line 656 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEB().

◆ nEbZsErrorsType1_

int EcalSelectiveReadoutValidation::nEbZsErrorsType1_
private

Counter of EB ZS errors of type 1: LI channel below ZS threshold and in a RU which was fully readout

Definition at line 663 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEB().

◆ nEe_

int EcalSelectiveReadoutValidation::nEe_
private

ECAL endcap read channel count

Definition at line 724 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEeDccs

const int EcalSelectiveReadoutValidation::nEeDccs = 18
staticprivate

number of DCCs for EE

Definition at line 435 of file EcalSelectiveReadoutValidation.h.

Referenced by getEbEventSize(), and getEeEventSize().

◆ nEeFROCnt_

int EcalSelectiveReadoutValidation::nEeFROCnt_
private

Counter of EE FRO-flagged RUs.

Definition at line 653 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEE().

◆ nEeHI_

int EcalSelectiveReadoutValidation::nEeHI_
private

ECAL endcap high interest read channel count

Definition at line 732 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEeLI_

int EcalSelectiveReadoutValidation::nEeLI_
private

ECAL endcap low interest read channel count

Definition at line 728 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nEeRus

const int EcalSelectiveReadoutValidation::nEeRus = 2 * (34 + 32 + 33 + 33 + 32 + 34 + 33 + 34 + 33)
staticprivate

number of RUs for EE

Definition at line 441 of file EcalSelectiveReadoutValidation.h.

◆ nEeX

const int EcalSelectiveReadoutValidation::nEeX = 100
staticprivate

EE crystal grid size along X.

Definition at line 456 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE().

◆ nEeY

const int EcalSelectiveReadoutValidation::nEeY = 100
staticprivate

EE crystal grid size along Y.

Definition at line 459 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE().

◆ nEeZsErrors_

int EcalSelectiveReadoutValidation::nEeZsErrors_
private

Counter of EE ZS errors (LI channel below ZS threshold)

Definition at line 659 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEE().

◆ nEeZsErrorsType1_

int EcalSelectiveReadoutValidation::nEeZsErrorsType1_
private

Counter of EE ZS errors of tyoe 1: LI channel below ZS threshold and in a RU which was fully readout

Definition at line 667 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEE().

◆ nEndcaps

const int EcalSelectiveReadoutValidation::nEndcaps = 2
staticprivate

number of endcaps

Definition at line 447 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEE().

◆ nHiPerDcc_

int EcalSelectiveReadoutValidation::nHiPerDcc_[nDccs_]
private

read-out ECAL Hiugh interest channel count for each DCC:

Definition at line 752 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nHiRuPerDcc_

int EcalSelectiveReadoutValidation::nHiRuPerDcc_[nDccs_]
private

Count for each DCC of HI RUs with at leat one channel read out:

Definition at line 764 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nIncompleteFRO_

int EcalSelectiveReadoutValidation::nIncompleteFRO_
private

Counter of FRO-flagged RU only partial data.

Definition at line 644 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and checkSrApplication().

◆ nLiPerDcc_

int EcalSelectiveReadoutValidation::nLiPerDcc_[nDccs_]
private

read-out ECAL Low interest channel count for each DCC:

Definition at line 748 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nLiRuPerDcc_

int EcalSelectiveReadoutValidation::nLiRuPerDcc_[nDccs_]
private

Count for each DCC of LI RUs with at leat one channel read out:

Definition at line 760 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nMaxXtalPerRu

const int EcalSelectiveReadoutValidation::nMaxXtalPerRu = 25
staticprivate

Number of crystals per Readout Unit excepted partial SCs.

Definition at line 480 of file EcalSelectiveReadoutValidation.h.

◆ nOneEeTtEta

const int EcalSelectiveReadoutValidation::nOneEeTtEta = 11
staticprivate

Number of Trigger Towers in an endcap along Eta.

Definition at line 468 of file EcalSelectiveReadoutValidation.h.

Referenced by dccCh().

◆ nPerDcc_

int EcalSelectiveReadoutValidation::nPerDcc_[nDccs_]
private

read-out ECAL channel count for each DCC:

Definition at line 744 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and analyzeDataVolume().

◆ nPerRu_

int EcalSelectiveReadoutValidation::nPerRu_[nDccs_][nDccChs_]
private

Number of crystal read for each DCC channel (aka readout unit).

Definition at line 777 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), analyzeDataVolume(), and checkSrApplication().

◆ nRuPerDcc_

int EcalSelectiveReadoutValidation::nRuPerDcc_[nDccs_]
private

Count for each DCC of RUs with at leat one channel read out:

Definition at line 756 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi(), anaDigiInit(), and getRuCount().

◆ nTtEta

const int EcalSelectiveReadoutValidation::nTtEta = 2 * nOneEeTtEta + nEbTtEta
staticprivate

Number of Trigger Towers along Eta.

Definition at line 474 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and setTtEtSums().

◆ nTtPhi

const int EcalSelectiveReadoutValidation::nTtPhi = 72
staticprivate

Number of Trigger Towers along Phi.

Definition at line 477 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and setTtEtSums().

◆ outputFile_

std::string EcalSelectiveReadoutValidation::outputFile_
private

Output file for histograms.

Definition at line 488 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation().

◆ physHandle

edm::ESGetToken<EcalTPGPhysicsConst, EcalTPGPhysicsConstRcd> EcalSelectiveReadoutValidation::physHandle
private

Definition at line 411 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP().

◆ rad2deg

const double EcalSelectiveReadoutValidation::rad2deg = 45. / atan(1.)
staticprivate

Conversion factor from radian to degree.

Definition at line 482 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), and analyzeEE().

◆ scEdge

const int EcalSelectiveReadoutValidation::scEdge = 5
staticprivate

Number of crystals along a supercrystal edge.

Definition at line 465 of file EcalSelectiveReadoutValidation.h.

Referenced by anaDigi().

◆ SkipInnerSC_

bool EcalSelectiveReadoutValidation::SkipInnerSC_
private

Permits to skip inner SC

Definition at line 791 of file EcalSelectiveReadoutValidation.h.

◆ srApplicationErrorLog_

std::ofstream EcalSelectiveReadoutValidation::srApplicationErrorLog_
private

Output ascii file for unconsistency between Xtals and RU Flags.

Definition at line 505 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeEB(), analyzeEE(), checkSrApplication(), initAsciiFile(), and selectFedsForLog().

◆ srApplicationErrorLogFileName_

std::string EcalSelectiveReadoutValidation::srApplicationErrorLogFileName_
private

Output ascii file name for unconsistency between SRFs and actual number of read-out crystals.

Definition at line 499 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation(), and initAsciiFile().

◆ srpAlgoErrorLog_

std::ofstream EcalSelectiveReadoutValidation::srpAlgoErrorLog_
private

Output ascii file for unconsistency on SR flags.

Definition at line 502 of file EcalSelectiveReadoutValidation.h.

Referenced by compareSrfColl(), initAsciiFile(), and selectFedsForLog().

◆ srpAlgoErrorLogFileName_

std::string EcalSelectiveReadoutValidation::srpAlgoErrorLogFileName_
private

Output ascii file name for unconsistency between SRFs read from data and SRF obtained by rerunning SRP algorithm on TTFs.

Definition at line 495 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation(), and initAsciiFile().

◆ tmax

int64_t EcalSelectiveReadoutValidation::tmax
private

For L1A rate estimate

Definition at line 532 of file EcalSelectiveReadoutValidation.h.

Referenced by getL1aRate(), and updateL1aRate().

◆ tmin

int64_t EcalSelectiveReadoutValidation::tmin
private

Definition at line 533 of file EcalSelectiveReadoutValidation.h.

Referenced by getL1aRate(), and updateL1aRate().

◆ tpInGeV_

bool EcalSelectiveReadoutValidation::tpInGeV_
private

Switch for uncompressing TP value

Definition at line 700 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and bookHistograms().

◆ tps_

CollHandle<EcalTrigPrimDigiCollection> EcalSelectiveReadoutValidation::tps_
private

◆ triggerTowerMap_

const EcalTrigTowerConstituentsMap* EcalSelectiveReadoutValidation::triggerTowerMap_
private

ECAL trigger tower mapping

Definition at line 671 of file EcalSelectiveReadoutValidation.h.

Referenced by dqmBeginRun(), readOutUnitOf(), and setTtEtSums().

◆ ttEtSums

double EcalSelectiveReadoutValidation::ttEtSums[nTtEta][nTtPhi]
private

Trigger tower Et computed as sum the crystal Et. Indices stands for the eta and phi TT index starting from 0 at eta minimum and at phi=0+ in std CMS coordinate system.

Definition at line 787 of file EcalSelectiveReadoutValidation.h.

Referenced by analyzeTP(), and setTtEtSums().

◆ useEventRate_

bool EcalSelectiveReadoutValidation::useEventRate_
private

Switch to fill histograms with event rate instead of event count. Applies only to some histograms.

Definition at line 710 of file EcalSelectiveReadoutValidation.h.

◆ verbose_

bool EcalSelectiveReadoutValidation::verbose_
private

Verbosity switch.

Definition at line 485 of file EcalSelectiveReadoutValidation.h.

Referenced by EcalSelectiveReadoutValidation().

◆ weights_

std::vector<double> EcalSelectiveReadoutValidation::weights_
private

Weights for amplitude local reconstruction

Definition at line 684 of file EcalSelectiveReadoutValidation.h.

Referenced by frame2Energy().

◆ withEbSimHit_

bool EcalSelectiveReadoutValidation::withEbSimHit_
private

Indicates if EB sim hits are available

Definition at line 817 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEB().

◆ withEeSimHit_

bool EcalSelectiveReadoutValidation::withEeSimHit_
private

Indicates if EE sim hits are available

Definition at line 813 of file EcalSelectiveReadoutValidation.h.

Referenced by analyze(), and analyzeEE().

◆ zsErrorLog_

std::ofstream EcalSelectiveReadoutValidation::zsErrorLog_
private

File to log ZS and other errors.

Definition at line 508 of file EcalSelectiveReadoutValidation.h.