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BtlLocalRecoValidation Class Reference

#include <Validation/MtdValidation/plugins/BtlLocalRecoValidation.cc>

Inheritance diagram for BtlLocalRecoValidation:
DQMEDAnalyzer edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >

Public Member Functions

 BtlLocalRecoValidation (const edm::ParameterSet &)
 
 ~BtlLocalRecoValidation () override
 
- Public Member Functions inherited from DQMEDAnalyzer
void accumulate (edm::Event const &event, edm::EventSetup const &setup) final
 
void beginLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
 
void beginRun (edm::Run const &run, edm::EventSetup const &setup) final
 
void beginStream (edm::StreamID id) final
 
virtual void dqmBeginRun (edm::Run const &, edm::EventSetup const &)
 
 DQMEDAnalyzer ()
 
void endLuminosityBlock (edm::LuminosityBlock const &lumi, edm::EventSetup const &setup) final
 
void endRun (edm::Run const &run, edm::EventSetup const &setup) final
 
virtual bool getCanSaveByLumi ()
 
- Public Member Functions inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
 EDProducer ()=default
 
 EDProducer (const EDProducer &)=delete
 
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
 

Static Public Member Functions

static void fillDescriptions (edm::ConfigurationDescriptions &descriptions)
 
- Static Public Member Functions inherited from DQMEDAnalyzer
static void globalEndJob (DQMEDAnalyzerGlobalCache const *)
 
static void globalEndLuminosityBlockProduce (edm::LuminosityBlock &lumi, edm::EventSetup const &setup, LuminosityBlockContext const *context)
 
static void globalEndRunProduce (edm::Run &run, edm::EventSetup const &setup, RunContext const *context)
 
static std::unique_ptr< DQMEDAnalyzerGlobalCacheinitializeGlobalCache (edm::ParameterSet const &)
 

Private Member Functions

void analyze (const edm::Event &, const edm::EventSetup &) override
 
void bookHistograms (DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
 
bool isSameCluster (const FTLCluster &, const FTLCluster &)
 

Private Attributes

edm::EDGetTokenT< FTLClusterCollectionbtlRecCluToken_
 
edm::EDGetTokenT< FTLRecHitCollectionbtlRecHitsToken_
 
edm::EDGetTokenT< CrossingFrame< PSimHit > > btlSimHitsToken_
 
edm::EDGetTokenT< FTLUncalibratedRecHitCollectionbtlUncalibRecHitsToken_
 
const edm::ESGetToken< MTDClusterParameterEstimator, MTDCPERecordcpeToken_
 
const std::string folder_
 
const double hitMinAmplitude_
 
const double hitMinEnergy_
 
MonitorElementmeCluEnergy_
 
MonitorElementmeCluEnergyRes_
 
MonitorElementmeCluEnergyvsEta_
 
MonitorElementmeCluEta_
 
MonitorElementmeCluHits_
 
MonitorElementmeCluHitsvsEta_
 
MonitorElementmeCluLocalXPull_
 
MonitorElementmeCluLocalXRes_
 
MonitorElementmeCluLocalYPull_
 
MonitorElementmeCluLocalYRes_
 
MonitorElementmeCluPhi_
 
MonitorElementmeCluPhiRes_
 
MonitorElementmeCluRhoRes_
 
MonitorElementmeCluTime_
 
MonitorElementmeCluTimeError_
 
MonitorElementmeCluTimeRes_
 
MonitorElementmeCluTPullvsE_
 
MonitorElementmeCluTPullvsEta_
 
MonitorElementmeCluTResvsE_
 
MonitorElementmeCluTResvsEta_
 
MonitorElementmeCluXLocalErr_
 
MonitorElementmeCluYLocalErr_
 
MonitorElementmeCluYXLocal_
 
MonitorElementmeCluYXLocalSim_
 
MonitorElementmeCluZPull_
 
MonitorElementmeCluZRes_
 
MonitorElementmeCluZvsPhi_
 
MonitorElementmeEnergyRes_
 
MonitorElementmeHitEnergy_
 
MonitorElementmeHitEta_
 
MonitorElementmeHitEvsEta_
 
MonitorElementmeHitEvsPhi_
 
MonitorElementmeHitEvsZ_
 
MonitorElementmeHitLogEnergy_
 
MonitorElementmeHitLongPos_
 
MonitorElementmeHitLongPosErr_
 
MonitorElementmeHitPhi_
 
MonitorElementmeHitTime_
 
MonitorElementmeHitTimeError_
 
MonitorElementmeHitTvsE_
 
MonitorElementmeHitTvsEta_
 
MonitorElementmeHitTvsPhi_
 
MonitorElementmeHitTvsZ_
 
MonitorElementmeHitXlocal_
 
MonitorElementmeHitYlocal_
 
MonitorElementmeHitZ_
 
MonitorElementmeHitZlocal_
 
MonitorElementmeLocalOccupancy_
 
MonitorElementmeLongPosPull_
 
MonitorElementmeLongPosPullvsE_
 
MonitorElementmeLongPosPullvsEta_
 
MonitorElementmeNclusters_
 
MonitorElementmeNevents_
 
MonitorElementmeNhits_
 
MonitorElementmeOccupancy_
 
MonitorElementmeTimeRes_
 
MonitorElementmeTimeResEta_ [nBinsEta_]
 
MonitorElementmeTimeResEtavsQ_ [nBinsEta_][nBinsEtaQ_]
 
MonitorElementmeTimeResQ_ [nBinsQ_]
 
MonitorElementmeTimeResQvsEta_ [nBinsQ_][nBinsQEta_]
 
MonitorElementmeTPullvsE_
 
MonitorElementmeTPullvsEta_
 
MonitorElementmeUnmatchedCluEnergy_
 
const edm::ESGetToken< MTDGeometry, MTDDigiGeometryRecordmtdgeoToken_
 
const edm::ESGetToken< MTDTopology, MTDTopologyRcdmtdtopoToken_
 
edm::EDGetTokenT< MTDTrackingDetSetVectormtdTrackingHitToken_
 
const bool optionalPlots_
 
const bool uncalibRecHitsPlots_
 

Static Private Attributes

static constexpr float binsEtaQ_ [nBinsEtaQ_+1] = {0., 30., 60., 90., 120., 150., 360., 600.}
 
static constexpr float binsQEta_ [nBinsQEta_+1] = {0., 0.65, 1.15, 1.55}
 
static constexpr float binWidthEta_ = 0.05
 
static constexpr float binWidthQ_ = 30.
 
static constexpr int nBinsEta_ = 31
 
static constexpr int nBinsEtaQ_ = 7
 
static constexpr int nBinsQ_ = 20
 
static constexpr int nBinsQEta_ = 3
 

Additional Inherited Members

- Public Types inherited from DQMEDAnalyzer
typedef dqm::reco::DQMStore DQMStore
 
typedef dqm::reco::MonitorElement MonitorElement
 
- Public Types inherited from edm::stream::EDProducer< edm::GlobalCache< DQMEDAnalyzerGlobalCache >, edm::EndRunProducer, edm::EndLuminosityBlockProducer, edm::Accumulator >
using CacheTypes = CacheContexts< T... >
 
using GlobalCache = typename CacheTypes::GlobalCache
 
using HasAbility = AbilityChecker< T... >
 
using InputProcessBlockCache = typename CacheTypes::InputProcessBlockCache
 
using LuminosityBlockCache = typename CacheTypes::LuminosityBlockCache
 
using LuminosityBlockContext = LuminosityBlockContextT< LuminosityBlockCache, RunCache, GlobalCache >
 
using LuminosityBlockSummaryCache = typename CacheTypes::LuminosityBlockSummaryCache
 
using RunCache = typename CacheTypes::RunCache
 
using RunContext = RunContextT< RunCache, GlobalCache >
 
using RunSummaryCache = typename CacheTypes::RunSummaryCache
 
- Protected Member Functions inherited from DQMEDAnalyzer
uint64_t meId () const
 
- Protected Attributes inherited from DQMEDAnalyzer
edm::EDPutTokenT< DQMTokenlumiToken_
 
edm::EDPutTokenT< DQMTokenrunToken_
 
unsigned int streamId_
 

Detailed Description

Description: BTL RECO hits and clusters validation

Implementation: [Notes on implementation]

Definition at line 50 of file BtlLocalRecoValidation.cc.

Constructor & Destructor Documentation

◆ BtlLocalRecoValidation()

BtlLocalRecoValidation::BtlLocalRecoValidation ( const edm::ParameterSet iConfig)
explicit

Definition at line 183 of file BtlLocalRecoValidation.cc.

References btlRecCluToken_, btlRecHitsToken_, btlSimHitsToken_, btlUncalibRecHitsToken_, edm::ParameterSet::getParameter(), mtdTrackingHitToken_, and uncalibRecHitsPlots_.

184  : folder_(iConfig.getParameter<std::string>("folder")),
185  hitMinEnergy_(iConfig.getParameter<double>("HitMinimumEnergy")),
186  optionalPlots_(iConfig.getParameter<bool>("optionalPlots")),
187  uncalibRecHitsPlots_(iConfig.getParameter<bool>("UncalibRecHitsPlots")),
188  hitMinAmplitude_(iConfig.getParameter<double>("HitMinimumAmplitude")),
189  mtdgeoToken_(esConsumes<MTDGeometry, MTDDigiGeometryRecord>()),
190  mtdtopoToken_(esConsumes<MTDTopology, MTDTopologyRcd>()),
191  cpeToken_(esConsumes<MTDClusterParameterEstimator, MTDCPERecord>(edm::ESInputTag("", "MTDCPEBase"))) {
192  btlRecHitsToken_ = consumes<FTLRecHitCollection>(iConfig.getParameter<edm::InputTag>("recHitsTag"));
195  consumes<FTLUncalibratedRecHitCollection>(iConfig.getParameter<edm::InputTag>("uncalibRecHitsTag"));
196  btlSimHitsToken_ = consumes<CrossingFrame<PSimHit> >(iConfig.getParameter<edm::InputTag>("simHitsTag"));
197  btlRecCluToken_ = consumes<FTLClusterCollection>(iConfig.getParameter<edm::InputTag>("recCluTag"));
198  mtdTrackingHitToken_ = consumes<MTDTrackingDetSetVector>(iConfig.getParameter<edm::InputTag>("trkHitTag"));
199 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
const edm::ESGetToken< MTDTopology, MTDTopologyRcd > mtdtopoToken_
const edm::ESGetToken< MTDClusterParameterEstimator, MTDCPERecord > cpeToken_
edm::EDGetTokenT< MTDTrackingDetSetVector > mtdTrackingHitToken_
edm::EDGetTokenT< FTLClusterCollection > btlRecCluToken_
edm::EDGetTokenT< FTLUncalibratedRecHitCollection > btlUncalibRecHitsToken_
const edm::ESGetToken< MTDGeometry, MTDDigiGeometryRecord > mtdgeoToken_
edm::EDGetTokenT< FTLRecHitCollection > btlRecHitsToken_
edm::EDGetTokenT< CrossingFrame< PSimHit > > btlSimHitsToken_

◆ ~BtlLocalRecoValidation()

BtlLocalRecoValidation::~BtlLocalRecoValidation ( )
override

Definition at line 201 of file BtlLocalRecoValidation.cc.

201 {}

Member Function Documentation

◆ analyze()

void BtlLocalRecoValidation::analyze ( const edm::Event iEvent,
const edm::EventSetup iSetup 
)
overrideprivatevirtual

Reimplemented from DQMEDAnalyzer.

Definition at line 204 of file BtlLocalRecoValidation.cc.

References funct::abs(), binsEtaQ_, binsQEta_, binWidthEta_, binWidthQ_, btlRecCluToken_, btlRecHitsToken_, btlSimHitsToken_, btlUncalibRecHitsToken_, BTLDetId::column(), AlCaHLTBitMon_QueryRunRegistry::comp, angle_units::operators::convertMmToCm(), geant_units::operators::convertUnitsTo(), cpeToken_, MTDTopologyMode::crysLayoutFromTopoMode(), TauDecayModes::dec, HCALHighEnergyHPDFilter_cfi::energy, muonRecoAnalyzer_cfi::etaBin, Exception, dqm::impl::MonitorElement::Fill(), BTLDetId::geographicalId(), totem::nt2::vfat::geoId(), relativeConstraints::geom, edm::EventSetup::getData(), MTDTopology::getMTDTopologyMode(), edm::EventSetup::getTransientHandle(), hitMinAmplitude_, hitMinEnergy_, hfClusterShapes_cfi::hits, iEvent, createfilelist::int, isSameCluster(), LogDebug, edm::makeValid(), meCluEnergy_, meCluEnergyRes_, meCluEnergyvsEta_, meCluEta_, meCluHits_, meCluHitsvsEta_, meCluLocalXPull_, meCluLocalXRes_, meCluLocalYPull_, meCluLocalYRes_, meCluPhi_, meCluPhiRes_, meCluRhoRes_, meCluTime_, meCluTimeError_, meCluTimeRes_, meCluTPullvsE_, meCluTPullvsEta_, meCluTResvsE_, meCluTResvsEta_, meCluXLocalErr_, meCluYLocalErr_, meCluYXLocal_, meCluYXLocalSim_, meCluZPull_, meCluZRes_, meCluZvsPhi_, meEnergyRes_, meHitEnergy_, meHitEta_, meHitEvsEta_, meHitEvsPhi_, meHitEvsZ_, meHitLogEnergy_, meHitLongPos_, meHitLongPosErr_, meHitPhi_, meHitTime_, meHitTimeError_, meHitTvsE_, meHitTvsEta_, meHitTvsPhi_, meHitTvsZ_, meHitXlocal_, meHitYlocal_, meHitZ_, meHitZlocal_, meLocalOccupancy_, meLongPosPull_, meLongPosPullvsE_, meLongPosPullvsEta_, meNclusters_, meNevents_, meNhits_, meOccupancy_, meTimeRes_, meTimeResEta_, meTimeResEtavsQ_, meTimeResQ_, meTimeResQvsEta_, meTPullvsE_, meTPullvsEta_, meUnmatchedCluEnergy_, mtdgeoToken_, MTDDetId::mtdRR(), MTDDetId::mtdSide(), mtdtopoToken_, mtdTrackingHitToken_, nBinsEta_, nBinsEtaQ_, nBinsQ_, nBinsQEta_, nHits, RectangularMTDTopology::nrows(), optionalPlots_, RectangularMTDTopology::pixelToModuleLocalPoint(), ApeEstimator_cff::qBin, DetId::rawId(), rpcPointValidation_cfi::recHit, BTLDetId::row(), rpcPointValidation_cfi::simHit, ProxyMTDTopology::specificTopology(), mathSSE::sqrt(), protons_cff::time, GeomDet::toGlobal(), GeomDet::topology(), mkLumiAveragedPlots::tuple, uncalibRecHitsPlots_, x, PV3DBase< T, PVType, FrameType >::x(), hit::x, y, PV3DBase< T, PVType, FrameType >::y(), hit::y, z, and PV3DBase< T, PVType, FrameType >::z().

204  {
205  using namespace edm;
206  using namespace std;
207  using namespace geant_units::operators;
208 
209  auto geometryHandle = iSetup.getTransientHandle(mtdgeoToken_);
210  const MTDGeometry* geom = geometryHandle.product();
211 
212  auto topologyHandle = iSetup.getTransientHandle(mtdtopoToken_);
213  const MTDTopology* topology = topologyHandle.product();
214 
215  auto const& cpe = iSetup.getData(cpeToken_);
216 
217  auto btlRecHitsHandle = makeValid(iEvent.getHandle(btlRecHitsToken_));
218  auto btlSimHitsHandle = makeValid(iEvent.getHandle(btlSimHitsToken_));
219  auto btlRecCluHandle = makeValid(iEvent.getHandle(btlRecCluToken_));
220  auto mtdTrkHitHandle = makeValid(iEvent.getHandle(mtdTrackingHitToken_));
221  MixCollection<PSimHit> btlSimHits(btlSimHitsHandle.product());
222 
223 #ifdef EDM_ML_DEBUG
224  for (const auto& hits : *mtdTrkHitHandle) {
225  if (MTDDetId(hits.id()).mtdSubDetector() == MTDDetId::MTDType::BTL) {
226  LogDebug("BtlLocalRecoValidation") << "MTD cluster DetId " << hits.id() << " # cluster " << hits.size();
227  for (const auto& hit : hits) {
228  LogDebug("BtlLocalRecoValidation")
229  << "MTD_TRH: " << hit.localPosition().x() << "," << hit.localPosition().y() << " : "
230  << hit.localPositionError().xx() << "," << hit.localPositionError().yy() << " : " << hit.time() << " : "
231  << hit.timeError();
232  }
233  }
234  }
235 #endif
236 
237  // --- Loop over the BTL SIM hits
238  std::unordered_map<uint32_t, MTDHit> m_btlSimHits;
239  for (auto const& simHit : btlSimHits) {
240  // --- Use only hits compatible with the in-time bunch-crossing
241  if (simHit.tof() < 0 || simHit.tof() > 25.)
242  continue;
243 
244  DetId id = simHit.detUnitId();
245 
246  auto simHitIt = m_btlSimHits.emplace(id.rawId(), MTDHit()).first;
247 
248  // --- Accumulate the energy (in MeV) of SIM hits in the same detector cell
249  (simHitIt->second).energy += convertUnitsTo(0.001_MeV, simHit.energyLoss());
250 
251  // --- Get the time of the first SIM hit in the cell
252  if ((simHitIt->second).time == 0 || simHit.tof() < (simHitIt->second).time) {
253  (simHitIt->second).time = simHit.tof();
254 
255  auto hit_pos = simHit.localPosition();
256  (simHitIt->second).x = hit_pos.x();
257  (simHitIt->second).y = hit_pos.y();
258  (simHitIt->second).z = hit_pos.z();
259  }
260 
261  } // simHit loop
262 
263  // --- Loop over the BTL RECO hits
264  unsigned int n_reco_btl = 0;
265  for (const auto& recHit : *btlRecHitsHandle) {
266  BTLDetId detId = recHit.id();
268  const MTDGeomDet* thedet = geom->idToDet(geoId);
269  if (thedet == nullptr)
270  throw cms::Exception("BtlLocalRecoValidation") << "GeographicalID: " << std::hex << geoId.rawId() << " ("
271  << detId.rawId() << ") is invalid!" << std::dec << std::endl;
272  const ProxyMTDTopology& topoproxy = static_cast<const ProxyMTDTopology&>(thedet->topology());
273  const RectangularMTDTopology& topo = static_cast<const RectangularMTDTopology&>(topoproxy.specificTopology());
274 
275  Local3DPoint local_point(0., 0., 0.);
276  local_point = topo.pixelToModuleLocalPoint(local_point, detId.row(topo.nrows()), detId.column(topo.nrows()));
277  const auto& global_point = thedet->toGlobal(local_point);
278 
279  meHitEnergy_->Fill(recHit.energy());
280  meHitLogEnergy_->Fill(log10(recHit.energy()));
281  meHitTime_->Fill(recHit.time());
282  meHitTimeError_->Fill(recHit.timeError());
283  meHitLongPos_->Fill(recHit.position());
284  meHitLongPosErr_->Fill(recHit.positionError());
285 
286  meOccupancy_->Fill(global_point.z(), global_point.phi());
287 
288  if (optionalPlots_) {
289  meLocalOccupancy_->Fill(local_point.x() + recHit.position(), local_point.y());
290  }
291  meHitXlocal_->Fill(local_point.x());
292  meHitYlocal_->Fill(local_point.y());
293  meHitZlocal_->Fill(local_point.z());
294  meHitZ_->Fill(global_point.z());
295  meHitPhi_->Fill(global_point.phi());
296  meHitEta_->Fill(global_point.eta());
297 
298  meHitTvsE_->Fill(recHit.energy(), recHit.time());
299  meHitEvsPhi_->Fill(global_point.phi(), recHit.energy());
300  meHitEvsEta_->Fill(global_point.eta(), recHit.energy());
301  meHitEvsZ_->Fill(global_point.z(), recHit.energy());
302  meHitTvsPhi_->Fill(global_point.phi(), recHit.time());
303  meHitTvsEta_->Fill(global_point.eta(), recHit.time());
304  meHitTvsZ_->Fill(global_point.z(), recHit.time());
305 
306  // Resolution histograms
307  if (m_btlSimHits.count(detId.rawId()) == 1 && m_btlSimHits[detId.rawId()].energy > hitMinEnergy_) {
308  float longpos_res = recHit.position() - convertMmToCm(m_btlSimHits[detId.rawId()].x);
309  float time_res = recHit.time() - m_btlSimHits[detId.rawId()].time;
310  float energy_res = recHit.energy() - m_btlSimHits[detId.rawId()].energy;
311 
312  Local3DPoint local_point_sim(convertMmToCm(m_btlSimHits[detId.rawId()].x),
313  convertMmToCm(m_btlSimHits[detId.rawId()].y),
314  convertMmToCm(m_btlSimHits[detId.rawId()].z));
315  local_point_sim =
316  topo.pixelToModuleLocalPoint(local_point_sim, detId.row(topo.nrows()), detId.column(topo.nrows()));
317  const auto& global_point_sim = thedet->toGlobal(local_point_sim);
318 
319  meTimeRes_->Fill(time_res);
320  meEnergyRes_->Fill(energy_res);
321 
322  meLongPosPull_->Fill(longpos_res / recHit.positionError());
323  meLongPosPullvsEta_->Fill(std::abs(global_point_sim.eta()), longpos_res / recHit.positionError());
324  meLongPosPullvsE_->Fill(m_btlSimHits[detId.rawId()].energy, longpos_res / recHit.positionError());
325 
326  meTPullvsEta_->Fill(std::abs(global_point_sim.eta()), time_res / recHit.timeError());
327  meTPullvsE_->Fill(m_btlSimHits[detId.rawId()].energy, time_res / recHit.timeError());
328  }
329 
330  n_reco_btl++;
331 
332  } // recHit loop
333 
334  if (n_reco_btl > 0)
335  meNhits_->Fill(log10(n_reco_btl));
336 
337  // --- Loop over the BTL RECO clusters ---
338  unsigned int n_clus_btl(0);
339  for (const auto& DetSetClu : *btlRecCluHandle) {
340  for (const auto& cluster : DetSetClu) {
341  if (cluster.energy() < hitMinEnergy_)
342  continue;
343  BTLDetId cluId = cluster.id();
344  DetId detIdObject(cluId);
345  const auto& genericDet = geom->idToDetUnit(detIdObject);
346  if (genericDet == nullptr) {
347  throw cms::Exception("BtlLocalRecoValidation")
348  << "GeographicalID: " << std::hex << cluId << " is invalid!" << std::dec << std::endl;
349  }
350  n_clus_btl++;
351 
352  const ProxyMTDTopology& topoproxy = static_cast<const ProxyMTDTopology&>(genericDet->topology());
353  const RectangularMTDTopology& topo = static_cast<const RectangularMTDTopology&>(topoproxy.specificTopology());
354 
355  MTDClusterParameterEstimator::ReturnType tuple = cpe.getParameters(cluster, *genericDet);
356 
357  // --- Cluster position in the module reference frame
358  LocalPoint local_point(std::get<0>(tuple));
359  const auto& global_point = genericDet->toGlobal(local_point);
360 
361  meCluEnergy_->Fill(cluster.energy());
362  meCluTime_->Fill(cluster.time());
363  meCluTimeError_->Fill(cluster.timeError());
364  meCluPhi_->Fill(global_point.phi());
365  meCluEta_->Fill(global_point.eta());
366  meCluZvsPhi_->Fill(global_point.z(), global_point.phi());
367  meCluHits_->Fill(cluster.size());
368 
369  // --- Get the SIM hits associated to the cluster and calculate
370  // the cluster SIM energy, time and position
371 
372  double cluEneSIM = 0.;
373  double cluTimeSIM = 0.;
374  double cluLocXSIM = 0.;
375  double cluLocYSIM = 0.;
376  double cluLocZSIM = 0.;
377 
378  for (int ihit = 0; ihit < cluster.size(); ++ihit) {
379  int hit_row = cluster.minHitRow() + cluster.hitOffset()[ihit * 2];
380  int hit_col = cluster.minHitCol() + cluster.hitOffset()[ihit * 2 + 1];
381 
382  // Match the RECO hit to the corresponding SIM hit
383  for (const auto& recHit : *btlRecHitsHandle) {
384  BTLDetId hitId(recHit.id().rawId());
385 
386  if (m_btlSimHits.count(hitId.rawId()) == 0)
387  continue;
388 
389  // Check the hit position
390  if (hitId.mtdSide() != cluId.mtdSide() || hitId.mtdRR() != cluId.mtdRR() || recHit.row() != hit_row ||
391  recHit.column() != hit_col)
392  continue;
393 
394  // Check the hit energy and time
395  if (recHit.energy() != cluster.hitENERGY()[ihit] || recHit.time() != cluster.hitTIME()[ihit])
396  continue;
397 
398  // SIM hit's position in the module reference frame
399  Local3DPoint local_point_sim(convertMmToCm(m_btlSimHits[recHit.id().rawId()].x),
400  convertMmToCm(m_btlSimHits[recHit.id().rawId()].y),
401  convertMmToCm(m_btlSimHits[recHit.id().rawId()].z));
402  local_point_sim =
403  topo.pixelToModuleLocalPoint(local_point_sim, hitId.row(topo.nrows()), hitId.column(topo.nrows()));
404 
405  // Calculate the SIM cluster's position in the module reference frame
406  cluLocXSIM += local_point_sim.x() * m_btlSimHits[recHit.id().rawId()].energy;
407  cluLocYSIM += local_point_sim.y() * m_btlSimHits[recHit.id().rawId()].energy;
408  cluLocZSIM += local_point_sim.z() * m_btlSimHits[recHit.id().rawId()].energy;
409 
410  // Calculate the SIM cluster energy and time
411  cluEneSIM += m_btlSimHits[recHit.id().rawId()].energy;
412  cluTimeSIM += m_btlSimHits[recHit.id().rawId()].time * m_btlSimHits[recHit.id().rawId()].energy;
413 
414  break;
415 
416  } // recHit loop
417 
418  } // ihit loop
419 
420  // Find the MTDTrackingRecHit corresponding to the cluster
421  const MTDTrackingRecHit* comp(nullptr);
422  bool matchClu = false;
423  const auto& trkHits = (*mtdTrkHitHandle)[detIdObject];
424  for (const auto& trkHit : trkHits) {
425  if (isSameCluster(trkHit.mtdCluster(), cluster)) {
426  comp = trkHit.clone();
427  matchClu = true;
428  break;
429  }
430  }
431  if (!matchClu) {
432  edm::LogWarning("BtlLocalRecoValidation")
433  << "No valid TrackingRecHit corresponding to cluster, detId = " << detIdObject.rawId();
434  }
435 
436  // --- Fill the cluster resolution histograms
437  if (cluTimeSIM > 0. && cluEneSIM > 0.) {
438  cluTimeSIM /= cluEneSIM;
439 
440  Local3DPoint cluLocalPosSIM(cluLocXSIM / cluEneSIM, cluLocYSIM / cluEneSIM, cluLocZSIM / cluEneSIM);
441  const auto& cluGlobalPosSIM = genericDet->toGlobal(cluLocalPosSIM);
442 
443  float time_res = cluster.time() - cluTimeSIM;
444  float energy_res = cluster.energy() - cluEneSIM;
445  meCluTimeRes_->Fill(time_res);
446  meCluEnergyRes_->Fill(energy_res);
447 
448  float rho_res = global_point.perp() - cluGlobalPosSIM.perp();
449  float phi_res = global_point.phi() - cluGlobalPosSIM.phi();
450 
451  meCluRhoRes_->Fill(rho_res);
452  meCluPhiRes_->Fill(phi_res);
453 
454  float xlocal_res = local_point.x() - cluLocalPosSIM.x();
455  float ylocal_res = local_point.y() - cluLocalPosSIM.y();
456  float z_res = global_point.z() - cluGlobalPosSIM.z();
457 
458  meCluZRes_->Fill(z_res);
459 
460  if (matchClu && comp != nullptr) {
461  meCluLocalXRes_->Fill(xlocal_res);
462  meCluLocalYRes_->Fill(ylocal_res);
463  meCluLocalXPull_->Fill(xlocal_res / std::sqrt(comp->localPositionError().xx()));
464  meCluLocalYPull_->Fill(ylocal_res / std::sqrt(comp->localPositionError().yy()));
465  meCluZPull_->Fill(z_res / std::sqrt(comp->globalPositionError().czz()));
466  meCluXLocalErr_->Fill(std::sqrt(comp->localPositionError().xx()));
467  meCluYLocalErr_->Fill(std::sqrt(comp->localPositionError().yy()));
468  }
469 
470  if (optionalPlots_) {
471  meCluYXLocal_->Fill(local_point.x(), local_point.y());
472  meCluYXLocalSim_->Fill(cluLocalPosSIM.x(), cluLocalPosSIM.y());
473  }
474 
475  meCluEnergyvsEta_->Fill(std::abs(cluGlobalPosSIM.eta()), cluster.energy());
476  meCluHitsvsEta_->Fill(std::abs(cluGlobalPosSIM.eta()), cluster.size());
477 
478  meCluTResvsEta_->Fill(std::abs(cluGlobalPosSIM.eta()), time_res);
479  meCluTResvsE_->Fill(cluEneSIM, time_res);
480 
481  meCluTPullvsEta_->Fill(std::abs(cluGlobalPosSIM.eta()), time_res / cluster.timeError());
482  meCluTPullvsE_->Fill(cluEneSIM, time_res / cluster.timeError());
483 
484  } // if ( cluTimeSIM > 0. && cluEneSIM > 0. )
485  else {
486  meUnmatchedCluEnergy_->Fill(std::log10(cluster.energy()));
487  }
488 
489  } // cluster loop
490 
491  } // DetSetClu loop
492 
493  if (n_clus_btl > 0)
494  meNclusters_->Fill(log10(n_clus_btl));
495 
496  // --- This is to count the number of processed events, needed in the harvesting step
497  meNevents_->Fill(0.5);
498 
499  // --- Loop over the BTL Uncalibrated RECO hits
500  if (uncalibRecHitsPlots_) {
501  auto btlUncalibRecHitsHandle = makeValid(iEvent.getHandle(btlUncalibRecHitsToken_));
502 
503  for (const auto& uRecHit : *btlUncalibRecHitsHandle) {
504  BTLDetId detId = uRecHit.id();
505 
506  // --- Skip UncalibratedRecHits not matched to SimHits
507  if (m_btlSimHits.count(detId.rawId()) != 1)
508  continue;
509 
511  const MTDGeomDet* thedet = geom->idToDet(geoId);
512  if (thedet == nullptr)
513  throw cms::Exception("BtlLocalRecoValidation") << "GeographicalID: " << std::hex << geoId.rawId() << " ("
514  << detId.rawId() << ") is invalid!" << std::dec << std::endl;
515  const ProxyMTDTopology& topoproxy = static_cast<const ProxyMTDTopology&>(thedet->topology());
516  const RectangularMTDTopology& topo = static_cast<const RectangularMTDTopology&>(topoproxy.specificTopology());
517 
518  Local3DPoint local_point(0., 0., 0.);
519  local_point = topo.pixelToModuleLocalPoint(local_point, detId.row(topo.nrows()), detId.column(topo.nrows()));
520  const auto& global_point = thedet->toGlobal(local_point);
521 
522  // --- Combine the information from the left and right BTL cell sides
523 
524  float nHits = 0.;
525  float hit_amplitude = 0.;
526  float hit_time = 0.;
527 
528  // left side:
529  if (uRecHit.amplitude().first > 0.) {
530  hit_amplitude += uRecHit.amplitude().first;
531  hit_time += uRecHit.time().first;
532  nHits += 1.;
533  }
534  // right side:
535  if (uRecHit.amplitude().second > 0.) {
536  hit_amplitude += uRecHit.amplitude().second;
537  hit_time += uRecHit.time().second;
538  nHits += 1.;
539  }
540 
541  hit_amplitude /= nHits;
542  hit_time /= nHits;
543 
544  // --- Fill the histograms
545 
546  if (hit_amplitude < hitMinAmplitude_)
547  continue;
548 
549  float time_res = hit_time - m_btlSimHits[detId.rawId()].time;
550 
551  // amplitude histograms
552 
553  int qBin = (int)(hit_amplitude / binWidthQ_);
554  if (qBin > nBinsQ_ - 1)
555  qBin = nBinsQ_ - 1;
556 
557  meTimeResQ_[qBin]->Fill(time_res);
558 
559  int etaBin = 0;
560  for (int ibin = 1; ibin < nBinsQEta_; ++ibin)
561  if (fabs(global_point.eta()) >= binsQEta_[ibin] && fabs(global_point.eta()) < binsQEta_[ibin + 1])
562  etaBin = ibin;
563 
564  meTimeResQvsEta_[qBin][etaBin]->Fill(time_res);
565 
566  // eta histograms
567 
568  etaBin = (int)(fabs(global_point.eta()) / binWidthEta_);
569  if (etaBin > nBinsEta_ - 1)
570  etaBin = nBinsEta_ - 1;
571 
572  meTimeResEta_[etaBin]->Fill(time_res);
573 
574  qBin = 0;
575  for (int ibin = 1; ibin < nBinsEtaQ_; ++ibin)
576  if (hit_amplitude >= binsEtaQ_[ibin] && hit_amplitude < binsEtaQ_[ibin + 1])
577  qBin = ibin;
578 
579  meTimeResEtavsQ_[etaBin][qBin]->Fill(time_res);
580 
581  } // uRecHit loop
582  }
583 }
uint8_t geoId(const VFATFrame &frame)
retrieve the GEO information for this channel
int getMTDTopologyMode() const
Definition: MTDTopology.h:27
int row(unsigned nrows=kCrystalsPerModuleV2) const
Definition: BTLDetId.h:93
T const & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119
const edm::ESGetToken< MTDTopology, MTDTopologyRcd > mtdtopoToken_
virtual const Topology & topology() const
Definition: GeomDet.cc:67
virtual const PixelTopology & specificTopology() const
const edm::ESGetToken< MTDClusterParameterEstimator, MTDCPERecord > cpeToken_
int mtdSide() const
Definition: MTDDetId.h:59
Definition: MTDHit.h:4
static constexpr float binWidthQ_
MonitorElement * meUnmatchedCluEnergy_
static constexpr int nBinsEtaQ_
LocalPoint pixelToModuleLocalPoint(const LocalPoint &plp, int row, int col) const
edm::EDGetTokenT< MTDTrackingDetSetVector > mtdTrackingHitToken_
MonitorElement * meLongPosPullvsEta_
Detector identifier base class for the MIP Timing Layer.
Definition: MTDDetId.h:21
constexpr NumType convertUnitsTo(double desiredUnits, NumType val)
Definition: GeantUnits.h:73
bool isSameCluster(const FTLCluster &, const FTLCluster &)
void Fill(long long x)
T x() const
Definition: PV3DBase.h:59
int iEvent
Definition: GenABIO.cc:224
static constexpr float binWidthEta_
T sqrt(T t)
Definition: SSEVec.h:19
edm::EDGetTokenT< FTLClusterCollection > btlRecCluToken_
static constexpr float binsQEta_[nBinsQEta_+1]
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int mtdRR() const
Definition: MTDDetId.h:64
static constexpr int nBinsQEta_
int nrows() const override
MonitorElement * meLocalOccupancy_
MonitorElement * meTimeResEta_[nBinsEta_]
int column(unsigned nrows=kCrystalsPerModuleV2) const
Definition: BTLDetId.h:98
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:49
edm::EDGetTokenT< FTLUncalibratedRecHitCollection > btlUncalibRecHitsToken_
const edm::ESGetToken< MTDGeometry, MTDDigiGeometryRecord > mtdgeoToken_
Definition: DetId.h:17
constexpr NumType convertMmToCm(NumType millimeters)
Definition: angle_units.h:44
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
edm::EDGetTokenT< FTLRecHitCollection > btlRecHitsToken_
A 2D TrackerRecHit with time and time error information.
static constexpr int nBinsQ_
MonitorElement * meTimeResQvsEta_[nBinsQ_][nBinsQEta_]
static constexpr float binsEtaQ_[nBinsEtaQ_+1]
HLT enums.
MonitorElement * meTimeResEtavsQ_[nBinsEta_][nBinsEtaQ_]
Detector identifier class for the Barrel Timing Layer. The crystal count must start from 0...
Definition: BTLDetId.h:19
ESTransientHandle< T > getTransientHandle(const ESGetToken< T, R > &iToken) const
Definition: EventSetup.h:141
static constexpr int nBinsEta_
BTLDetId::CrysLayout crysLayoutFromTopoMode(const int &topoMode)
Log< level::Warning, false > LogWarning
auto makeValid(const U &iOtherHandleType) noexcept(false)
Definition: ValidHandle.h:52
TupleMultiplicity< TrackerTraits > const *__restrict__ uint32_t nHits
edm::EDGetTokenT< CrossingFrame< PSimHit > > btlSimHitsToken_
MonitorElement * meTimeResQ_[nBinsQ_]
std::tuple< LocalPoint, LocalError, TimeValue, TimeValueError > ReturnType
BTLDetId geographicalId(CrysLayout lay) const
Definition: BTLDetId.cc:3
#define LogDebug(id)

◆ bookHistograms()

void BtlLocalRecoValidation::bookHistograms ( DQMStore::IBooker ibook,
edm::Run const &  run,
edm::EventSetup const &  iSetup 
)
overrideprivatevirtual

Implements DQMEDAnalyzer.

Definition at line 586 of file BtlLocalRecoValidation.cc.

References dqm::implementation::IBooker::book1D(), dqm::implementation::IBooker::book2D(), dqm::implementation::IBooker::bookProfile(), folder_, meCluEnergy_, meCluEnergyRes_, meCluEnergyvsEta_, meCluEta_, meCluHits_, meCluHitsvsEta_, meCluLocalXPull_, meCluLocalXRes_, meCluLocalYPull_, meCluLocalYRes_, meCluPhi_, meCluPhiRes_, meCluRhoRes_, meCluTime_, meCluTimeError_, meCluTimeRes_, meCluTPullvsE_, meCluTPullvsEta_, meCluTResvsE_, meCluTResvsEta_, meCluXLocalErr_, meCluYLocalErr_, meCluYXLocal_, meCluYXLocalSim_, meCluZPull_, meCluZRes_, meCluZvsPhi_, meEnergyRes_, meHitEnergy_, meHitEta_, meHitEvsEta_, meHitEvsPhi_, meHitEvsZ_, meHitLogEnergy_, meHitLongPos_, meHitLongPosErr_, meHitPhi_, meHitTime_, meHitTimeError_, meHitTvsE_, meHitTvsEta_, meHitTvsPhi_, meHitTvsZ_, meHitXlocal_, meHitYlocal_, meHitZ_, meHitZlocal_, meLocalOccupancy_, meLongPosPull_, meLongPosPullvsE_, meLongPosPullvsEta_, meNclusters_, meNevents_, meNhits_, meOccupancy_, meTimeRes_, meTimeResEta_, meTimeResEtavsQ_, meTimeResQ_, meTimeResQvsEta_, meTPullvsE_, meTPullvsEta_, meUnmatchedCluEnergy_, nBinsEta_, nBinsEtaQ_, nBinsQ_, nBinsQEta_, optionalPlots_, dqm::implementation::NavigatorBase::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, and uncalibRecHitsPlots_.

588  {
589  ibook.setCurrentFolder(folder_);
590 
591  // --- histograms booking
592 
593  meNevents_ = ibook.book1D("BtlNevents", "Number of events", 1, 0., 1.);
594 
595  meNhits_ = ibook.book1D("BtlNhits", "Number of BTL RECO hits;log_{10}(N_{RECO})", 100, 0., 5.25);
596 
597  meHitEnergy_ = ibook.book1D("BtlHitEnergy", "BTL RECO hits energy;E_{RECO} [MeV]", 100, 0., 20.);
598  meHitLogEnergy_ = ibook.book1D("BtlHitLogEnergy", "BTL RECO hits energy;log_{10}(E_{RECO} [MeV])", 16, -0.1, 1.5);
599  meHitTime_ = ibook.book1D("BtlHitTime", "BTL RECO hits ToA;ToA_{RECO} [ns]", 100, 0., 25.);
600  meHitTimeError_ = ibook.book1D("BtlHitTimeError", "BTL RECO hits ToA error;#sigma^{ToA}_{RECO} [ns]", 50, 0., 0.1);
601  meOccupancy_ = ibook.book2D(
602  "BtlOccupancy", "BTL RECO hits occupancy;Z_{RECO} [cm]; #phi_{RECO} [rad]", 65, -260., 260., 126, -3.2, 3.2);
603  if (optionalPlots_) {
604  meLocalOccupancy_ = ibook.book2D(
605  "BtlLocalOccupancy", "BTL RECO hits local occupancy;X_{RECO} [cm]; Y_{RECO} [cm]", 100, 10., 10., 60, -3., 3.);
606  }
607  meHitXlocal_ = ibook.book1D("BtlHitXlocal", "BTL RECO local X;X_{RECO}^{LOC} [cm]", 100, -10., 10.);
608  meHitYlocal_ = ibook.book1D("BtlHitYlocal", "BTL RECO local Y;Y_{RECO}^{LOC} [cm]", 60, -3, 3);
609  meHitZlocal_ = ibook.book1D("BtlHitZlocal", "BTL RECO local z;z_{RECO}^{LOC} [cm]", 8, -0.4, 0.4);
610  meHitZ_ = ibook.book1D("BtlHitZ", "BTL RECO hits Z;Z_{RECO} [cm]", 100, -260., 260.);
611  meHitPhi_ = ibook.book1D("BtlHitPhi", "BTL RECO hits #phi;#phi_{RECO} [rad]", 126, -3.2, 3.2);
612  meHitEta_ = ibook.book1D("BtlHitEta", "BTL RECO hits #eta;#eta_{RECO}", 100, -1.55, 1.55);
613  meHitTvsE_ =
614  ibook.bookProfile("BtlHitTvsE", "BTL RECO ToA vs energy;E_{RECO} [MeV];ToA_{RECO} [ns]", 50, 0., 20., 0., 100.);
615  meHitEvsPhi_ = ibook.bookProfile(
616  "BtlHitEvsPhi", "BTL RECO energy vs #phi;#phi_{RECO} [rad];E_{RECO} [MeV]", 50, -3.2, 3.2, 0., 100.);
617  meHitEvsEta_ = ibook.bookProfile(
618  "BtlHitEvsEta", "BTL RECO energy vs #eta;#eta_{RECO};E_{RECO} [MeV]", 50, -1.55, 1.55, 0., 100.);
619  meHitEvsZ_ =
620  ibook.bookProfile("BtlHitEvsZ", "BTL RECO energy vs Z;Z_{RECO} [cm];E_{RECO} [MeV]", 50, -260., 260., 0., 100.);
621  meHitTvsPhi_ = ibook.bookProfile(
622  "BtlHitTvsPhi", "BTL RECO ToA vs #phi;#phi_{RECO} [rad];ToA_{RECO} [ns]", 50, -3.2, 3.2, 0., 100.);
623  meHitTvsEta_ =
624  ibook.bookProfile("BtlHitTvsEta", "BTL RECO ToA vs #eta;#eta_{RECO};ToA_{RECO} [ns]", 50, -1.6, 1.6, 0., 100.);
625  meHitTvsZ_ =
626  ibook.bookProfile("BtlHitTvsZ", "BTL RECO ToA vs Z;Z_{RECO} [cm];ToA_{RECO} [ns]", 50, -260., 260., 0., 100.);
627  meHitLongPos_ = ibook.book1D("BtlLongPos", "BTL RECO hits longitudinal position;long. pos._{RECO}", 100, -10, 10);
629  ibook.book1D("BtlLongPosErr", "BTL RECO hits longitudinal position error; long. pos. error_{RECO}", 100, -1, 1);
630  meTimeRes_ = ibook.book1D("BtlTimeRes", "BTL time resolution;T_{RECO}-T_{SIM}", 100, -0.5, 0.5);
631  meEnergyRes_ = ibook.book1D("BtlEnergyRes", "BTL energy resolution;E_{RECO}-E_{SIM}", 100, -0.5, 0.5);
632  meLongPosPull_ = ibook.book1D("BtlLongPosPull",
633  "BTL longitudinal position pull;X^{loc}_{RECO}-X^{loc}_{SIM}/#sigma_{xloc_{RECO}}",
634  100,
635  -5.,
636  5.);
638  "BtlLongposPullvsE",
639  "BTL longitudinal position pull vs E;E_{SIM} [MeV];X^{loc}_{RECO}-X^{loc}_{SIM}/#sigma_{xloc_{RECO}}",
640  20,
641  0.,
642  20.,
643  -5.,
644  5.,
645  "S");
647  "BtlLongposPullvsEta",
648  "BTL longitudinal position pull vs #eta;|#eta_{RECO}|;X^{loc}_{RECO}-X^{loc}_{SIM}/#sigma_{xloc_{RECO}}",
649  32,
650  0,
651  1.55,
652  -5.,
653  5.,
654  "S");
655  meTPullvsE_ = ibook.bookProfile(
656  "BtlTPullvsE", "BTL time pull vs E;E_{SIM} [MeV];(T_{RECO}-T_{SIM})/#sigma_{T_{RECO}}", 20, 0., 20., -5., 5., "S");
657  meTPullvsEta_ = ibook.bookProfile("BtlTPullvsEta",
658  "BTL time pull vs #eta;|#eta_{RECO}|;(T_{RECO}-T_{SIM})/#sigma_{T_{RECO}}",
659  30,
660  0,
661  1.55,
662  -5.,
663  5.,
664  "S");
665 
666  meNclusters_ = ibook.book1D("BtlNclusters", "Number of BTL RECO clusters;log_{10}(N_{RECO})", 100, 0., 5.25);
667  meCluTime_ = ibook.book1D("BtlCluTime", "BTL cluster time ToA;ToA [ns]", 250, 0, 25);
668  meCluTimeError_ = ibook.book1D("BtlCluTimeError", "BTL cluster time error;#sigma_{t} [ns]", 100, 0, 0.1);
669  meCluEnergy_ = ibook.book1D("BtlCluEnergy", "BTL cluster energy;E_{RECO} [MeV]", 100, 0, 20);
670  meCluPhi_ = ibook.book1D("BtlCluPhi", "BTL cluster #phi;#phi_{RECO} [rad]", 144, -3.2, 3.2);
671  meCluEta_ = ibook.book1D("BtlCluEta", "BTL cluster #eta;#eta_{RECO}", 100, -1.55, 1.55);
672  meCluHits_ = ibook.book1D("BtlCluHitNumber", "BTL hits per cluster; Cluster size", 10, 0, 10);
673  meCluZvsPhi_ = ibook.book2D(
674  "BtlOccupancy", "BTL cluster Z vs #phi;Z_{RECO} [cm]; #phi_{RECO} [rad]", 144, -260., 260., 50, -3.2, 3.2);
676  "BtlCluEnergyVsEta", "BTL cluster energy vs #eta; |#eta_{RECO}|; E_{RECO} [cm]", 30, 0., 1.55, 0., 20., "S");
678  "BtlCluHitsVsEta", "BTL hits per cluster vs #eta; |#eta_{RECO}|;Cluster size", 30, 0., 1.55, 0., 10., "S");
679 
680  meCluTimeRes_ = ibook.book1D("BtlCluTimeRes", "BTL cluster time resolution;T_{RECO}-T_{SIM} [ns]", 100, -0.5, 0.5);
682  ibook.book1D("BtlCluEnergyRes", "BTL cluster energy resolution;E_{RECO}-E_{SIM} [MeV]", 100, -0.5, 0.5);
683  meCluTResvsE_ = ibook.bookProfile("BtlCluTResvsE",
684  "BTL cluster time resolution vs E;E_{SIM} [MeV];(T_{RECO}-T_{SIM}) [ns]",
685  20,
686  0.,
687  20.,
688  -0.5,
689  0.5,
690  "S");
691  meCluTResvsEta_ = ibook.bookProfile("BtlCluTResvsEta",
692  "BTL cluster time resolution vs #eta;|#eta_{RECO}|;(T_{RECO}-T_{SIM}) [ns]",
693  30,
694  0,
695  1.55,
696  -0.5,
697  0.5,
698  "S");
699  meCluTPullvsE_ = ibook.bookProfile("BtlCluTPullvsE",
700  "BTL cluster time pull vs E;E_{SIM} [MeV];(T_{RECO}-T_{SIM})/#sigma_{T_{RECO}}",
701  20,
702  0.,
703  20.,
704  -5.,
705  5.,
706  "S");
708  ibook.bookProfile("BtlCluTPullvsEta",
709  "BTL cluster time pull vs #eta;|#eta_{RECO}|;(T_{RECO}-T_{SIM})/#sigma_{T_{RECO}}",
710  30,
711  0,
712  1.55,
713  -5.,
714  5.,
715  "S");
716  meCluRhoRes_ =
717  ibook.book1D("BtlCluRhoRes", "BTL cluster #rho resolution;#rho_{RECO}-#rho_{SIM} [cm]", 100, -0.5, 0.5);
718  meCluPhiRes_ =
719  ibook.book1D("BtlCluPhiRes", "BTL cluster #phi resolution;#phi_{RECO}-#phi_{SIM} [rad]", 100, -0.03, 0.03);
720  meCluZRes_ = ibook.book1D("BtlCluZRes", "BTL cluster Z resolution;Z_{RECO}-Z_{SIM} [cm]", 100, -0.2, 0.2);
722  ibook.book1D("BtlCluLocalXRes", "BTL cluster local X resolution;X_{RECO}-X_{SIM} [cm]", 100, -3.1, 3.1);
724  ibook.book1D("BtlCluLocalYRes", "BTL cluster local Y resolution;Y_{RECO}-Y_{SIM} [cm]", 100, -0.2, 0.2);
726  ibook.book1D("BtlCluLocalXPull", "BTL cluster local X pull;X_{RECO}-X_{SIM}/sigmaX_[RECO]", 100, -5., 5.);
728  ibook.book1D("BtlCluLocalYPull", "BTL cluster local Y pull;Y_{RECO}-Y_{SIM}/sigmaY_[RECO]", 100, -5., 5.);
729  meCluZPull_ = ibook.book1D("BtlCluZPull", "BTL cluster Z pull;Z_{RECO}-Z_{SIM}/sigmaZ_[RECO]", 100, -5., 5.);
730  meCluXLocalErr_ = ibook.book1D("BtlCluXLocalErr", "BTL cluster X local error;sigmaX_{RECO,loc} [cm]", 20, 0., 2.);
731  meCluYLocalErr_ = ibook.book1D("BtlCluYLocalErr", "BTL cluster Y local error;sigmaY_{RECO,loc} [cm]", 20, 0., 0.4);
732  if (optionalPlots_) {
733  meCluYXLocal_ = ibook.book2D("BtlCluYXLocal",
734  "BTL cluster local Y vs X;X^{local}_{RECO} [cm];Y^{local}_{RECO} [cm]",
735  200,
736  -9.5,
737  9.5,
738  200,
739  -2.8,
740  2.8);
741  meCluYXLocalSim_ = ibook.book2D("BtlCluYXLocalSim",
742  "BTL cluster local Y vs X;X^{local}_{SIM} [cm];Y^{local}_{SIM} [cm]",
743  200,
744  -9.5,
745  9.5,
746  200,
747  -2.8,
748  2.8);
749  }
751  ibook.book1D("BtlUnmatchedCluEnergy", "BTL unmatched cluster log10(energy);log10(E_{RECO} [MeV])", 5, -3, 2);
752 
753  // --- UncalibratedRecHits histograms
754 
755  if (uncalibRecHitsPlots_) {
756  for (unsigned int ihistoQ = 0; ihistoQ < nBinsQ_; ++ihistoQ) {
757  std::string hname = Form("TimeResQ_%d", ihistoQ);
758  std::string htitle = Form("BTL time resolution (Q bin = %d);T_{RECO} - T_{SIM} [ns]", ihistoQ);
759  meTimeResQ_[ihistoQ] = ibook.book1D(hname, htitle, 200, -0.3, 0.7);
760 
761  for (unsigned int ihistoEta = 0; ihistoEta < nBinsQEta_; ++ihistoEta) {
762  hname = Form("TimeResQvsEta_%d_%d", ihistoQ, ihistoEta);
763  htitle = Form("BTL time resolution (Q bin = %d, |#eta| bin = %d);T_{RECO} - T_{SIM} [ns]", ihistoQ, ihistoEta);
764  meTimeResQvsEta_[ihistoQ][ihistoEta] = ibook.book1D(hname, htitle, 200, -0.3, 0.7);
765 
766  } // ihistoEta loop
767 
768  } // ihistoQ loop
769 
770  for (unsigned int ihistoEta = 0; ihistoEta < nBinsEta_; ++ihistoEta) {
771  std::string hname = Form("TimeResEta_%d", ihistoEta);
772  std::string htitle = Form("BTL time resolution (|#eta| bin = %d);T_{RECO} - T_{SIM} [ns]", ihistoEta);
773  meTimeResEta_[ihistoEta] = ibook.book1D(hname, htitle, 200, -0.3, 0.7);
774 
775  for (unsigned int ihistoQ = 0; ihistoQ < nBinsEtaQ_; ++ihistoQ) {
776  hname = Form("TimeResEtavsQ_%d_%d", ihistoEta, ihistoQ);
777  htitle = Form("BTL time resolution (|#eta| bin = %d, Q bin = %d);T_{RECO} - T_{SIM} [ns]", ihistoEta, ihistoQ);
778  meTimeResEtavsQ_[ihistoEta][ihistoQ] = ibook.book1D(hname, htitle, 200, -0.3, 0.7);
779 
780  } // ihistoQ loop
781 
782  } // ihistoEta loop
783  }
784 }
virtual void setCurrentFolder(std::string const &fullpath)
Definition: DQMStore.cc:36
MonitorElement * meUnmatchedCluEnergy_
static constexpr int nBinsEtaQ_
MonitorElement * meLongPosPullvsEta_
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
static constexpr int nBinsQEta_
MonitorElement * meLocalOccupancy_
MonitorElement * meTimeResEta_[nBinsEta_]
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
static constexpr int nBinsQ_
MonitorElement * meTimeResQvsEta_[nBinsQ_][nBinsQEta_]
MonitorElement * meTimeResEtavsQ_[nBinsEta_][nBinsEtaQ_]
static constexpr int nBinsEta_
MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98
MonitorElement * meTimeResQ_[nBinsQ_]

◆ fillDescriptions()

void BtlLocalRecoValidation::fillDescriptions ( edm::ConfigurationDescriptions descriptions)
static

Definition at line 787 of file BtlLocalRecoValidation.cc.

References edm::ConfigurationDescriptions::add(), submitPVResolutionJobs::desc, ProducerED_cfi::InputTag, and AlCaHLTBitMon_QueryRunRegistry::string.

787  {
789 
790  desc.add<std::string>("folder", "MTD/BTL/LocalReco");
791  desc.add<edm::InputTag>("recHitsTag", edm::InputTag("mtdRecHits", "FTLBarrel"));
792  desc.add<edm::InputTag>("uncalibRecHitsTag", edm::InputTag("mtdUncalibratedRecHits", "FTLBarrel"));
793  desc.add<edm::InputTag>("simHitsTag", edm::InputTag("mix", "g4SimHitsFastTimerHitsBarrel"));
794  desc.add<edm::InputTag>("recCluTag", edm::InputTag("mtdClusters", "FTLBarrel"));
795  desc.add<edm::InputTag>("trkHitTag", edm::InputTag("mtdTrackingRecHits"));
796  desc.add<double>("HitMinimumEnergy", 1.); // [MeV]
797  desc.add<bool>("optionalPlots", false);
798  desc.add<bool>("UncalibRecHitsPlots", false);
799  desc.add<double>("HitMinimumAmplitude", 30.); // [pC]
800 
801  descriptions.add("btlLocalRecoValid", desc);
802 }
void add(std::string const &label, ParameterSetDescription const &psetDescription)

◆ isSameCluster()

bool BtlLocalRecoValidation::isSameCluster ( const FTLCluster clu1,
const FTLCluster clu2 
)
private

Definition at line 177 of file BtlLocalRecoValidation.cc.

References FTLCluster::id(), FTLCluster::size(), FTLCluster::time(), FTLCluster::x(), and FTLCluster::y().

Referenced by analyze().

177  {
178  return clu1.id() == clu2.id() && clu1.size() == clu2.size() && clu1.x() == clu2.x() && clu1.y() == clu2.y() &&
179  clu1.time() == clu2.time();
180 }
float x() const
Definition: FTLCluster.h:120
int size() const
Definition: FTLCluster.h:153
float y() const
Definition: FTLCluster.h:125
const DetId & id() const
Definition: FTLCluster.h:190
float time() const
Definition: FTLCluster.h:142

Member Data Documentation

◆ binsEtaQ_

constexpr float BtlLocalRecoValidation::binsEtaQ_[nBinsEtaQ_+1] = {0., 30., 60., 90., 120., 150., 360., 600.}
staticprivate

Definition at line 171 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ binsQEta_

constexpr float BtlLocalRecoValidation::binsQEta_[nBinsQEta_+1] = {0., 0.65, 1.15, 1.55}
staticprivate

Definition at line 163 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ binWidthEta_

constexpr float BtlLocalRecoValidation::binWidthEta_ = 0.05
staticprivate

Definition at line 169 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ binWidthQ_

constexpr float BtlLocalRecoValidation::binWidthQ_ = 30.
staticprivate

Definition at line 161 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ btlRecCluToken_

edm::EDGetTokenT<FTLClusterCollection> BtlLocalRecoValidation::btlRecCluToken_
private

Definition at line 75 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and BtlLocalRecoValidation().

◆ btlRecHitsToken_

edm::EDGetTokenT<FTLRecHitCollection> BtlLocalRecoValidation::btlRecHitsToken_
private

Definition at line 72 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and BtlLocalRecoValidation().

◆ btlSimHitsToken_

edm::EDGetTokenT<CrossingFrame<PSimHit> > BtlLocalRecoValidation::btlSimHitsToken_
private

Definition at line 74 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and BtlLocalRecoValidation().

◆ btlUncalibRecHitsToken_

edm::EDGetTokenT<FTLUncalibratedRecHitCollection> BtlLocalRecoValidation::btlUncalibRecHitsToken_
private

Definition at line 73 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and BtlLocalRecoValidation().

◆ cpeToken_

const edm::ESGetToken<MTDClusterParameterEstimator, MTDCPERecord> BtlLocalRecoValidation::cpeToken_
private

Definition at line 80 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ folder_

const std::string BtlLocalRecoValidation::folder_
private

Definition at line 66 of file BtlLocalRecoValidation.cc.

Referenced by bookHistograms().

◆ hitMinAmplitude_

const double BtlLocalRecoValidation::hitMinAmplitude_
private

Definition at line 70 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ hitMinEnergy_

const double BtlLocalRecoValidation::hitMinEnergy_
private

Definition at line 67 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ meCluEnergy_

MonitorElement* BtlLocalRecoValidation::meCluEnergy_
private

Definition at line 129 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluEnergyRes_

MonitorElement* BtlLocalRecoValidation::meCluEnergyRes_
private

Definition at line 138 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluEnergyvsEta_

MonitorElement* BtlLocalRecoValidation::meCluEnergyvsEta_
private

Definition at line 134 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluEta_

MonitorElement* BtlLocalRecoValidation::meCluEta_
private

Definition at line 131 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluHits_

MonitorElement* BtlLocalRecoValidation::meCluHits_
private

Definition at line 132 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluHitsvsEta_

MonitorElement* BtlLocalRecoValidation::meCluHitsvsEta_
private

Definition at line 135 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluLocalXPull_

MonitorElement* BtlLocalRecoValidation::meCluLocalXPull_
private

Definition at line 148 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluLocalXRes_

MonitorElement* BtlLocalRecoValidation::meCluLocalXRes_
private

Definition at line 145 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluLocalYPull_

MonitorElement* BtlLocalRecoValidation::meCluLocalYPull_
private

Definition at line 149 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluLocalYRes_

MonitorElement* BtlLocalRecoValidation::meCluLocalYRes_
private

Definition at line 146 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluPhi_

MonitorElement* BtlLocalRecoValidation::meCluPhi_
private

Definition at line 130 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluPhiRes_

MonitorElement* BtlLocalRecoValidation::meCluPhiRes_
private

Definition at line 144 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluRhoRes_

MonitorElement* BtlLocalRecoValidation::meCluRhoRes_
private

Definition at line 143 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTime_

MonitorElement* BtlLocalRecoValidation::meCluTime_
private

Definition at line 127 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTimeError_

MonitorElement* BtlLocalRecoValidation::meCluTimeError_
private

Definition at line 128 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTimeRes_

MonitorElement* BtlLocalRecoValidation::meCluTimeRes_
private

Definition at line 137 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTPullvsE_

MonitorElement* BtlLocalRecoValidation::meCluTPullvsE_
private

Definition at line 141 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTPullvsEta_

MonitorElement* BtlLocalRecoValidation::meCluTPullvsEta_
private

Definition at line 142 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTResvsE_

MonitorElement* BtlLocalRecoValidation::meCluTResvsE_
private

Definition at line 139 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluTResvsEta_

MonitorElement* BtlLocalRecoValidation::meCluTResvsEta_
private

Definition at line 140 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluXLocalErr_

MonitorElement* BtlLocalRecoValidation::meCluXLocalErr_
private

Definition at line 153 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluYLocalErr_

MonitorElement* BtlLocalRecoValidation::meCluYLocalErr_
private

Definition at line 154 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluYXLocal_

MonitorElement* BtlLocalRecoValidation::meCluYXLocal_
private

Definition at line 151 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluYXLocalSim_

MonitorElement* BtlLocalRecoValidation::meCluYXLocalSim_
private

Definition at line 152 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluZPull_

MonitorElement* BtlLocalRecoValidation::meCluZPull_
private

Definition at line 150 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluZRes_

MonitorElement* BtlLocalRecoValidation::meCluZRes_
private

Definition at line 147 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meCluZvsPhi_

MonitorElement* BtlLocalRecoValidation::meCluZvsPhi_
private

Definition at line 133 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meEnergyRes_

MonitorElement* BtlLocalRecoValidation::meEnergyRes_
private

Definition at line 116 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitEnergy_

MonitorElement* BtlLocalRecoValidation::meHitEnergy_
private

Definition at line 88 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitEta_

MonitorElement* BtlLocalRecoValidation::meHitEta_
private

Definition at line 103 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitEvsEta_

MonitorElement* BtlLocalRecoValidation::meHitEvsEta_
private

Definition at line 107 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitEvsPhi_

MonitorElement* BtlLocalRecoValidation::meHitEvsPhi_
private

Definition at line 106 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitEvsZ_

MonitorElement* BtlLocalRecoValidation::meHitEvsZ_
private

Definition at line 108 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitLogEnergy_

MonitorElement* BtlLocalRecoValidation::meHitLogEnergy_
private

Definition at line 89 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitLongPos_

MonitorElement* BtlLocalRecoValidation::meHitLongPos_
private

Definition at line 112 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitLongPosErr_

MonitorElement* BtlLocalRecoValidation::meHitLongPosErr_
private

Definition at line 113 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitPhi_

MonitorElement* BtlLocalRecoValidation::meHitPhi_
private

Definition at line 102 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTime_

MonitorElement* BtlLocalRecoValidation::meHitTime_
private

Definition at line 90 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTimeError_

MonitorElement* BtlLocalRecoValidation::meHitTimeError_
private

Definition at line 91 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTvsE_

MonitorElement* BtlLocalRecoValidation::meHitTvsE_
private

Definition at line 105 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTvsEta_

MonitorElement* BtlLocalRecoValidation::meHitTvsEta_
private

Definition at line 110 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTvsPhi_

MonitorElement* BtlLocalRecoValidation::meHitTvsPhi_
private

Definition at line 109 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitTvsZ_

MonitorElement* BtlLocalRecoValidation::meHitTvsZ_
private

Definition at line 111 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitXlocal_

MonitorElement* BtlLocalRecoValidation::meHitXlocal_
private

Definition at line 97 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitYlocal_

MonitorElement* BtlLocalRecoValidation::meHitYlocal_
private

Definition at line 98 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitZ_

MonitorElement* BtlLocalRecoValidation::meHitZ_
private

Definition at line 101 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meHitZlocal_

MonitorElement* BtlLocalRecoValidation::meHitZlocal_
private

Definition at line 99 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meLocalOccupancy_

MonitorElement* BtlLocalRecoValidation::meLocalOccupancy_
private

Definition at line 96 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meLongPosPull_

MonitorElement* BtlLocalRecoValidation::meLongPosPull_
private

Definition at line 118 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meLongPosPullvsE_

MonitorElement* BtlLocalRecoValidation::meLongPosPullvsE_
private

Definition at line 119 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meLongPosPullvsEta_

MonitorElement* BtlLocalRecoValidation::meLongPosPullvsEta_
private

Definition at line 120 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meNclusters_

MonitorElement* BtlLocalRecoValidation::meNclusters_
private

Definition at line 125 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meNevents_

MonitorElement* BtlLocalRecoValidation::meNevents_
private

Definition at line 84 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meNhits_

MonitorElement* BtlLocalRecoValidation::meNhits_
private

Definition at line 86 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meOccupancy_

MonitorElement* BtlLocalRecoValidation::meOccupancy_
private

Definition at line 93 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTimeRes_

MonitorElement* BtlLocalRecoValidation::meTimeRes_
private

Definition at line 115 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTimeResEta_

MonitorElement* BtlLocalRecoValidation::meTimeResEta_[nBinsEta_]
private

Definition at line 173 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTimeResEtavsQ_

MonitorElement* BtlLocalRecoValidation::meTimeResEtavsQ_[nBinsEta_][nBinsEtaQ_]
private

Definition at line 174 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTimeResQ_

MonitorElement* BtlLocalRecoValidation::meTimeResQ_[nBinsQ_]
private

Definition at line 165 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTimeResQvsEta_

MonitorElement* BtlLocalRecoValidation::meTimeResQvsEta_[nBinsQ_][nBinsQEta_]
private

Definition at line 166 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTPullvsE_

MonitorElement* BtlLocalRecoValidation::meTPullvsE_
private

Definition at line 122 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meTPullvsEta_

MonitorElement* BtlLocalRecoValidation::meTPullvsEta_
private

Definition at line 123 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ meUnmatchedCluEnergy_

MonitorElement* BtlLocalRecoValidation::meUnmatchedCluEnergy_
private

Definition at line 156 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ mtdgeoToken_

const edm::ESGetToken<MTDGeometry, MTDDigiGeometryRecord> BtlLocalRecoValidation::mtdgeoToken_
private

Definition at line 78 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ mtdtopoToken_

const edm::ESGetToken<MTDTopology, MTDTopologyRcd> BtlLocalRecoValidation::mtdtopoToken_
private

Definition at line 79 of file BtlLocalRecoValidation.cc.

Referenced by analyze().

◆ mtdTrackingHitToken_

edm::EDGetTokenT<MTDTrackingDetSetVector> BtlLocalRecoValidation::mtdTrackingHitToken_
private

Definition at line 76 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and BtlLocalRecoValidation().

◆ nBinsEta_

constexpr int BtlLocalRecoValidation::nBinsEta_ = 31
staticprivate

Definition at line 168 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ nBinsEtaQ_

constexpr int BtlLocalRecoValidation::nBinsEtaQ_ = 7
staticprivate

Definition at line 170 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ nBinsQ_

constexpr int BtlLocalRecoValidation::nBinsQ_ = 20
staticprivate

Definition at line 160 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ nBinsQEta_

constexpr int BtlLocalRecoValidation::nBinsQEta_ = 3
staticprivate

Definition at line 162 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ optionalPlots_

const bool BtlLocalRecoValidation::optionalPlots_
private

Definition at line 68 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), and bookHistograms().

◆ uncalibRecHitsPlots_

const bool BtlLocalRecoValidation::uncalibRecHitsPlots_
private

Definition at line 69 of file BtlLocalRecoValidation.cc.

Referenced by analyze(), bookHistograms(), and BtlLocalRecoValidation().