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SiPixelDigitizerAlgorithm Class Reference

#include <SiPixelDigitizerAlgorithm.h>

Classes

class  CalParameters
 
class  EnergyDepositUnit
 
struct  PixelAging
 
struct  PixelEfficiencies
 
class  SignalPoint
 

Public Types

typedef std::unordered_map< std::string, PixelFEDChannelCollectionPixelFEDChannelCollectionMap
 

Public Member Functions

void accumulateSimHits (const std::vector< PSimHit >::const_iterator inputBegin, const std::vector< PSimHit >::const_iterator inputEnd, const size_t inputBeginGlobalIndex, const unsigned int tofBin, const PixelGeomDetUnit *pixdet, const GlobalVector &bfield, const TrackerTopology *tTopo, CLHEP::HepRandomEngine *)
 
void calculateInstlumiFactor (PileupMixingContent *puInfo)
 
void calculateInstlumiFactor (const std::vector< PileupSummaryInfo > &ps, int bunchSpacing)
 
std::unique_ptr< PixelFEDChannelCollectionchooseScenario (PileupMixingContent *puInfo, CLHEP::HepRandomEngine *)
 
std::unique_ptr< PixelFEDChannelCollectionchooseScenario (const std::vector< PileupSummaryInfo > &ps, CLHEP::HepRandomEngine *engine)
 
void digitize (const PixelGeomDetUnit *pixdet, std::vector< PixelDigi > &digis, std::vector< PixelDigiSimLink > &simlinks, std::vector< PixelDigiAddTempInfo > &newClass_Digi_extra, const TrackerTopology *tTopo, CLHEP::HepRandomEngine *)
 
void fillSimHitMaps (std::vector< PSimHit > simHits, const unsigned int tofBin)
 
void init (const edm::EventSetup &es)
 
void init_DynIneffDB (const edm::EventSetup &)
 
void initializeEvent ()
 
bool killBadFEDChannels () const
 
void lateSignalReweight (const PixelGeomDetUnit *pixdet, std::vector< PixelDigi > &digis, std::vector< PixelSimHitExtraInfo > &newClass_Sim_extra, const TrackerTopology *tTopo, CLHEP::HepRandomEngine *engine)
 
void resetSimHitMaps ()
 
void setSimAccumulator (const std::map< uint32_t, std::map< int, int > > &signalMap)
 
 SiPixelDigitizerAlgorithm (const edm::ParameterSet &conf, edm::ConsumesCollector iC)
 
 ~SiPixelDigitizerAlgorithm ()
 

Public Attributes

const PixelFEDChannelCollectionMapquality_map
 

Private Types

typedef boost::multi_array< float, 2 > array_2d
 
typedef GloballyPositioned< double > Frame
 
typedef std::vector< edm::ParameterSetParameters
 
typedef signal_map_type::const_iterator signal_map_const_iterator
 
typedef signal_map_type::iterator signal_map_iterator
 
typedef std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
 
typedef std::map< uint32_t, signal_map_typesignalMaps
 
typedef std::map< subDetTofBin, unsigned int > simhit_collectionMap
 
typedef std::map< unsigned int, std::vector< PSimHit > > simhit_map
 
typedef std::pair< unsigned int, unsigned int > subDetTofBin
 

Private Member Functions

void add_noise (const PixelGeomDetUnit *pixdet, float thePixelThreshold, CLHEP::HepRandomEngine *)
 
double calcQ (float x) const
 
void drift (const PSimHit &hit, const PixelGeomDetUnit *pixdet, const GlobalVector &bfield, const TrackerTopology *tTopo, const std::vector< EnergyDepositUnit > &ionization_points, std::vector< SignalPoint > &collection_points) const
 
LocalVector DriftDirection (const PixelGeomDetUnit *pixdet, const GlobalVector &bfield, const DetId &detId) const
 
void fluctuateEloss (int particleId, float momentum, float eloss, float length, int NumberOfSegments, float elossVector[], CLHEP::HepRandomEngine *) const
 
void induce_signal (std::vector< PSimHit >::const_iterator inputBegin, std::vector< PSimHit >::const_iterator inputEnd, const PSimHit &hit, const size_t hitIndex, const size_t FirstHitIndex, const unsigned int tofBin, const PixelGeomDetUnit *pixdet, const std::vector< SignalPoint > &collection_points)
 
std::map< int, CalParameters, std::less< int > > initCal () const
 
void make_digis (float thePixelThresholdInE, uint32_t detID, const PixelGeomDetUnit *pixdet, std::vector< PixelDigi > &digis, std::vector< PixelDigiSimLink > &simlinks, std::vector< PixelDigiAddTempInfo > &newClass_Digi_extra, const TrackerTopology *tTopo) const
 
float missCalibrate (uint32_t detID, const TrackerTopology *tTopo, const PixelGeomDetUnit *pixdet, int col, int row, float amp) const
 
void module_killing_conf (uint32_t detID)
 
void module_killing_DB (uint32_t detID)
 
float pixel_aging (const PixelAging &aging, const PixelGeomDetUnit *pixdet, const TrackerTopology *tTopo) const
 
void pixel_inefficiency (const PixelEfficiencies &eff, const PixelGeomDetUnit *pixdet, const TrackerTopology *tTopo, CLHEP::HepRandomEngine *)
 
void pixel_inefficiency_db (uint32_t detID)
 
void primary_ionization (const PSimHit &hit, std::vector< EnergyDepositUnit > &ionization_points, CLHEP::HepRandomEngine *) const
 

Private Attributes

signalMaps _signal
 
const bool addChargeVCALSmearing
 
const bool addNoise
 
const bool addNoisyPixels
 
const bool AddPixelAging
 
const bool AddPixelInefficiency
 
const bool addThresholdSmearing
 
const bool alpha2Order
 
const float BPix_p0
 
const float BPix_p1
 
const float BPix_p2
 
const float BPix_p3
 
const std::map< int, CalParameters, std::less< int > > calmap
 
const float ClusterWidth
 
const Parameters DeadModules
 
const float Dist300
 
const bool doMissCalibrate
 
const bool doMissCalInLateCR
 
const float electronsPerVCAL
 
const float electronsPerVCAL_L1
 
const float electronsPerVCAL_L1_Offset
 
const float electronsPerVCAL_Offset
 
const std::unique_ptr< SiG4UniversalFluctuationfluctuate
 
const bool fluctuateCharge
 
const float FPix_p0
 
const float FPix_p1
 
const float FPix_p2
 
const float FPix_p3
 
const TrackerGeometrygeom_ = nullptr
 
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecordgeomToken_
 
const float GeVperElectron
 
const bool KillBadFEDChannels
 
const bool makeDigiSimLinks_
 
const SiPixelFedCablingMapmap_ = nullptr
 
const edm::ESGetToken< SiPixelFedCablingMap, SiPixelFedCablingMapRcdmapToken_
 
const int NumberOfBarrelLayers
 
const int NumberOfEndcapDisks
 
const PixelAging pixelAging_
 
PixelEfficiencies pixelEfficiencies_
 
edm::ESGetToken< PixelFEDChannelCollectionMap, SiPixelFEDChannelContainerESProducerRcdPixelFEDChannelCollectionMapToken_
 
const SiPixelQualityProbabilitiesscenarioProbability_ = nullptr
 
edm::ESGetToken< SiPixelQualityProbabilities, SiPixelStatusScenarioProbabilityRcdscenarioProbabilityToken_
 
const float Sigma0
 
simhit_collectionMap SimHitCollMap
 
simhit_map SimHitMap
 
const SiPixelQualitySiPixelBadModule_ = nullptr
 
edm::ESGetToken< SiPixelQuality, SiPixelQualityRcdSiPixelBadModuleToken_
 
const SiPixelDynamicInefficiencySiPixelDynamicInefficiency_ = nullptr
 
edm::ESGetToken< SiPixelDynamicInefficiency, SiPixelDynamicInefficiencyRcdSiPixelDynamicInefficiencyToken_
 
const SiPixelLorentzAngleSiPixelLorentzAngle_ = nullptr
 
edm::ESGetToken< SiPixelLorentzAngle, SiPixelLorentzAngleSimRcdSiPixelLorentzAngleToken_
 
const bool store_SimHitEntryExitPoints_
 
const float tanLorentzAnglePerTesla_BPix
 
const float tanLorentzAnglePerTesla_FPix
 
const int theAdcFullScale
 
const int theAdcFullScLateCR
 
const float theElectronPerADC
 
const float theGainSmearing
 
std::unique_ptr< SiPixelChargeReweightingAlgorithmTheNewSiPixelChargeReweightingAlgorithmClass
 
const float theNoiseInElectrons
 
const std::unique_ptr< GaussianTailNoiseGeneratortheNoiser
 
const float theOffsetSmearing
 
const float theReadoutNoise
 
const std::unique_ptr< SiPixelGainCalibrationOfflineSimServicetheSiPixelGainCalibrationService_
 
const float theThresholdInE_BPix
 
const float theThresholdInE_BPix_L1
 
const float theThresholdInE_BPix_L2
 
const float theThresholdInE_FPix
 
const double theThresholdSmearing_BPix
 
const double theThresholdSmearing_BPix_L1
 
const double theThresholdSmearing_BPix_L2
 
const double theThresholdSmearing_FPix
 
const float theTofLowerCut
 
const float theTofUpperCut
 
const double tMax
 
const bool use_deadmodule_DB_
 
const bool use_ineff_from_db_
 
const bool use_LorentzAngle_DB_
 
const bool use_module_killing_
 
const bool UseReweighting
 

Detailed Description

Definition at line 58 of file SiPixelDigitizerAlgorithm.h.

Member Typedef Documentation

◆ array_2d

typedef boost::multi_array<float, 2> SiPixelDigitizerAlgorithm::array_2d
private

Definition at line 267 of file SiPixelDigitizerAlgorithm.h.

◆ Frame

Definition at line 265 of file SiPixelDigitizerAlgorithm.h.

◆ Parameters

Definition at line 266 of file SiPixelDigitizerAlgorithm.h.

◆ PixelFEDChannelCollectionMap

Definition at line 103 of file SiPixelDigitizerAlgorithm.h.

◆ signal_map_const_iterator

typedef signal_map_type::const_iterator SiPixelDigitizerAlgorithm::signal_map_const_iterator
private

Definition at line 263 of file SiPixelDigitizerAlgorithm.h.

◆ signal_map_iterator

typedef signal_map_type::iterator SiPixelDigitizerAlgorithm::signal_map_iterator
private

Definition at line 262 of file SiPixelDigitizerAlgorithm.h.

◆ signal_map_type

typedef std::map<int, digitizerUtility::Amplitude, std::less<int> > SiPixelDigitizerAlgorithm::signal_map_type
private

Definition at line 261 of file SiPixelDigitizerAlgorithm.h.

◆ signalMaps

typedef std::map<uint32_t, signal_map_type> SiPixelDigitizerAlgorithm::signalMaps
private

Definition at line 264 of file SiPixelDigitizerAlgorithm.h.

◆ simhit_collectionMap

typedef std::map<subDetTofBin, unsigned int> SiPixelDigitizerAlgorithm::simhit_collectionMap
private

Definition at line 272 of file SiPixelDigitizerAlgorithm.h.

◆ simhit_map

typedef std::map<unsigned int, std::vector<PSimHit> > SiPixelDigitizerAlgorithm::simhit_map
private

Definition at line 270 of file SiPixelDigitizerAlgorithm.h.

◆ subDetTofBin

typedef std::pair<unsigned int, unsigned int> SiPixelDigitizerAlgorithm::subDetTofBin
private

Definition at line 269 of file SiPixelDigitizerAlgorithm.h.

Constructor & Destructor Documentation

◆ SiPixelDigitizerAlgorithm()

SiPixelDigitizerAlgorithm::SiPixelDigitizerAlgorithm ( const edm::ParameterSet conf,
edm::ConsumesCollector  iC 
)

Definition at line 179 of file SiPixelDigitizerAlgorithm.cc.

References AddPixelInefficiency, edm::ConsumesCollector::esConsumes(), SiPixelDigitizerAlgorithm::PixelEfficiencies::FromConfig, edm::ParameterSet::getParameter(), KillBadFEDChannels, pixelEfficiencies_, PixelFEDChannelCollectionMapToken_, scenarioProbabilityToken_, SiPixelBadModuleToken_, SiPixelDynamicInefficiencyToken_, SiPixelLorentzAngleToken_, store_SimHitEntryExitPoints_, AlCaHLTBitMon_QueryRunRegistry::string, theAdcFullScale, theElectronPerADC, TheNewSiPixelChargeReweightingAlgorithmClass, theThresholdInE_BPix, theThresholdInE_BPix_L1, theThresholdInE_BPix_L2, theThresholdInE_FPix, tMax, use_deadmodule_DB_, use_LorentzAngle_DB_, and UseReweighting.

180  : mapToken_(iC.esConsumes()),
181  geomToken_(iC.esConsumes()),
182 
183  _signal(),
184  makeDigiSimLinks_(conf.getUntrackedParameter<bool>("makeDigiSimLinks", true)),
186  conf.exists("store_SimHitEntryExitPoints") ? conf.getParameter<bool>("store_SimHitEntryExitPoints") : false),
187  use_ineff_from_db_(conf.getParameter<bool>("useDB")),
188  use_module_killing_(conf.getParameter<bool>("killModules")), // boolean to kill or not modules
189  use_deadmodule_DB_(conf.getParameter<bool>("DeadModules_DB")), // boolean to access dead modules from DB
190  use_LorentzAngle_DB_(conf.getParameter<bool>("LorentzAngle_DB")), // boolean to access Lorentz angle from DB
191 
193  : conf.getParameter<Parameters>("DeadModules")), // get dead module from cfg file
194 
196 
197  // Common pixel parameters
198  // These are parameters which are not likely to be changed
199  GeVperElectron(3.61E-09), // 1 electron(3.61eV, 1keV(277e, mod 9/06 d.k.
200  Sigma0(0.00037), // Charge diffusion constant 7->3.7
201  Dist300(0.0300), // normalized to 300micron Silicon
202  alpha2Order(conf.getParameter<bool>("Alpha2Order")), // switch on/off of E.B effect
203  ClusterWidth(3.), // Charge integration spread on the collection plane
204 
205  // get external parameters:
206  // To account for upgrade geometries do not assume the number
207  // of layers or disks.
208  NumberOfBarrelLayers(conf.exists("NumPixelBarrel") ? conf.getParameter<int>("NumPixelBarrel") : 3),
209  NumberOfEndcapDisks(conf.exists("NumPixelEndcap") ? conf.getParameter<int>("NumPixelEndcap") : 2),
210 
211  // ADC calibration 1adc count(135e.
212  // Corresponds to 2adc/kev, 270[e/kev]/135[e/adc](2[adc/kev]
213  // Be carefull, this parameter is also used in SiPixelDet.cc to
214  // calculate the noise in adc counts from noise in electrons.
215  // Both defaults should be the same.
216  theElectronPerADC(conf.getParameter<double>("ElectronPerAdc")),
217 
218  // ADC saturation value, 255(8bit adc.
219  //theAdcFullScale(conf.getUntrackedParameter<int>("AdcFullScale",255)),
220  theAdcFullScale(conf.getParameter<int>("AdcFullScale")),
221  theAdcFullScLateCR(conf.getParameter<int>("AdcFullScLateCR")),
222 
223  // Noise in electrons:
224  // Pixel cell noise, relevant for generating noisy pixels
225  theNoiseInElectrons(conf.getParameter<double>("NoiseInElectrons")),
226 
227  // Fill readout noise, including all readout chain, relevant for smearing
228  //theReadoutNoise(conf.getUntrackedParameter<double>("ReadoutNoiseInElec",500.)),
229  theReadoutNoise(conf.getParameter<double>("ReadoutNoiseInElec")),
230 
231  // Pixel threshold in units of noise:
232  // thePixelThreshold(conf.getParameter<double>("ThresholdInNoiseUnits")),
233  // Pixel threshold in electron units.
234  theThresholdInE_FPix(conf.getParameter<double>("ThresholdInElectrons_FPix")),
235  theThresholdInE_BPix(conf.getParameter<double>("ThresholdInElectrons_BPix")),
236  theThresholdInE_BPix_L1(conf.exists("ThresholdInElectrons_BPix_L1")
237  ? conf.getParameter<double>("ThresholdInElectrons_BPix_L1")
239  theThresholdInE_BPix_L2(conf.exists("ThresholdInElectrons_BPix_L2")
240  ? conf.getParameter<double>("ThresholdInElectrons_BPix_L2")
242 
243  // Add threshold gaussian smearing:
244  theThresholdSmearing_FPix(conf.getParameter<double>("ThresholdSmearing_FPix")),
245  theThresholdSmearing_BPix(conf.getParameter<double>("ThresholdSmearing_BPix")),
246  theThresholdSmearing_BPix_L1(conf.exists("ThresholdSmearing_BPix_L1")
247  ? conf.getParameter<double>("ThresholdSmearing_BPix_L1")
249  theThresholdSmearing_BPix_L2(conf.exists("ThresholdSmearing_BPix_L2")
250  ? conf.getParameter<double>("ThresholdSmearing_BPix_L2")
252 
253  // electrons to VCAL conversion needed in misscalibrate()
254  electronsPerVCAL(conf.getParameter<double>("ElectronsPerVcal")),
255  electronsPerVCAL_Offset(conf.getParameter<double>("ElectronsPerVcal_Offset")),
256  electronsPerVCAL_L1(conf.exists("ElectronsPerVcal_L1") ? conf.getParameter<double>("ElectronsPerVcal_L1")
257  : electronsPerVCAL),
258  electronsPerVCAL_L1_Offset(conf.exists("ElectronsPerVcal_L1_Offset")
259  ? conf.getParameter<double>("ElectronsPerVcal_L1_Offset")
261 
262  //theTofCut 12.5, cut in particle TOD +/- 12.5ns
263  //theTofCut(conf.getUntrackedParameter<double>("TofCut",12.5)),
264  theTofLowerCut(conf.getParameter<double>("TofLowerCut")),
265  theTofUpperCut(conf.getParameter<double>("TofUpperCut")),
266 
267  // Get the Lorentz angle from the cfg file:
269  : conf.getParameter<double>("TanLorentzAnglePerTesla_FPix")),
271  : conf.getParameter<double>("TanLorentzAnglePerTesla_BPix")),
272 
273  // signal response new parameterization: split Fpix and BPix
274  FPix_p0(conf.getParameter<double>("FPix_SignalResponse_p0")),
275  FPix_p1(conf.getParameter<double>("FPix_SignalResponse_p1")),
276  FPix_p2(conf.getParameter<double>("FPix_SignalResponse_p2")),
277  FPix_p3(conf.getParameter<double>("FPix_SignalResponse_p3")),
278 
279  BPix_p0(conf.getParameter<double>("BPix_SignalResponse_p0")),
280  BPix_p1(conf.getParameter<double>("BPix_SignalResponse_p1")),
281  BPix_p2(conf.getParameter<double>("BPix_SignalResponse_p2")),
282  BPix_p3(conf.getParameter<double>("BPix_SignalResponse_p3")),
283 
284  // Add noise
285  addNoise(conf.getParameter<bool>("AddNoise")),
286 
287  // Smear the pixel charge with a gaussian which RMS is a function of the
288  // pixel charge (Danek's study)
289  addChargeVCALSmearing(conf.getParameter<bool>("ChargeVCALSmearing")),
290 
291  // Add noisy pixels
292  addNoisyPixels(conf.getParameter<bool>("AddNoisyPixels")),
293 
294  // Fluctuate charge in track subsegments
295  fluctuateCharge(conf.getUntrackedParameter<bool>("FluctuateCharge", true)),
296 
297  // Control the pixel inefficiency
298  AddPixelInefficiency(conf.getParameter<bool>("AddPixelInefficiency")),
299  KillBadFEDChannels(conf.getParameter<bool>("KillBadFEDChannels")),
300 
301  // Add threshold gaussian smearing:
302  addThresholdSmearing(conf.getParameter<bool>("AddThresholdSmearing")),
303 
304  // Get the constants for the miss-calibration studies
305  doMissCalibrate(conf.getParameter<bool>("MissCalibrate")), // Enable miss-calibration
306  doMissCalInLateCR(conf.getParameter<bool>("MissCalInLateCR")), // Enable miss-calibration
307  theGainSmearing(conf.getParameter<double>("GainSmearing")), // sigma of the gain smearing
308  theOffsetSmearing(conf.getParameter<double>("OffsetSmearing")), //sigma of the offset smearing
309 
310  // Add pixel radiation damage for upgrade studies
311  AddPixelAging(conf.getParameter<bool>("DoPixelAging")),
312  UseReweighting(conf.getParameter<bool>("UseReweighting")),
313 
314  // delta cutoff in MeV, has to be same as in OSCAR(0.030/cmsim=1.0 MeV
315  //tMax(0.030), // In MeV.
316  //tMax(conf.getUntrackedParameter<double>("deltaProductionCut",0.030)),
317  tMax(conf.getParameter<double>("deltaProductionCut")),
318 
320  theNoiser(addNoise ? new GaussianTailNoiseGenerator() : nullptr),
321  calmap((doMissCalibrate || doMissCalInLateCR) ? initCal() : std::map<int, CalParameters, std::less<int> >()),
323  : nullptr),
326  if (use_deadmodule_DB_) {
327  //string to specify SiPixelQuality label
328  SiPixelBadModuleToken_ = iC.esConsumes(edm::ESInputTag("", conf.getParameter<std::string>("SiPixelQualityLabel")));
329  }
330  if (use_LorentzAngle_DB_) {
332  }
334  // TODO: in practice the bunchspacing is known at MixingModule
335  // construction time, and thus we could declare the consumption of
336  // the actual product. In principle, however, MixingModule is
337  // capable of updating (parts of) its configuration from the
338  // EventSetup, so if that capability is really needed we'd need to
339  // invent something new (similar to mayConsume in the ESProducer
340  // side). So for now, let's consume both payloads.
342  }
343  if (KillBadFEDChannels) {
346  }
347 
348  LogInfo("PixelDigitizer ") << "SiPixelDigitizerAlgorithm constructed"
349  << "Configuration parameters:"
350  << "Threshold/Gain = "
351  << "threshold in electron FPix = " << theThresholdInE_FPix
352  << "threshold in electron BPix = " << theThresholdInE_BPix
353  << "threshold in electron BPix Layer1 = " << theThresholdInE_BPix_L1
354  << "threshold in electron BPix Layer2 = " << theThresholdInE_BPix_L2 << " "
355  << theElectronPerADC << " " << theAdcFullScale << " The delta cut-off is set to " << tMax
356  << " pix-inefficiency " << AddPixelInefficiency;
357 
358  LogInfo("PixelDigitizer ") << " SiPixelDigitizerAlgorithm constructed with UseReweighting " << UseReweighting
359  << " and store_SimHitEntryExitPoints_ " << store_SimHitEntryExitPoints_ << " \n";
360 
361  TheNewSiPixelChargeReweightingAlgorithmClass = std::make_unique<SiPixelChargeReweightingAlgorithm>(conf, iC);
362 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:303
const std::unique_ptr< SiPixelGainCalibrationOfflineSimService > theSiPixelGainCalibrationService_
const std::unique_ptr< SiG4UniversalFluctuation > fluctuate
bool exists(std::string const &parameterName) const
checks if a parameter exists
edm::ESGetToken< SiPixelQualityProbabilities, SiPixelStatusScenarioProbabilityRcd > scenarioProbabilityToken_
std::unique_ptr< SiPixelChargeReweightingAlgorithm > TheNewSiPixelChargeReweightingAlgorithmClass
T getUntrackedParameter(std::string const &, T const &) const
edm::ESGetToken< SiPixelQuality, SiPixelQualityRcd > SiPixelBadModuleToken_
edm::ESGetToken< SiPixelLorentzAngle, SiPixelLorentzAngleSimRcd > SiPixelLorentzAngleToken_
edm::ESGetToken< PixelFEDChannelCollectionMap, SiPixelFEDChannelContainerESProducerRcd > PixelFEDChannelCollectionMapToken_
const std::map< int, CalParameters, std::less< int > > calmap
Log< level::Info, false > LogInfo
const std::unique_ptr< GaussianTailNoiseGenerator > theNoiser
std::vector< edm::ParameterSet > Parameters
edm::ESGetToken< SiPixelDynamicInefficiency, SiPixelDynamicInefficiencyRcd > SiPixelDynamicInefficiencyToken_
std::map< int, CalParameters, std::less< int > > initCal() const
const edm::ESGetToken< SiPixelFedCablingMap, SiPixelFedCablingMapRcd > mapToken_
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > geomToken_

◆ ~SiPixelDigitizerAlgorithm()

SiPixelDigitizerAlgorithm::~SiPixelDigitizerAlgorithm ( )

Definition at line 454 of file SiPixelDigitizerAlgorithm.cc.

References LogDebug.

454  {
455  LogDebug("PixelDigitizer") << "SiPixelDigitizerAlgorithm deleted";
456 }
#define LogDebug(id)

Member Function Documentation

◆ accumulateSimHits()

void SiPixelDigitizerAlgorithm::accumulateSimHits ( const std::vector< PSimHit >::const_iterator  inputBegin,
const std::vector< PSimHit >::const_iterator  inputEnd,
const size_t  inputBeginGlobalIndex,
const unsigned int  tofBin,
const PixelGeomDetUnit pixdet,
const GlobalVector bfield,
const TrackerTopology tTopo,
CLHEP::HepRandomEngine *  engine 
)

Definition at line 807 of file SiPixelDigitizerAlgorithm.cc.

References drift(), GeomDet::geographicalId(), induce_signal(), LogDebug, mag(), primary_ionization(), DetId::rawId(), GeomDet::surface(), theTofLowerCut, theTofUpperCut, and Surface::toGlobal().

814  {
815  // produce SignalPoint's for all SimHit's in detector
816  // Loop over hits
817 
818  uint32_t detId = pixdet->geographicalId().rawId();
819  size_t simHitGlobalIndex = inputBeginGlobalIndex; // This needs to stored to create the digi-sim link later
820  for (std::vector<PSimHit>::const_iterator ssbegin = inputBegin; ssbegin != inputEnd; ++ssbegin, ++simHitGlobalIndex) {
821  // skip hits not in this detector.
822  if ((*ssbegin).detUnitId() != detId) {
823  continue;
824  }
825 
826 #ifdef TP_DEBUG
827  LogDebug("Pixel Digitizer") << (*ssbegin).particleType() << " " << (*ssbegin).pabs() << " "
828  << (*ssbegin).energyLoss() << " " << (*ssbegin).tof() << " " << (*ssbegin).trackId()
829  << " " << (*ssbegin).processType() << " " << (*ssbegin).detUnitId()
830  << (*ssbegin).entryPoint() << " " << (*ssbegin).exitPoint();
831 #endif
832 
833  std::vector<EnergyDepositUnit> ionization_points;
834  std::vector<SignalPoint> collection_points;
835 
836  // fill collection_points for this SimHit, indpendent of topology
837  // Check the TOF cut
838  if (((*ssbegin).tof() - pixdet->surface().toGlobal((*ssbegin).localPosition()).mag() / 30.) >= theTofLowerCut &&
839  ((*ssbegin).tof() - pixdet->surface().toGlobal((*ssbegin).localPosition()).mag() / 30.) <= theTofUpperCut) {
840  primary_ionization(*ssbegin, ionization_points, engine); // fills _ionization_points
841  drift(*ssbegin,
842  pixdet,
843  bfield,
844  tTopo,
845  ionization_points,
846  collection_points); // transforms _ionization_points to collection_points
847  // compute induced signal on readout elements and add to _signal
848  induce_signal(inputBegin,
849  inputEnd,
850  *ssbegin,
851  simHitGlobalIndex,
852  inputBeginGlobalIndex,
853  tofBin,
854  pixdet,
855  collection_points); // 1st 3 args needed only for SimHit<-->Digi link
856  } // end if
857  } // end for
858 }
void drift(const PSimHit &hit, const PixelGeomDetUnit *pixdet, const GlobalVector &bfield, const TrackerTopology *tTopo, const std::vector< EnergyDepositUnit > &ionization_points, std::vector< SignalPoint > &collection_points) const
void induce_signal(std::vector< PSimHit >::const_iterator inputBegin, std::vector< PSimHit >::const_iterator inputEnd, const PSimHit &hit, const size_t hitIndex, const size_t FirstHitIndex, const unsigned int tofBin, const PixelGeomDetUnit *pixdet, const std::vector< SignalPoint > &collection_points)
void primary_ionization(const PSimHit &hit, std::vector< EnergyDepositUnit > &ionization_points, CLHEP::HepRandomEngine *) const
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
GlobalPoint toGlobal(const Point2DBase< Scalar, LocalTag > lp) const
Definition: Surface.h:79
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:37
T mag() const
The vector magnitude. Equivalent to sqrt(vec.mag2())
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
#define LogDebug(id)

◆ add_noise()

void SiPixelDigitizerAlgorithm::add_noise ( const PixelGeomDetUnit pixdet,
float  thePixelThreshold,
CLHEP::HepRandomEngine *  engine 
)
private

Definition at line 1798 of file SiPixelDigitizerAlgorithm.cc.

References _signal, addChargeVCALSmearing, addNoisyPixels, LaserClient_cfi::Amplitude, officialStyle::chan, GeomDet::geographicalId(), mps_fire::i, createfilelist::int, LogDebug, PixelTopology::ncolumns(), hgchebackDigitizer_cfi::noise, PixelTopology::nrows(), PixelDigi::pixelToChannel(), DetId::rawId(), PixelGeomDetUnit::specificTopology(), theNoiseInElectrons, theNoiser, theReadoutNoise, theThresholdInE_BPix, and theThresholdInE_FPix.

Referenced by digitize().

1800  {
1801 #ifdef TP_DEBUG
1802  LogDebug("Pixel Digitizer") << " enter add_noise " << theNoiseInElectrons;
1803 #endif
1804 
1805  uint32_t detID = pixdet->geographicalId().rawId();
1806  signal_map_type& theSignal = _signal[detID];
1807 
1808  // First add noise to hit pixels
1809  float theSmearedChargeRMS = 0.0;
1810 
1811  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); i++) {
1812  if (addChargeVCALSmearing) {
1813  if ((*i).second < 3000) {
1814  theSmearedChargeRMS = 543.6 - (*i).second * 0.093;
1815  } else if ((*i).second < 6000) {
1816  theSmearedChargeRMS = 307.6 - (*i).second * 0.01;
1817  } else {
1818  theSmearedChargeRMS = -432.4 + (*i).second * 0.123;
1819  }
1820 
1821  // Noise from Vcal smearing:
1822  float noise_ChargeVCALSmearing = theSmearedChargeRMS * CLHEP::RandGaussQ::shoot(engine, 0., 1.);
1823  // Noise from full readout:
1824  float noise = CLHEP::RandGaussQ::shoot(engine, 0., theReadoutNoise);
1825 
1826  if (((*i).second + digitizerUtility::Amplitude(noise + noise_ChargeVCALSmearing, -1.)) < 0.) {
1827  (*i).second.set(0);
1828  } else {
1829  (*i).second += digitizerUtility::Amplitude(noise + noise_ChargeVCALSmearing, -1.);
1830  }
1831 
1832  } // End if addChargeVCalSmearing
1833  else {
1834  // Noise: ONLY full READOUT Noise.
1835  // Use here the FULL readout noise, including TBM,ALT,AOH,OPT-REC.
1836  float noise = CLHEP::RandGaussQ::shoot(engine, 0., theReadoutNoise);
1837 
1838  if (((*i).second + digitizerUtility::Amplitude(noise, -1.)) < 0.) {
1839  (*i).second.set(0);
1840  } else {
1841  (*i).second += digitizerUtility::Amplitude(noise, -1.);
1842  }
1843  } // end if only Noise from full readout
1844  }
1845 
1846  if (!addNoisyPixels) // Option to skip noise in non-hit pixels
1847  return;
1848 
1849  const PixelTopology* topol = &pixdet->specificTopology();
1850  int numColumns = topol->ncolumns(); // det module number of cols&rows
1851  int numRows = topol->nrows();
1852 
1853  // Add noise on non-hit pixels
1854  // Use here the pixel noise
1855  int numberOfPixels = (numRows * numColumns);
1856  std::map<int, float, std::less<int> > otherPixels;
1857  std::map<int, float, std::less<int> >::iterator mapI;
1858 
1859  theNoiser->generate(numberOfPixels,
1860  thePixelThreshold, //thr. in un. of nois
1861  theNoiseInElectrons, // noise in elec.
1862  otherPixels,
1863  engine);
1864 
1865 #ifdef TP_DEBUG
1866  LogDebug("Pixel Digitizer") << " Add noisy pixels " << numRows << " " << numColumns << " " << theNoiseInElectrons
1867  << " " << theThresholdInE_FPix << theThresholdInE_BPix << " " << numberOfPixels << " "
1868  << otherPixels.size();
1869 #endif
1870 
1871  // Add noisy pixels
1872  for (mapI = otherPixels.begin(); mapI != otherPixels.end(); mapI++) {
1873  int iy = ((*mapI).first) / numRows;
1874  int ix = ((*mapI).first) - (iy * numRows);
1875 
1876  // Keep for a while for testing.
1877  if (iy < 0 || iy > (numColumns - 1))
1878  LogWarning("Pixel Geometry") << " error in iy " << iy;
1879  if (ix < 0 || ix > (numRows - 1))
1880  LogWarning("Pixel Geometry") << " error in ix " << ix;
1881 
1882  int chan = PixelDigi::pixelToChannel(ix, iy);
1883 
1884 #ifdef TP_DEBUG
1885  LogDebug("Pixel Digitizer") << " Storing noise = " << (*mapI).first << " " << (*mapI).second << " " << ix << " "
1886  << iy << " " << chan;
1887 #endif
1888 
1889  if (theSignal[chan] == 0) {
1890  // float noise = float( (*mapI).second );
1891  int noise = int((*mapI).second);
1892  theSignal[chan] = digitizerUtility::Amplitude(noise, -1.);
1893  }
1894  }
1895 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
virtual int ncolumns() const =0
virtual int nrows() const =0
static int pixelToChannel(int row, int col)
Definition: PixelDigi.h:75
signal_map_type::iterator signal_map_iterator
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
const std::unique_ptr< GaussianTailNoiseGenerator > theNoiser
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
Log< level::Warning, false > LogWarning
#define LogDebug(id)

◆ calcQ()

double SiPixelDigitizerAlgorithm::calcQ ( float  x) const
inlineprivate

Definition at line 437 of file SiPixelDigitizerAlgorithm.h.

References f, SiStripPI::min, mathSSE::sqrt(), x, and geometryCSVtoXML::xx.

Referenced by induce_signal().

437  {
438  // need erf(x/sqrt2)
439  //float x2=0.5*x*x;
440  //float a=0.147;
441  //double erf=sqrt(1.0f-exp( -1.0f*x2*( (4/M_PI)+a*x2)/(1.0+a*x2)));
442  //if (x<0.) erf*=-1.0;
443  //return 0.5*(1.0-erf);
444 
445  auto xx = std::min(0.5f * x * x, 12.5f);
446  return 0.5 * (1.0 - std::copysign(std::sqrt(1.f - unsafe_expf<4>(-xx * (1.f + 0.2733f / (1.f + 0.147f * xx)))), x));
447  }
T sqrt(T t)
Definition: SSEVec.h:19
double f[11][100]

◆ calculateInstlumiFactor() [1/2]

void SiPixelDigitizerAlgorithm::calculateInstlumiFactor ( PileupMixingContent puInfo)

Definition at line 861 of file SiPixelDigitizerAlgorithm.cc.

References PileupMixingContent::getMix_bunchCrossing(), PileupMixingContent::getMix_TrueInteractions(), mps_fire::i, dqmiolumiharvest::j, dqmiodumpmetadata::n, AlCaHLTBitMon_ParallelJobs::p, pixelEfficiencies_, displacedMuons_cfi::pu, SiPixelDigitizerAlgorithm::PixelEfficiencies::pu_scale, SiPixelDigitizerAlgorithm::PixelEfficiencies::theInstLumiScaleFactor, and SiPixelDigitizerAlgorithm::PixelEfficiencies::thePUEfficiency.

Referenced by PreMixingSiPixelWorker::put().

861  {
862  //Instlumi scalefactor calculating for dynamic inefficiency
863 
864  if (puInfo) {
865  const std::vector<int>& bunchCrossing = puInfo->getMix_bunchCrossing();
866  const std::vector<float>& TrueInteractionList = puInfo->getMix_TrueInteractions();
867  //const int bunchSpacing = puInfo->getMix_bunchSpacing();
868 
869  int pui = 0, p = 0;
870  std::vector<int>::const_iterator pu;
871  std::vector<int>::const_iterator pu0 = bunchCrossing.end();
872 
873  for (pu = bunchCrossing.begin(); pu != bunchCrossing.end(); ++pu) {
874  if (*pu == 0) {
875  pu0 = pu;
876  p = pui;
877  }
878  pui++;
879  }
880  if (pu0 != bunchCrossing.end()) {
881  for (size_t i = 0, n = pixelEfficiencies_.thePUEfficiency.size(); i < n; i++) {
882  double instlumi = TrueInteractionList.at(p) * pixelEfficiencies_.theInstLumiScaleFactor;
883  double instlumi_pow = 1.;
885  for (size_t j = 0; j < pixelEfficiencies_.thePUEfficiency[i].size(); j++) {
887  instlumi_pow *= instlumi;
888  }
889  }
890  }
891  } else {
892  for (int i = 0, n = pixelEfficiencies_.thePUEfficiency.size(); i < n; i++) {
894  }
895  }
896 }
std::vector< std::vector< double > > thePUEfficiency
const std::vector< int > & getMix_bunchCrossing() const
const std::vector< float > & getMix_TrueInteractions() const

◆ calculateInstlumiFactor() [2/2]

void SiPixelDigitizerAlgorithm::calculateInstlumiFactor ( const std::vector< PileupSummaryInfo > &  ps,
int  bunchSpacing 
)

Definition at line 899 of file SiPixelDigitizerAlgorithm.cc.

References mps_fire::i, dqmiolumiharvest::j, dqmiodumpmetadata::n, AlCaHLTBitMon_ParallelJobs::p, pixelEfficiencies_, SiPixelDigitizerAlgorithm::PixelEfficiencies::pu_scale, SiPixelDigitizerAlgorithm::PixelEfficiencies::theInstLumiScaleFactor, and SiPixelDigitizerAlgorithm::PixelEfficiencies::thePUEfficiency.

899  {
900  int p = -1;
901  for (unsigned int i = 0; i < ps.size(); i++)
902  if (ps[i].getBunchCrossing() == 0)
903  p = i;
904 
905  if (p >= 0) {
906  for (size_t i = 0, n = pixelEfficiencies_.thePUEfficiency.size(); i < n; i++) {
907  double instlumi = ps[p].getTrueNumInteractions() * pixelEfficiencies_.theInstLumiScaleFactor;
908  double instlumi_pow = 1.;
910  for (size_t j = 0; j < pixelEfficiencies_.thePUEfficiency[i].size(); j++) {
912  instlumi_pow *= instlumi;
913  }
914  }
915  } else {
916  for (int i = 0, n = pixelEfficiencies_.thePUEfficiency.size(); i < n; i++) {
918  }
919  }
920 }
std::vector< std::vector< double > > thePUEfficiency

◆ chooseScenario() [1/2]

std::unique_ptr< PixelFEDChannelCollection > SiPixelDigitizerAlgorithm::chooseScenario ( PileupMixingContent puInfo,
CLHEP::HepRandomEngine *  engine 
)

Definition at line 973 of file SiPixelDigitizerAlgorithm.cc.

References PileupMixingContent::getMix_bunchCrossing(), PileupMixingContent::getMix_TrueInteractions(), SiPixelQualityProbabilities::getProbabilities(), AlCaHLTBitMon_ParallelJobs::p, pixelEfficiencies_, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelFEDChannelCollection_, displacedMuons_cfi::pu, quality_map, scenarioProbability_, AlCaHLTBitMon_QueryRunRegistry::string, and x.

Referenced by PreMixingSiPixelWorker::put().

974  {
975  //Determine scenario to use for the current event based on pileup information
976 
977  std::unique_ptr<PixelFEDChannelCollection> PixelFEDChannelCollection_ = nullptr;
979  if (puInfo) {
980  const std::vector<int>& bunchCrossing = puInfo->getMix_bunchCrossing();
981  const std::vector<float>& TrueInteractionList = puInfo->getMix_TrueInteractions();
982 
983  int pui = 0, p = 0;
984  std::vector<int>::const_iterator pu;
985  std::vector<int>::const_iterator pu0 = bunchCrossing.end();
986 
987  for (pu = bunchCrossing.begin(); pu != bunchCrossing.end(); ++pu) {
988  if (*pu == 0) {
989  pu0 = pu;
990  p = pui;
991  }
992  pui++;
993  }
994 
995  if (pu0 != bunchCrossing.end()) {
996  unsigned int PUBin = TrueInteractionList.at(p); // case delta PU=1, fix me
997  const auto& theProbabilitiesPerScenario = scenarioProbability_->getProbabilities(PUBin);
998  std::vector<double> probabilities;
999  probabilities.reserve(theProbabilitiesPerScenario.size());
1000  for (auto it = theProbabilitiesPerScenario.begin(); it != theProbabilitiesPerScenario.end(); it++) {
1001  probabilities.push_back(it->second);
1002  }
1003 
1004  CLHEP::RandGeneral randGeneral(*engine, &(probabilities.front()), probabilities.size());
1005  double x = randGeneral.shoot();
1006  unsigned int index = x * probabilities.size() - 1;
1007  const std::string& scenario = theProbabilitiesPerScenario.at(index).first;
1008 
1009  PixelFEDChannelCollection_ = std::make_unique<PixelFEDChannelCollection>(quality_map->at(scenario));
1011  std::make_unique<PixelFEDChannelCollection>(quality_map->at(scenario));
1012  }
1013  }
1014  return PixelFEDChannelCollection_;
1015 }
std::unique_ptr< PixelFEDChannelCollection > PixelFEDChannelCollection_
const std::vector< int > & getMix_bunchCrossing() const
scenario
Definition: constants.h:173
const PixelFEDChannelCollectionMap * quality_map
probabilityVec getProbabilities(const unsigned int puBin) const
const std::vector< float > & getMix_TrueInteractions() const
const SiPixelQualityProbabilities * scenarioProbability_

◆ chooseScenario() [2/2]

std::unique_ptr< PixelFEDChannelCollection > SiPixelDigitizerAlgorithm::chooseScenario ( const std::vector< PileupSummaryInfo > &  ps,
CLHEP::HepRandomEngine *  engine 
)

Definition at line 926 of file SiPixelDigitizerAlgorithm.cc.

References SiPixelQualityProbabilities::getProbabilities(), mps_fire::i, AlCaHLTBitMon_ParallelJobs::p, pixelEfficiencies_, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelFEDChannelCollection_, displacedMuons_cfi::pu, quality_map, scenarioProbability_, AlCaHLTBitMon_QueryRunRegistry::string, and x.

927  {
928  std::unique_ptr<PixelFEDChannelCollection> PixelFEDChannelCollection_ = nullptr;
930 
931  std::vector<int> bunchCrossing;
932  std::vector<float> TrueInteractionList;
933 
934  for (unsigned int i = 0; i < ps.size(); i++) {
935  bunchCrossing.push_back(ps[i].getBunchCrossing());
936  TrueInteractionList.push_back(ps[i].getTrueNumInteractions());
937  }
938 
939  int pui = 0, p = 0;
940  std::vector<int>::const_iterator pu;
941  std::vector<int>::const_iterator pu0 = bunchCrossing.end();
942 
943  for (pu = bunchCrossing.begin(); pu != bunchCrossing.end(); ++pu) {
944  if (*pu == 0) {
945  pu0 = pu;
946  p = pui;
947  }
948  pui++;
949  }
950 
951  if (pu0 != bunchCrossing.end()) {
952  unsigned int PUBin = TrueInteractionList.at(p); // case delta PU=1, fix me
953  const auto& theProbabilitiesPerScenario = scenarioProbability_->getProbabilities(PUBin);
954  std::vector<double> probabilities;
955  probabilities.reserve(theProbabilitiesPerScenario.size());
956  for (auto it = theProbabilitiesPerScenario.begin(); it != theProbabilitiesPerScenario.end(); it++) {
957  probabilities.push_back(it->second);
958  }
959 
960  CLHEP::RandGeneral randGeneral(*engine, &(probabilities.front()), probabilities.size());
961  double x = randGeneral.shoot();
962  unsigned int index = x * probabilities.size() - 1;
963  const std::string& scenario = theProbabilitiesPerScenario.at(index).first;
964 
965  PixelFEDChannelCollection_ = std::make_unique<PixelFEDChannelCollection>(quality_map->at(scenario));
967  std::make_unique<PixelFEDChannelCollection>(quality_map->at(scenario));
968  }
969 
970  return PixelFEDChannelCollection_;
971 }
std::unique_ptr< PixelFEDChannelCollection > PixelFEDChannelCollection_
scenario
Definition: constants.h:173
const PixelFEDChannelCollectionMap * quality_map
probabilityVec getProbabilities(const unsigned int puBin) const
const SiPixelQualityProbabilities * scenarioProbability_

◆ digitize()

void SiPixelDigitizerAlgorithm::digitize ( const PixelGeomDetUnit pixdet,
std::vector< PixelDigi > &  digis,
std::vector< PixelDigiSimLink > &  simlinks,
std::vector< PixelDigiAddTempInfo > &  newClass_Digi_extra,
const TrackerTopology tTopo,
CLHEP::HepRandomEngine *  engine 
)

Definition at line 1029 of file SiPixelDigitizerAlgorithm.cc.

References _signal, add_noise(), addNoise, AddPixelInefficiency, addThresholdSmearing, Surface::bounds(), Exception, GeomDet::geographicalId(), GeomDetType::isBarrel(), GeomDetType::isTrackerPixel(), TrackerTopology::layer(), LogDebug, make_digis(), module_killing_conf(), module_killing_DB(), PixelTopology::ncolumns(), PixelTopology::nrows(), GeomDetEnumerators::P1PXB, pixel_inefficiency(), pixel_inefficiency_db(), GeomDetEnumerators::PixelBarrel, pixelEfficiencies_, DetId::rawId(), GeomDet::specificSurface(), PixelGeomDetUnit::specificTopology(), GeomDet::subDetector(), theNoiseInElectrons, theThresholdInE_BPix, theThresholdInE_BPix_L1, theThresholdInE_BPix_L2, theThresholdInE_FPix, theThresholdSmearing_BPix, theThresholdSmearing_BPix_L1, theThresholdSmearing_BPix_L2, theThresholdSmearing_FPix, Bounds::thickness(), PixelGeomDetUnit::type(), use_deadmodule_DB_, use_ineff_from_db_, and use_module_killing_.

Referenced by PreMixingSiPixelWorker::put().

1034  {
1035  // Pixel Efficiency moved from the constructor to this method because
1036  // the information of the det are not available in the constructor
1037  // Efficiency parameters. 0 - no inefficiency, 1-low lumi, 10-high lumi
1038 
1039  uint32_t detID = pixdet->geographicalId().rawId();
1040  const signal_map_type& theSignal = _signal[detID];
1041 
1042  // Noise already defined in electrons
1043  // thePixelThresholdInE = thePixelThreshold * theNoiseInElectrons ;
1044  // Find the threshold in noise units, needed for the noiser.
1045 
1046  float thePixelThresholdInE = 0.;
1047 
1048  if (theNoiseInElectrons > 0.) {
1049  if (pixdet->type().isTrackerPixel() && pixdet->type().isBarrel()) { // Barrel modules
1050  int lay = tTopo->layer(detID);
1051  if (addThresholdSmearing) {
1054  if (lay == 1) {
1055  thePixelThresholdInE = CLHEP::RandGaussQ::shoot(
1056  engine, theThresholdInE_BPix_L1, theThresholdSmearing_BPix_L1); // gaussian smearing
1057  } else if (lay == 2) {
1058  thePixelThresholdInE = CLHEP::RandGaussQ::shoot(
1059  engine, theThresholdInE_BPix_L2, theThresholdSmearing_BPix_L2); // gaussian smearing
1060  } else {
1061  thePixelThresholdInE =
1062  CLHEP::RandGaussQ::shoot(engine, theThresholdInE_BPix, theThresholdSmearing_BPix); // gaussian smearing
1063  }
1064  }
1065  } else {
1068  if (lay == 1) {
1069  thePixelThresholdInE = theThresholdInE_BPix_L1;
1070  } else if (lay == 2) {
1071  thePixelThresholdInE = theThresholdInE_BPix_L2;
1072  } else {
1073  thePixelThresholdInE = theThresholdInE_BPix; // no smearing
1074  }
1075  }
1076  }
1077  } else if (pixdet->type().isTrackerPixel()) { // Forward disks modules
1078  if (addThresholdSmearing) {
1079  thePixelThresholdInE =
1080  CLHEP::RandGaussQ::shoot(engine, theThresholdInE_FPix, theThresholdSmearing_FPix); // gaussian smearing
1081  } else {
1082  thePixelThresholdInE = theThresholdInE_FPix; // no smearing
1083  }
1084  } else {
1085  throw cms::Exception("NotAPixelGeomDetUnit") << "Not a pixel geomdet unit" << detID;
1086  }
1087  }
1088 
1089 #ifdef TP_DEBUG
1090  const PixelTopology* topol = &pixdet->specificTopology();
1091  int numColumns = topol->ncolumns(); // det module number of cols&rows
1092  int numRows = topol->nrows();
1093  // full detector thickness
1094  float moduleThickness = pixdet->specificSurface().bounds().thickness();
1095  LogDebug("PixelDigitizer") << " PixelDigitizer " << numColumns << " " << numRows << " " << moduleThickness;
1096 #endif
1097 
1098  if (addNoise)
1099  add_noise(pixdet, thePixelThresholdInE / theNoiseInElectrons, engine); // generate noise
1100 
1101  // Do only if needed
1102 
1103  if ((AddPixelInefficiency) && (!theSignal.empty()))
1104  pixel_inefficiency(pixelEfficiencies_, pixdet, tTopo, engine); // Kill some pixels
1105 
1106  if (use_ineff_from_db_ && (!theSignal.empty()))
1107  pixel_inefficiency_db(detID);
1108 
1109  if (use_module_killing_) {
1110  if (use_deadmodule_DB_) { // remove dead modules using DB
1111  module_killing_DB(detID);
1112  } else { // remove dead modules using the list in cfg file
1113  module_killing_conf(detID);
1114  }
1115  }
1116 
1117  make_digis(thePixelThresholdInE, detID, pixdet, digis, simlinks, newClass_Digi_extra, tTopo);
1118 
1119 #ifdef TP_DEBUG
1120  LogDebug("PixelDigitizer") << "[SiPixelDigitizerAlgorithm] converted " << digis.size() << " PixelDigis in DetUnit"
1121  << detID;
1122 #endif
1123 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
void pixel_inefficiency_db(uint32_t detID)
virtual int ncolumns() const =0
const GeomDetType & type() const override
virtual int nrows() const =0
void make_digis(float thePixelThresholdInE, uint32_t detID, const PixelGeomDetUnit *pixdet, std::vector< PixelDigi > &digis, std::vector< PixelDigiSimLink > &simlinks, std::vector< PixelDigiAddTempInfo > &newClass_Digi_extra, const TrackerTopology *tTopo) const
unsigned int layer(const DetId &id) const
bool isTrackerPixel() const
Definition: GeomDetType.cc:15
virtual float thickness() const =0
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
bool isBarrel() const
Definition: GeomDetType.cc:9
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
virtual SubDetector subDetector() const
Which subdetector.
Definition: GeomDet.cc:38
virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
const Plane & specificSurface() const
Same as surface(), kept for backward compatibility.
Definition: GeomDet.h:40
void add_noise(const PixelGeomDetUnit *pixdet, float thePixelThreshold, CLHEP::HepRandomEngine *)
#define LogDebug(id)
void pixel_inefficiency(const PixelEfficiencies &eff, const PixelGeomDetUnit *pixdet, const TrackerTopology *tTopo, CLHEP::HepRandomEngine *)
const Bounds & bounds() const
Definition: Surface.h:87

◆ drift()

void SiPixelDigitizerAlgorithm::drift ( const PSimHit hit,
const PixelGeomDetUnit pixdet,
const GlobalVector bfield,
const TrackerTopology tTopo,
const std::vector< EnergyDepositUnit > &  ionization_points,
std::vector< SignalPoint > &  collection_points 
) const
private

Definition at line 1260 of file SiPixelDigitizerAlgorithm.cc.

References AddPixelAging, alpha2Order, Surface::bounds(), Dist300, DriftDirection(), HCALHighEnergyHPDFilter_cfi::energy, JetChargeProducer_cfi::exp, mps_fire::i, LogDebug, pixel_aging(), pixelAging_, Sigma0, GeomDet::specificSurface(), mathSSE::sqrt(), Bounds::thickness(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by accumulateSimHits().

1265  {
1266 #ifdef TP_DEBUG
1267  LogDebug("Pixel Digitizer") << " enter drift ";
1268 #endif
1269 
1270  collection_points.resize(ionization_points.size()); // set size
1271 
1272  LocalVector driftDir = DriftDirection(pixdet, bfield, hit.detUnitId()); // get the charge drift direction
1273  if (driftDir.z() == 0.) {
1274  LogWarning("Magnetic field") << " pxlx: drift in z is zero ";
1275  return;
1276  }
1277 
1278  // tangent of Lorentz angle
1279  //float TanLorenzAngleX = driftDir.x()/driftDir.z();
1280  //float TanLorenzAngleY = 0.; // force to 0, driftDir.y()/driftDir.z();
1281 
1282  float TanLorenzAngleX, TanLorenzAngleY, dir_z, CosLorenzAngleX, CosLorenzAngleY;
1283  if (alpha2Order) {
1284  TanLorenzAngleX = driftDir.x(); // tangen of Lorentz angle
1285  TanLorenzAngleY = driftDir.y();
1286  dir_z = driftDir.z(); // The z drift direction
1287  CosLorenzAngleX = 1. / sqrt(1. + TanLorenzAngleX * TanLorenzAngleX); //cosine
1288  CosLorenzAngleY = 1. / sqrt(1. + TanLorenzAngleY * TanLorenzAngleY); //cosine;
1289 
1290  } else {
1291  TanLorenzAngleX = driftDir.x();
1292  TanLorenzAngleY = 0.; // force to 0, driftDir.y()/driftDir.z();
1293  dir_z = driftDir.z(); // The z drift direction
1294  CosLorenzAngleX = 1. / sqrt(1. + TanLorenzAngleX * TanLorenzAngleX); //cosine to estimate the path length
1295  CosLorenzAngleY = 1.;
1296  }
1297 
1298  float moduleThickness = pixdet->specificSurface().bounds().thickness();
1299 #ifdef TP_DEBUG
1300  LogDebug("Pixel Digitizer") << " Lorentz Tan " << TanLorenzAngleX << " " << TanLorenzAngleY << " " << CosLorenzAngleX
1301  << " " << CosLorenzAngleY << " " << moduleThickness * TanLorenzAngleX << " " << driftDir;
1302 #endif
1303 
1304  float Sigma_x = 1.; // Charge spread
1305  float Sigma_y = 1.;
1306  float DriftDistance; // Distance between charge generation and collection
1307  float DriftLength; // Actual Drift Lentgh
1308  float Sigma;
1309 
1310  for (unsigned int i = 0; i != ionization_points.size(); i++) {
1311  float SegX, SegY, SegZ; // position
1312  SegX = ionization_points[i].x();
1313  SegY = ionization_points[i].y();
1314  SegZ = ionization_points[i].z();
1315 
1316  // Distance from the collection plane
1317  //DriftDistance = (moduleThickness/2. + SegZ); // Drift to -z
1318  // Include explixitely the E drift direction (for CMS dir_z=-1)
1319  DriftDistance = moduleThickness / 2. - (dir_z * SegZ); // Drift to -z
1320 
1321  if (DriftDistance <= 0.)
1322  LogDebug("PixelDigitizer ") << " <=0 " << DriftDistance << " " << i << " " << SegZ << " " << dir_z << " " << SegX
1323  << " " << SegY << " " << (moduleThickness / 2) << " " << ionization_points[i].energy()
1324  << " " << hit.particleType() << " " << hit.pabs() << " " << hit.energyLoss() << " "
1325  << hit.entryPoint() << " " << hit.exitPoint() << "\n";
1326 
1327  if (DriftDistance < 0.) {
1328  DriftDistance = 0.;
1329  } else if (DriftDistance > moduleThickness)
1330  DriftDistance = moduleThickness;
1331 
1332  // Assume full depletion now, partial depletion will come later.
1333  float XDriftDueToMagField = DriftDistance * TanLorenzAngleX;
1334  float YDriftDueToMagField = DriftDistance * TanLorenzAngleY;
1335 
1336  // Shift cloud center
1337  float CloudCenterX = SegX + XDriftDueToMagField;
1338  float CloudCenterY = SegY + YDriftDueToMagField;
1339 
1340  // Calculate how long is the charge drift path
1341  DriftLength = sqrt(DriftDistance * DriftDistance + XDriftDueToMagField * XDriftDueToMagField +
1342  YDriftDueToMagField * YDriftDueToMagField);
1343 
1344  // What is the charge diffusion after this path
1345  Sigma = sqrt(DriftLength / Dist300) * Sigma0;
1346 
1347  // Project the diffusion sigma on the collection plane
1348  Sigma_x = Sigma / CosLorenzAngleX;
1349  Sigma_y = Sigma / CosLorenzAngleY;
1350 
1351  // Insert a charge loss due to Rad Damage here
1352  float energyOnCollector = ionization_points[i].energy(); // The energy that reaches the collector
1353 
1354  // add pixel aging
1355  if (AddPixelAging) {
1356  float kValue = pixel_aging(pixelAging_, pixdet, tTopo);
1357  energyOnCollector *= exp(-1 * kValue * DriftDistance / moduleThickness);
1358  }
1359 
1360 #ifdef TP_DEBUG
1361  LogDebug("Pixel Digitizer") << " Dift DistanceZ= " << DriftDistance << " module thickness= " << moduleThickness
1362  << " Start Energy= " << ionization_points[i].energy()
1363  << " Energy after loss= " << energyOnCollector;
1364 #endif
1365  SignalPoint sp(CloudCenterX, CloudCenterY, Sigma_x, Sigma_y, hit.tof(), energyOnCollector);
1366 
1367  // Load the Charge distribution parameters
1368  collection_points[i] = (sp);
1369 
1370  } // loop over ionization points, i.
1371 
1372 } // end drift
T z() const
Definition: PV3DBase.h:61
float pixel_aging(const PixelAging &aging, const PixelGeomDetUnit *pixdet, const TrackerTopology *tTopo) const
virtual float thickness() const =0
T x() const
Definition: PV3DBase.h:59
T y() const
Definition: PV3DBase.h:60
LocalVector DriftDirection(const PixelGeomDetUnit *pixdet, const GlobalVector &bfield, const DetId &detId) const
T sqrt(T t)
Definition: SSEVec.h:19
Log< level::Warning, false > LogWarning
const Plane & specificSurface() const
Same as surface(), kept for backward compatibility.
Definition: GeomDet.h:40
#define LogDebug(id)
const Bounds & bounds() const
Definition: Surface.h:87

◆ DriftDirection()

LocalVector SiPixelDigitizerAlgorithm::DriftDirection ( const PixelGeomDetUnit pixdet,
const GlobalVector bfield,
const DetId detId 
) const
private

Definition at line 2278 of file SiPixelDigitizerAlgorithm.cc.

References alpha2Order, mkfit::Config::Bfield, Exception, GeomDet::geographicalId(), SiPixelLorentzAngle::getLorentzAngle(), GeomDetType::isBarrel(), GeomDetType::isTrackerPixel(), LogDebug, GloballyPositioned< T >::position(), DetId::rawId(), GloballyPositioned< T >::rotation(), L1EGammaClusterEmuProducer_cfi::scale, SiPixelLorentzAngle_, GeomDet::surface(), tanLorentzAnglePerTesla_BPix, tanLorentzAnglePerTesla_FPix, PixelGeomDetUnit::type(), and use_LorentzAngle_DB_.

Referenced by drift().

2280  {
2281  Frame detFrame(pixdet->surface().position(), pixdet->surface().rotation());
2282  LocalVector Bfield = detFrame.toLocal(bfield);
2283 
2284  float alpha2_FPix;
2285  float alpha2_BPix;
2286  float alpha2;
2287 
2288  //float dir_x = -tanLorentzAnglePerTesla * Bfield.y();
2289  //float dir_y = +tanLorentzAnglePerTesla * Bfield.x();
2290  //float dir_z = -1.; // E field always in z direction, so electrons go to -z
2291  // The dir_z has to be +/- 1. !
2292  // LocalVector theDriftDirection = LocalVector(dir_x,dir_y,dir_z);
2293 
2294  float dir_x = 0.0f;
2295  float dir_y = 0.0f;
2296  float dir_z = 0.0f;
2297  float scale = 0.0f;
2298 
2299  uint32_t detID = pixdet->geographicalId().rawId();
2300 
2301  // Read Lorentz angle from cfg file:**************************************************************
2302 
2303  if (!use_LorentzAngle_DB_) {
2304  if (alpha2Order) {
2307  } else {
2308  alpha2_FPix = 0.0f;
2309  alpha2_BPix = 0.0f;
2310  }
2311 
2312  if (pixdet->type().isTrackerPixel() && pixdet->type().isBarrel()) { // barrel layers
2313  dir_x = -(tanLorentzAnglePerTesla_BPix * Bfield.y() + alpha2_BPix * Bfield.z() * Bfield.x());
2314  dir_y = +(tanLorentzAnglePerTesla_BPix * Bfield.x() - alpha2_BPix * Bfield.z() * Bfield.y());
2315  dir_z = -(1 + alpha2_BPix * Bfield.z() * Bfield.z());
2316  scale = -dir_z;
2317  } else if (pixdet->type().isTrackerPixel()) { // forward disks
2318  dir_x = -(tanLorentzAnglePerTesla_FPix * Bfield.y() + alpha2_FPix * Bfield.z() * Bfield.x());
2319  dir_y = +(tanLorentzAnglePerTesla_FPix * Bfield.x() - alpha2_FPix * Bfield.z() * Bfield.y());
2320  dir_z = -(1 + alpha2_FPix * Bfield.z() * Bfield.z());
2321  scale = -dir_z;
2322  } else {
2323  throw cms::Exception("NotAPixelGeomDetUnit") << "Not a pixel geomdet unit" << detID;
2324  }
2325  } // end: Read LA from cfg file.
2326 
2327  //Read Lorentz angle from DB:********************************************************************
2328  if (use_LorentzAngle_DB_) {
2329  float lorentzAngle = SiPixelLorentzAngle_->getLorentzAngle(detId);
2330  alpha2 = lorentzAngle * lorentzAngle;
2331  dir_x = -(lorentzAngle * Bfield.y() + alpha2 * Bfield.z() * Bfield.x());
2332  dir_y = +(lorentzAngle * Bfield.x() - alpha2 * Bfield.z() * Bfield.y());
2333  dir_z = -(1 + alpha2 * Bfield.z() * Bfield.z());
2334  scale = -dir_z;
2335  } // end: Read LA from DataBase.
2336 
2337  LocalVector theDriftDirection = LocalVector(dir_x / scale, dir_y / scale, dir_z / scale);
2338 
2339 #ifdef TP_DEBUG
2340  LogDebug("Pixel Digitizer") << " The drift direction in local coordinate is " << theDriftDirection;
2341 #endif
2342 
2343  return theDriftDirection;
2344 }
Local3DVector LocalVector
Definition: LocalVector.h:12
const GeomDetType & type() const override
bool isTrackerPixel() const
Definition: GeomDetType.cc:15
constexpr float Bfield
Definition: Config.h:96
const SiPixelLorentzAngle * SiPixelLorentzAngle_
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
const Plane & surface() const
The nominal surface of the GeomDet.
Definition: GeomDet.h:37
bool isBarrel() const
Definition: GeomDetType.cc:9
const PositionType & position() const
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
GloballyPositioned< double > Frame
const RotationType & rotation() const
float getLorentzAngle(const uint32_t &) const
#define LogDebug(id)

◆ fillSimHitMaps()

void SiPixelDigitizerAlgorithm::fillSimHitMaps ( std::vector< PSimHit simHits,
const unsigned int  tofBin 
)

Definition at line 1646 of file SiPixelDigitizerAlgorithm.cc.

References SimHitCollMap, SimHitMap, FastTrackerRecHitCombiner_cfi::simHits, ecaldqm::subdetID(), and DetId::subdetId().

1646  {
1647  // store here the SimHit map for later
1648  int printnum = 0;
1649  for (std::vector<PSimHit>::const_iterator it = simHits.begin(), itEnd = simHits.end(); it != itEnd;
1650  ++it, ++printnum) {
1651  unsigned int detID = (*it).detUnitId();
1652  unsigned int subdetID = DetId(detID).subdetId();
1653  subDetTofBin theSubDetTofBin = std::make_pair(subdetID, tofBin);
1654  SimHitMap[SimHitCollMap[theSubDetTofBin]].push_back(*it);
1655  }
1656 }
std::pair< unsigned int, unsigned int > subDetTofBin
constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:48
Definition: DetId.h:17
EcalLogicID subdetID(EcalSubdetector)

◆ fluctuateEloss()

void SiPixelDigitizerAlgorithm::fluctuateEloss ( int  particleId,
float  momentum,
float  eloss,
float  length,
int  NumberOfSegments,
float  elossVector[],
CLHEP::HepRandomEngine *  engine 
) const
private

Definition at line 1194 of file SiPixelDigitizerAlgorithm.cc.

References funct::abs(), fluctuate, mps_fire::i, cuy::ii, particleFlowDisplacedVertex_cfi::ratio, and tMax.

Referenced by primary_ionization().

1200  {
1201  // Get dedx for this track
1202  //float dedx;
1203  //if( length > 0.) dedx = eloss/length;
1204  //else dedx = eloss;
1205 
1206  double particleMass = 139.6; // Mass in MeV, Assume pion
1207  pid = std::abs(pid);
1208  if (pid != 211) { // Mass in MeV
1209  if (pid == 11)
1210  particleMass = 0.511;
1211  else if (pid == 13)
1212  particleMass = 105.7;
1213  else if (pid == 321)
1214  particleMass = 493.7;
1215  else if (pid == 2212)
1216  particleMass = 938.3;
1217  }
1218  // What is the track segment length.
1219  float segmentLength = length / NumberOfSegs;
1220 
1221  // Generate charge fluctuations.
1222  float de = 0.;
1223  float sum = 0.;
1224  double segmentEloss = (1000. * eloss) / NumberOfSegs; //eloss in MeV
1225  for (int i = 0; i < NumberOfSegs; i++) {
1226  // material,*, momentum,energy,*, *, mass
1227  //myglandz_(14.,segmentLength,2.,2.,dedx,de,0.14);
1228  // The G4 routine needs momentum in MeV, mass in Mev, delta-cut in MeV,
1229  // track segment length in mm, segment eloss in MeV
1230  // Returns fluctuated eloss in MeV
1231  double deltaCutoff = tMax; // the cutoff is sometimes redefined inside, so fix it.
1232  de = fluctuate->SampleFluctuations(double(particleMomentum * 1000.),
1233  particleMass,
1234  deltaCutoff,
1235  double(segmentLength * 10.),
1236  segmentEloss,
1237  engine) /
1238  1000.; //convert to GeV
1239  elossVector[i] = de;
1240  sum += de;
1241  }
1242 
1243  if (sum > 0.) { // If fluctuations give eloss>0.
1244  // Rescale to the same total eloss
1245  float ratio = eloss / sum;
1246 
1247  for (int ii = 0; ii < NumberOfSegs; ii++)
1248  elossVector[ii] = ratio * elossVector[ii];
1249  } else { // If fluctuations gives 0 eloss
1250  float averageEloss = eloss / NumberOfSegs;
1251  for (int ii = 0; ii < NumberOfSegs; ii++)
1252  elossVector[ii] = averageEloss;
1253  }
1254  return;
1255 }
const std::unique_ptr< SiG4UniversalFluctuation > fluctuate
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
ii
Definition: cuy.py:589

◆ induce_signal()

void SiPixelDigitizerAlgorithm::induce_signal ( std::vector< PSimHit >::const_iterator  inputBegin,
std::vector< PSimHit >::const_iterator  inputEnd,
const PSimHit hit,
const size_t  hitIndex,
const size_t  FirstHitIndex,
const unsigned int  tofBin,
const PixelGeomDetUnit pixdet,
const std::vector< SignalPoint > &  collection_points 
)
private

Definition at line 1376 of file SiPixelDigitizerAlgorithm.cc.

References _signal, LaserClient_cfi::Amplitude, calcQ(), officialStyle::chan, Topology::channel(), PixelDigi::channelToPixel(), PixelTestBeamValidation_cfi::Charge, ClusterWidth, GeomDet::geographicalId(), mps_fire::i, createfilelist::int, Topology::localPosition(), LogDebug, makeDigiSimLinks_, Topology::measurementPosition(), PixelTopology::ncolumns(), PixelTopology::nrows(), PixelTopology::pitch(), PixelDigi::pixelToChannel(), DetId::rawId(), VtxSmearedHGCALCloseBy_cfi::SigmaX, VtxSmearedHGCALCloseBy_cfi::SigmaY, PixelGeomDetUnit::specificTopology(), store_SimHitEntryExitPoints_, TheNewSiPixelChargeReweightingAlgorithmClass, UseReweighting, x, PV2DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::x(), y, PV2DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::y().

Referenced by accumulateSimHits().

1383  {
1384  // X - Rows, Left-Right, 160, (1.6cm) for barrel
1385  // Y - Columns, Down-Up, 416, (6.4cm)
1386 
1387  const PixelTopology* topol = &pixdet->specificTopology();
1388  uint32_t detID = pixdet->geographicalId().rawId();
1389  signal_map_type& theSignal = _signal[detID];
1390 
1391 #ifdef TP_DEBUG
1392  LogDebug("Pixel Digitizer") << " enter induce_signal, " << topol->pitch().first << " " << topol->pitch().second; //OK
1393 #endif
1394 
1395  // local map to store pixels hit by 1 Hit.
1396  typedef std::map<int, float, std::less<int> > hit_map_type;
1397  hit_map_type hit_signal;
1398 
1399  // map to store pixel integrals in the x and in the y directions
1400  std::map<int, float, std::less<int> > x, y;
1401 
1402  // Assign signals to readout channels and store sorted by channel number
1403 
1404  // Iterate over collection points on the collection plane
1405  for (std::vector<SignalPoint>::const_iterator i = collection_points.begin(); i != collection_points.end(); ++i) {
1406  float CloudCenterX = i->position().x(); // Charge position in x
1407  float CloudCenterY = i->position().y(); // in y
1408  float SigmaX = i->sigma_x(); // Charge spread in x
1409  float SigmaY = i->sigma_y(); // in y
1410  float Charge = i->amplitude(); // Charge amplitude
1411 
1412  if (SigmaX == 0 || SigmaY == 0) {
1413  LogDebug("Pixel Digitizer") << SigmaX << " " << SigmaY << " cloud " << i->position().x() << " "
1414  << i->position().y() << " " << i->sigma_x() << " " << i->sigma_y() << " "
1415  << i->amplitude() << "\n";
1416  }
1417 
1418 #ifdef TP_DEBUG
1419  LogDebug("Pixel Digitizer") << " cloud " << i->position().x() << " " << i->position().y() << " " << i->sigma_x()
1420  << " " << i->sigma_y() << " " << i->amplitude();
1421 #endif
1422 
1423  // Find the maximum cloud spread in 2D plane , assume 3*sigma
1424  float CloudRight = CloudCenterX + ClusterWidth * SigmaX;
1425  float CloudLeft = CloudCenterX - ClusterWidth * SigmaX;
1426  float CloudUp = CloudCenterY + ClusterWidth * SigmaY;
1427  float CloudDown = CloudCenterY - ClusterWidth * SigmaY;
1428 
1429  // Define 2D cloud limit points
1430  LocalPoint PointRightUp = LocalPoint(CloudRight, CloudUp);
1431  LocalPoint PointLeftDown = LocalPoint(CloudLeft, CloudDown);
1432 
1433  // This points can be located outside the sensor area.
1434  // The conversion to measurement point does not check for that
1435  // so the returned pixel index might be wrong (outside range).
1436  // We rely on the limits check below to fix this.
1437  // But remember whatever we do here THE CHARGE OUTSIDE THE ACTIVE
1438  // PIXEL AREA IS LOST, it should not be collected.
1439 
1440  // Convert the 2D points to pixel indices
1441  MeasurementPoint mp = topol->measurementPosition(PointRightUp); //OK
1442 
1443  int IPixRightUpX = int(floor(mp.x()));
1444  int IPixRightUpY = int(floor(mp.y()));
1445 
1446 #ifdef TP_DEBUG
1447  LogDebug("Pixel Digitizer") << " right-up " << PointRightUp << " " << mp.x() << " " << mp.y() << " " << IPixRightUpX
1448  << " " << IPixRightUpY;
1449 #endif
1450 
1451  mp = topol->measurementPosition(PointLeftDown); //OK
1452 
1453  int IPixLeftDownX = int(floor(mp.x()));
1454  int IPixLeftDownY = int(floor(mp.y()));
1455 
1456 #ifdef TP_DEBUG
1457  LogDebug("Pixel Digitizer") << " left-down " << PointLeftDown << " " << mp.x() << " " << mp.y() << " "
1458  << IPixLeftDownX << " " << IPixLeftDownY;
1459 #endif
1460 
1461  // Check detector limits to correct for pixels outside range.
1462  int numColumns = topol->ncolumns(); // det module number of cols&rows
1463  int numRows = topol->nrows();
1464 
1465  IPixRightUpX = numRows > IPixRightUpX ? IPixRightUpX : numRows - 1;
1466  IPixRightUpY = numColumns > IPixRightUpY ? IPixRightUpY : numColumns - 1;
1467  IPixLeftDownX = 0 < IPixLeftDownX ? IPixLeftDownX : 0;
1468  IPixLeftDownY = 0 < IPixLeftDownY ? IPixLeftDownY : 0;
1469 
1470  x.clear(); // clear temporary integration array
1471  y.clear();
1472 
1473  // First integrate charge strips in x
1474  int ix; // TT for compatibility
1475  for (ix = IPixLeftDownX; ix <= IPixRightUpX; ix++) { // loop over x index
1476  float xUB, xLB, UpperBound, LowerBound;
1477 
1478  // Why is set to 0 if ix=0, does it meen that we accept charge
1479  // outside the sensor? CHeck How it was done in ORCA?
1480  //if(ix == 0) LowerBound = 0.;
1481  if (ix == 0 || SigmaX == 0.) // skip for surface segemnts
1482  LowerBound = 0.;
1483  else {
1484  mp = MeasurementPoint(float(ix), 0.0);
1485  xLB = topol->localPosition(mp).x();
1486  LowerBound = 1 - calcQ((xLB - CloudCenterX) / SigmaX);
1487  }
1488 
1489  if (ix == numRows - 1 || SigmaX == 0.)
1490  UpperBound = 1.;
1491  else {
1492  mp = MeasurementPoint(float(ix + 1), 0.0);
1493  xUB = topol->localPosition(mp).x();
1494  UpperBound = 1. - calcQ((xUB - CloudCenterX) / SigmaX);
1495  }
1496 
1497  float TotalIntegrationRange = UpperBound - LowerBound; // get strip
1498  x[ix] = TotalIntegrationRange; // save strip integral
1499  if (SigmaX == 0 || SigmaY == 0)
1500  LogDebug("Pixel Digitizer") << TotalIntegrationRange << " " << ix << "\n";
1501  }
1502 
1503  // Now integrate strips in y
1504  int iy; // TT for compatibility
1505  for (iy = IPixLeftDownY; iy <= IPixRightUpY; iy++) { //loope over y ind
1506  float yUB, yLB, UpperBound, LowerBound;
1507 
1508  if (iy == 0 || SigmaY == 0.)
1509  LowerBound = 0.;
1510  else {
1511  mp = MeasurementPoint(0.0, float(iy));
1512  yLB = topol->localPosition(mp).y();
1513  LowerBound = 1. - calcQ((yLB - CloudCenterY) / SigmaY);
1514  }
1515 
1516  if (iy == numColumns - 1 || SigmaY == 0.)
1517  UpperBound = 1.;
1518  else {
1519  mp = MeasurementPoint(0.0, float(iy + 1));
1520  yUB = topol->localPosition(mp).y();
1521  UpperBound = 1. - calcQ((yUB - CloudCenterY) / SigmaY);
1522  }
1523 
1524  float TotalIntegrationRange = UpperBound - LowerBound;
1525  y[iy] = TotalIntegrationRange; // save strip integral
1526  if (SigmaX == 0 || SigmaY == 0)
1527  LogDebug("Pixel Digitizer") << TotalIntegrationRange << " " << iy << "\n";
1528  }
1529 
1530  // Get the 2D charge integrals by folding x and y strips
1531  int chan;
1532  for (ix = IPixLeftDownX; ix <= IPixRightUpX; ix++) { // loop over x index
1533  for (iy = IPixLeftDownY; iy <= IPixRightUpY; iy++) { //loope over y ind
1534 
1535  float ChargeFraction = Charge * x[ix] * y[iy];
1536 
1537  if (ChargeFraction > 0.) {
1538  chan = PixelDigi::pixelToChannel(ix, iy); // Get index
1539  // Load the amplitude
1540  hit_signal[chan] += ChargeFraction;
1541  } // endif
1542 
1543 #ifdef TP_DEBUG
1544  mp = MeasurementPoint(float(ix), float(iy));
1545  LocalPoint lp = topol->localPosition(mp);
1546  chan = topol->channel(lp);
1547  LogDebug("Pixel Digitizer") << " pixel " << ix << " " << iy << " - "
1548  << " " << chan << " " << ChargeFraction << " " << mp.x() << " " << mp.y() << " "
1549  << lp.x() << " " << lp.y() << " " // givex edge position
1550  << chan; // edge belongs to previous ?
1551 #endif
1552 
1553  } // endfor iy
1554  } //endfor ix
1555 
1556  } // loop over charge distributions
1557 
1558  // Fill the global map with all hit pixels from this event
1559 
1560  bool reweighted = false;
1561  bool makeDSLinks = store_SimHitEntryExitPoints_ || makeDigiSimLinks_;
1562 
1563  size_t ReferenceIndex4CR = 0;
1564  if (UseReweighting) {
1565  if (hit.processType() == 0) {
1566  ReferenceIndex4CR = hitIndex;
1568  hit, hit_signal, hitIndex, ReferenceIndex4CR, tofBin, topol, detID, theSignal, hit.processType(), makeDSLinks);
1569  } else {
1570  std::vector<PSimHit>::const_iterator crSimHit = inputBegin;
1571  ReferenceIndex4CR = FirstHitIndex;
1572  // if the first hit in the same detId is not associated to the same trackId, try to find a better match
1573  if ((*inputBegin).trackId() != hit.trackId()) {
1574  // loop over all the hit from the 1st in the same detId to the hit itself to find the primary particle of the same trackId
1575  uint32_t detId = pixdet->geographicalId().rawId();
1576  size_t localIndex = FirstHitIndex;
1577  for (std::vector<PSimHit>::const_iterator ssbegin = inputBegin; localIndex < hitIndex;
1578  ++ssbegin, ++localIndex) {
1579  if ((*ssbegin).detUnitId() != detId) {
1580  continue;
1581  }
1582  if ((*ssbegin).trackId() == hit.trackId() && (*ssbegin).processType() == 0) {
1583  crSimHit = ssbegin;
1584  ReferenceIndex4CR = localIndex;
1585  break;
1586  }
1587  }
1588  }
1589 
1591  (*crSimHit),
1592  hit_signal,
1593  hitIndex,
1594  ReferenceIndex4CR,
1595  tofBin,
1596  topol,
1597  detID,
1598  theSignal,
1599  hit.processType(),
1600  makeDSLinks);
1601  }
1602  }
1603  if (!reweighted) {
1604  for (hit_map_type::const_iterator im = hit_signal.begin(); im != hit_signal.end(); ++im) {
1605  int chan = (*im).first;
1606  if (ReferenceIndex4CR == 0) {
1607  // no determination has been done previously because !UseReweighting
1608  // we need to determine it now:
1609  if (hit.processType() == 0)
1610  ReferenceIndex4CR = hitIndex;
1611  else {
1612  ReferenceIndex4CR = FirstHitIndex;
1613  // if the first hit in the same detId is not associated to the same trackId, try to find a better match
1614  if ((*inputBegin).trackId() != hit.trackId()) {
1615  // loop on all the hit from the 1st of the collection to the hit itself to find the Primary particle of the same trackId
1616  uint32_t detId = pixdet->geographicalId().rawId();
1617  size_t localIndex = FirstHitIndex;
1618  for (std::vector<PSimHit>::const_iterator ssbegin = inputBegin; localIndex < hitIndex;
1619  ++ssbegin, ++localIndex) {
1620  if ((*ssbegin).detUnitId() != detId) {
1621  continue;
1622  }
1623  if ((*ssbegin).trackId() == hit.trackId() && (*ssbegin).processType() == 0) {
1624  ReferenceIndex4CR = localIndex;
1625  break;
1626  }
1627  }
1628  }
1629  }
1630  }
1631  theSignal[chan] += (makeDSLinks ? digitizerUtility::Amplitude(
1632  (*im).second, &hit, hitIndex, ReferenceIndex4CR, tofBin, (*im).second)
1633  : digitizerUtility::Amplitude((*im).second, (*im).second));
1634 
1635 #ifdef TP_DEBUG
1636  std::pair<int, int> ip = PixelDigi::channelToPixel(chan);
1637  LogDebug("Pixel Digitizer") << " pixel " << ip.first << " " << ip.second << " " << theSignal[chan];
1638 #endif
1639  }
1640  }
1641 
1642 } // end induce_signal
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
Point3DBase< Scalar, LocalTag > LocalPoint
Definition: Definitions.h:30
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
virtual LocalPoint localPosition(const MeasurementPoint &) const =0
virtual int ncolumns() const =0
virtual int nrows() const =0
T x() const
Definition: PV2DBase.h:43
std::unique_ptr< SiPixelChargeReweightingAlgorithm > TheNewSiPixelChargeReweightingAlgorithmClass
static int pixelToChannel(int row, int col)
Definition: PixelDigi.h:75
T y() const
Definition: PV2DBase.h:44
U second(std::pair< T, U > const &p)
T x() const
Definition: PV3DBase.h:59
T y() const
Definition: PV3DBase.h:60
Measurement2DPoint MeasurementPoint
Measurement points are two-dimensional by default.
virtual int channel(const LocalPoint &p) const =0
virtual MeasurementPoint measurementPosition(const LocalPoint &) const =0
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
virtual std::pair< float, float > pitch() const =0
#define LogDebug(id)

◆ init()

void SiPixelDigitizerAlgorithm::init ( const edm::EventSetup es)

Definition at line 93 of file SiPixelDigitizerAlgorithm.cc.

References mps_splice::entry, Exception, spr::find(), edm::EventSetup::getData(), PixelDigiSimLink::HighTof, testProducerWithPsetDescEmpty_cfi::i1, testProducerWithPsetDescEmpty_cfi::i2, SiPixelSimParameters_cfi::KillBadFEDChannels, PixelDigiSimLink::LowTof, notFound, AlCaHLTBitMon_QueryRunRegistry::string, HcalDetIdTransform::transform(), and pixelDigitizer_cfi::UseReweighting.

Referenced by PreMixingSiPixelWorker::initializeEvent().

93  {
94  if (use_ineff_from_db_) { // load gain calibration service fromdb...
95  theSiPixelGainCalibrationService_->setESObjects(es);
96  }
97  if (use_deadmodule_DB_) {
99  }
100  if (use_LorentzAngle_DB_) {
101  // Get Lorentz angle from DB record
103  }
104  //gets the map and geometry from the DB (to kill ROCs)
105  map_ = &es.getData(mapToken_);
106  geom_ = &es.getData(geomToken_);
107 
108  if (KillBadFEDChannels) {
111 
113  std::vector<std::string> allScenarios;
114 
115  std::transform(quality_map->begin(),
116  quality_map->end(),
117  std::back_inserter(allScenarios),
118  [](const PixelFEDChannelCollectionMap::value_type& pair) { return pair.first; });
119 
120  std::vector<std::string> allScenariosInProb;
121 
122  for (auto it = m_probabilities.begin(); it != m_probabilities.end(); ++it) {
123  //int PUbin = it->first;
124  for (const auto& entry : it->second) {
125  auto scenario = entry.first;
126  auto probability = entry.second;
127  if (probability != 0) {
128  if (std::find(allScenariosInProb.begin(), allScenariosInProb.end(), scenario) == allScenariosInProb.end()) {
129  allScenariosInProb.push_back(scenario);
130  }
131  } // if prob!=0
132  } // loop on the scenarios for that PU bin
133  } // loop on PU bins
134 
135  std::vector<std::string> notFound;
136  std::copy_if(allScenariosInProb.begin(),
137  allScenariosInProb.end(),
138  std::back_inserter(notFound),
139  [&allScenarios](const std::string& arg) {
140  return (std::find(allScenarios.begin(), allScenarios.end(), arg) == allScenarios.end());
141  });
142 
143  if (!notFound.empty()) {
144  for (const auto& entry : notFound) {
145  LogError("SiPixelFEDChannelContainer")
146  << "The requested scenario: " << entry << " is not found in the map!! \n";
147  }
148  throw cms::Exception("SiPixelDigitizerAlgorithm") << "Found: " << notFound.size()
149  << " missing scenario(s) in SiPixelStatusScenariosRcd while "
150  "present in SiPixelStatusScenarioProbabilityRcd \n";
151  }
152  }
153  LogInfo("PixelDigitizer ") << " PixelDigitizerAlgorithm init \n";
154  LogInfo("PixelDigitizer ") << " PixelDigitizerAlgorithm --> UseReweighting " << UseReweighting << "\n";
155  LogInfo("PixelDigitizer ") << " PixelDigitizerAlgorithm --> store_SimHitEntryExitPoints_ "
156  << store_SimHitEntryExitPoints_ << "\n";
157  LogInfo("PixelDigitizer ") << " PixelDigitizerAlgorithm --> makeDigiSimLinks_ " << makeDigiSimLinks_ << "\n";
158 
160 
161  int collectionIndex = 0; // I don't find what are the different collections here
162  int tofBin = 0;
163  for (int i1 = 1; i1 < 3; i1++) {
164  for (int i2 = 0; i2 < 2; i2++) {
165  if (i2 == 0) {
166  tofBin = PixelDigiSimLink::LowTof;
167  } else {
168  tofBin = PixelDigiSimLink::HighTof;
169  }
170  subDetTofBin theSubDetTofBin = std::make_pair(i1, tofBin);
171  SimHitCollMap[theSubDetTofBin] = collectionIndex;
172  collectionIndex++;
173  }
174  }
175 }
std::map< unsigned int, probabilityVec > probabilityMap
const std::unique_ptr< SiPixelGainCalibrationOfflineSimService > theSiPixelGainCalibrationService_
T const & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119
edm::ESGetToken< SiPixelQualityProbabilities, SiPixelStatusScenarioProbabilityRcd > scenarioProbabilityToken_
Log< level::Error, false > LogError
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:19
A arg
Definition: Factorize.h:31
scenario
Definition: constants.h:173
std::unique_ptr< SiPixelChargeReweightingAlgorithm > TheNewSiPixelChargeReweightingAlgorithmClass
edm::ESGetToken< SiPixelQuality, SiPixelQualityRcd > SiPixelBadModuleToken_
const PixelFEDChannelCollectionMap * quality_map
std::pair< unsigned int, unsigned int > subDetTofBin
const SiPixelLorentzAngle * SiPixelLorentzAngle_
edm::ESGetToken< SiPixelLorentzAngle, SiPixelLorentzAngleSimRcd > SiPixelLorentzAngleToken_
edm::ESGetToken< PixelFEDChannelCollectionMap, SiPixelFEDChannelContainerESProducerRcd > PixelFEDChannelCollectionMapToken_
Log< level::Info, false > LogInfo
const SiPixelQuality * SiPixelBadModule_
const SiPixelFedCablingMap * map_
const probabilityMap & getProbability_Map() const
static const GlobalPoint notFound(0, 0, 0)
const SiPixelQualityProbabilities * scenarioProbability_
const edm::ESGetToken< SiPixelFedCablingMap, SiPixelFedCablingMapRcd > mapToken_
const edm::ESGetToken< TrackerGeometry, TrackerDigiGeometryRecord > geomToken_
unsigned transform(const HcalDetId &id, unsigned transformCode)

◆ init_DynIneffDB()

void SiPixelDigitizerAlgorithm::init_DynIneffDB ( const edm::EventSetup es)

Definition at line 611 of file SiPixelDigitizerAlgorithm.cc.

References AddPixelInefficiency, SiPixelDigitizerAlgorithm::PixelEfficiencies::FromConfig, geom_, edm::EventSetup::getData(), SiPixelDigitizerAlgorithm::PixelEfficiencies::init_from_db(), LogDebug, pixelEfficiencies_, SiPixelDynamicInefficiency_, and SiPixelDynamicInefficiencyToken_.

Referenced by PreMixingSiPixelWorker::put().

611  {
612  LogDebug("PixelDigitizer ") << " In SiPixelDigitizerAlgorithm::init_DynIneffDB " << AddPixelInefficiency << " "
613  << pixelEfficiencies_.FromConfig << "\n";
617  }
618 }
T const & getData(const ESGetToken< T, R > &iToken) const noexcept(false)
Definition: EventSetup.h:119
const SiPixelDynamicInefficiency * SiPixelDynamicInefficiency_
void init_from_db(const TrackerGeometry *, const SiPixelDynamicInefficiency *)
edm::ESGetToken< SiPixelDynamicInefficiency, SiPixelDynamicInefficiencyRcd > SiPixelDynamicInefficiencyToken_
#define LogDebug(id)

◆ initCal()

std::map< int, SiPixelDigitizerAlgorithm::CalParameters, std::less< int > > SiPixelDigitizerAlgorithm::initCal ( ) const
private

Definition at line 364 of file SiPixelDigitizerAlgorithm.cc.

References calmap, officialStyle::chan, PixelIndices::channelToPixelROC(), corrVsCorr::filename, mps_fire::i, recoMuon::in, runGCPTkAlMap::in_file, mps_splice::line, LogDebug, Skims_PA_cff::name, AlCaHLTBitMon_ParallelJobs::p, SiPixelDigitizerAlgorithm::CalParameters::p0, SiPixelDigitizerAlgorithm::CalParameters::p1, SiPixelDigitizerAlgorithm::CalParameters::p2, SiPixelDigitizerAlgorithm::CalParameters::p3, pfMETCorrectionType0_cfi::par0, pfMETCorrectionType0_cfi::par1, pfMETCorrectionType0_cfi::par2, pfMETCorrectionType0_cfi::par3, PixelIndices::pixelToChannelROC(), and AlCaHLTBitMon_QueryRunRegistry::string.

364  {
365  std::map<int, SiPixelDigitizerAlgorithm::CalParameters, std::less<int> > calmap;
366  // Prepare for the analog amplitude miss-calibration
367  LogDebug("PixelDigitizer ") << " miss-calibrate the pixel amplitude \n";
368 
369  const bool ReadCalParameters = false;
370  if (ReadCalParameters) { // Read the calibration files from file
371  // read the calibration constants from a file (testing only)
372  std::ifstream in_file; // data file pointer
373  char filename[80] = "phCalibrationFit_C0.dat";
374 
375  in_file.open(filename, std::ios::in); // in C++
376  if (in_file.bad()) {
377  LogInfo("PixelDigitizer ") << " File not found \n ";
378  return calmap; // signal error
379  }
380  LogInfo("PixelDigitizer ") << " file opened : " << filename << "\n";
381 
382  char line[500];
383  for (int i = 0; i < 3; i++) {
384  in_file.getline(line, 500, '\n');
385  LogInfo("PixelDigitizer ") << line << "\n";
386  }
387 
388  LogInfo("PixelDigitizer ") << " test map"
389  << "\n";
390 
391  float par0, par1, par2, par3;
392  int colid, rowid;
394  // Read MC tracks
395  for (int i = 0; i < (52 * 80); i++) { // loop over tracks
396  in_file >> par0 >> par1 >> par2 >> par3 >> name >> colid >> rowid;
397  if (in_file.bad()) { // check for errors
398  LogError("PixelDigitizer") << "Cannot read data file for calmap"
399  << "\n";
400  return calmap;
401  }
402  if (in_file.eof() != 0) {
403  LogError("PixelDigitizer") << "calmap " << in_file.eof() << " " << in_file.gcount() << " " << in_file.fail()
404  << " " << in_file.good() << " end of file "
405  << "\n";
406  return calmap;
407  }
408 
409  LogDebug("PixelDigitizer ") << " line " << i << " " << par0 << " " << par1 << " " << par2 << " " << par3 << " "
410  << colid << " " << rowid << "\n";
411 
412  CalParameters onePix;
413  onePix.p0 = par0;
414  onePix.p1 = par1;
415  onePix.p2 = par2;
416  onePix.p3 = par3;
417 
418  // Convert ROC pixel index to channel
419  int chan = PixelIndices::pixelToChannelROC(rowid, colid);
420  calmap.insert(std::pair<int, CalParameters>(chan, onePix));
421 
422  // Testing the index conversion, can be skipped
423  std::pair<int, int> p = PixelIndices::channelToPixelROC(chan);
424  if (rowid != p.first)
425  LogInfo("PixelDigitizer ") << " wrong channel row " << rowid << " " << p.first << "\n";
426  if (colid != p.second)
427  LogInfo("PixelDigitizer ") << " wrong channel col " << colid << " " << p.second << "\n";
428 
429  } // pixel loop in a ROC
430 
431  LogInfo("PixelDigitizer ") << " map size " << calmap.size() << " max " << calmap.max_size() << " "
432  << calmap.empty() << "\n";
433 
434  // LogInfo("PixelDigitizer ") << " map size " << calmap.size() << "\n";
435  // map<int,CalParameters,std::less<int> >::iterator ix,it;
436  // map<int,CalParameters,std::less<int> >::const_iterator ip;
437  // for (ix = calmap.begin(); ix != calmap.end(); ++ix) {
438  // int i = (*ix).first;
439  // std::pair<int,int> p = channelToPixelROC(i);
440  // it = calmap.find(i);
441  // CalParameters y = (*it).second;
442  // CalParameters z = (*ix).second;
443  // LogInfo("PixelDigitizer ") << i <<" "<<p.first<<" "<<p.second<<" "<<y.p0<<" "<<z.p0<<" "<<calmap[i].p0<<"\n";
444 
445  // //int dummy=0;
446  // //cin>>dummy;
447  // }
448 
449  } // end if readparameters
450  return calmap;
451 } // end initCal()
static std::pair< int, int > channelToPixelROC(const int chan)
Definition: PixelIndices.h:236
Log< level::Error, false > LogError
static int pixelToChannelROC(const int rowROC, const int colROC)
Definition: PixelIndices.h:233
const std::map< int, CalParameters, std::less< int > > calmap
Log< level::Info, false > LogInfo
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
#define LogDebug(id)

◆ initializeEvent()

void SiPixelDigitizerAlgorithm::initializeEvent ( )
inline

Definition at line 66 of file SiPixelDigitizerAlgorithm.h.

References _signal.

Referenced by PreMixingSiPixelWorker::initializeEvent().

66 { _signal.clear(); }

◆ killBadFEDChannels()

bool SiPixelDigitizerAlgorithm::killBadFEDChannels ( ) const

Definition at line 924 of file SiPixelDigitizerAlgorithm.cc.

References KillBadFEDChannels.

Referenced by PreMixingSiPixelWorker::put().

◆ lateSignalReweight()

void SiPixelDigitizerAlgorithm::lateSignalReweight ( const PixelGeomDetUnit pixdet,
std::vector< PixelDigi > &  digis,
std::vector< PixelSimHitExtraInfo > &  newClass_Sim_extra,
const TrackerTopology tTopo,
CLHEP::HepRandomEngine *  engine 
)

Definition at line 2486 of file SiPixelDigitizerAlgorithm.cc.

References gpuClustering::adc, addThresholdSmearing, LaserClient_cfi::Amplitude, officialStyle::chan, PixelDigi::channelToPixel(), cuy::col, doMissCalInLateCR, Exception, GeomDet::geographicalId(), mps_fire::i, createfilelist::int, GeomDetType::isBarrel(), GeomDetType::isTrackerPixel(), TrackerTopology::layer(), LogDebug, missCalibrate(), GeomDetEnumerators::P1PXB, GeomDetEnumerators::PixelBarrel, DetId::rawId(), GeomDet::subDetector(), theAdcFullScLateCR, theElectronPerADC, TheNewSiPixelChargeReweightingAlgorithmClass, theNoiseInElectrons, theThresholdInE_BPix, theThresholdInE_BPix_L1, theThresholdInE_BPix_L2, theThresholdInE_FPix, theThresholdSmearing_BPix, theThresholdSmearing_BPix_L1, theThresholdSmearing_BPix_L2, theThresholdSmearing_FPix, PixelGeomDetUnit::type(), and UseReweighting.

Referenced by PreMixingSiPixelWorker::addPileups().

2490  {
2491  // Function to apply the Charge Reweighting on top of digi in case of PU from mixing library
2492  // for time dependent MC
2493  std::vector<PixelDigi> New_digis;
2494  uint32_t detID = pixdet->geographicalId().rawId();
2495 
2496  if (UseReweighting) {
2497  LogError("PixelDigitizer ") << " ******************************** \n";
2498  LogError("PixelDigitizer ") << " ******************************** \n";
2499  LogError("PixelDigitizer ") << " ***** INCONSISTENCY !!! ***** \n";
2500  LogError("PixelDigitizer ")
2501  << " applyLateReweighting_ and UseReweighting can not be true at the same time for PU ! \n";
2502  LogError("PixelDigitizer ") << " ---> DO NOT APPLY CHARGE REWEIGHTING TWICE !!! \n";
2503  LogError("PixelDigitizer ") << " ******************************** \n";
2504  LogError("PixelDigitizer ") << " ******************************** \n";
2505  return;
2506  }
2507 
2508  float thePixelThresholdInE = 0.;
2509  if (theNoiseInElectrons > 0.) {
2510  if (pixdet->type().isTrackerPixel() && pixdet->type().isBarrel()) { // Barrel modules
2511  int lay = tTopo->layer(detID);
2512  if (addThresholdSmearing) {
2515  if (lay == 1) {
2516  thePixelThresholdInE = CLHEP::RandGaussQ::shoot(
2517  engine, theThresholdInE_BPix_L1, theThresholdSmearing_BPix_L1); // gaussian smearing
2518  } else if (lay == 2) {
2519  thePixelThresholdInE = CLHEP::RandGaussQ::shoot(
2520  engine, theThresholdInE_BPix_L2, theThresholdSmearing_BPix_L2); // gaussian smearing
2521  } else {
2522  thePixelThresholdInE =
2523  CLHEP::RandGaussQ::shoot(engine, theThresholdInE_BPix, theThresholdSmearing_BPix); // gaussian smearing
2524  }
2525  }
2526  } else {
2529  if (lay == 1) {
2530  thePixelThresholdInE = theThresholdInE_BPix_L1;
2531  } else if (lay == 2) {
2532  thePixelThresholdInE = theThresholdInE_BPix_L2;
2533  } else {
2534  thePixelThresholdInE = theThresholdInE_BPix; // no smearing
2535  }
2536  }
2537  }
2538 
2539  } else if (pixdet->type().isTrackerPixel()) { // Forward disks modules
2540 
2541  if (addThresholdSmearing) {
2542  thePixelThresholdInE =
2543  CLHEP::RandGaussQ::shoot(engine, theThresholdInE_FPix, theThresholdSmearing_FPix); // gaussian smearing
2544  } else {
2545  thePixelThresholdInE = theThresholdInE_FPix; // no smearing
2546  }
2547 
2548  } else {
2549  throw cms::Exception("NotAPixelGeomDetUnit") << "Not a pixel geomdet unit" << detID;
2550  }
2551  }
2552 
2553  // loop on the SimHit extra info class
2554  // apply the reweighting for that SimHit on a cluster way
2555  bool reweighted = false;
2556  std::vector<PixelSimHitExtraInfo>::iterator loopTempSH;
2557  for (loopTempSH = newClass_Sim_extra.begin(); loopTempSH != newClass_Sim_extra.end(); ++loopTempSH) {
2558  signal_map_type theDigiSignal;
2559  PixelSimHitExtraInfo TheNewInfo = *loopTempSH;
2561  pixdet, digis, TheNewInfo, theDigiSignal, tTopo, engine);
2562  if (!reweighted) {
2563  // loop on the non-reweighthed digis associated to the considered SimHit
2564  std::vector<PixelDigi>::const_iterator loopDigi;
2565  for (loopDigi = digis.begin(); loopDigi != digis.end(); ++loopDigi) {
2566  unsigned int chan = loopDigi->channel();
2567  // check if that digi is related to the SimHit
2568  if (loopTempSH->isInTheList(chan)) {
2569  float corresponding_charge = loopDigi->adc();
2570  theDigiSignal[chan] += digitizerUtility::Amplitude(corresponding_charge, corresponding_charge);
2571  }
2572  }
2573  }
2574 
2575  // transform theDigiSignal into digis
2576  int Thresh_inADC = int(thePixelThresholdInE / theElectronPerADC);
2577  for (signal_map_const_iterator i = theDigiSignal.begin(); i != theDigiSignal.end(); ++i) {
2578  float signalInADC = (*i).second; // signal in ADC
2579  if (signalInADC > 0.) {
2580  if (signalInADC >= Thresh_inADC) {
2581  int chan = (*i).first; // channel number
2582  std::pair<int, int> ip = PixelDigi::channelToPixel(chan);
2583  int adc = int(signalInADC);
2584  // add MissCalibration
2585  if (doMissCalInLateCR) {
2586  int row = ip.first;
2587  int col = ip.second;
2588  adc =
2589  int(missCalibrate(detID, tTopo, pixdet, col, row, signalInADC * theElectronPerADC)); //full misscalib.
2590  }
2591 
2592  if (adc > theAdcFullScLateCR)
2593  adc = theAdcFullScLateCR; // Check maximum value
2594 
2595 #ifdef TP_DEBUG
2596  LogDebug("Pixel Digitizer") << (*i).first << " " << (*i).second << " " << signalInADC << " " << adc
2597  << ip.first << " " << ip.second;
2598 #endif
2599 
2600  // Load digis
2601  New_digis.emplace_back(ip.first, ip.second, adc);
2602  }
2603  }
2604  } // end loop on theDigiSignal
2605  theDigiSignal.clear();
2606  }
2607  digis.clear();
2608  digis = New_digis;
2609 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
signal_map_type::const_iterator signal_map_const_iterator
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
const GeomDetType & type() const override
Log< level::Error, false > LogError
unsigned int layer(const DetId &id) const
std::unique_ptr< SiPixelChargeReweightingAlgorithm > TheNewSiPixelChargeReweightingAlgorithmClass
bool isTrackerPixel() const
Definition: GeomDetType.cc:15
float missCalibrate(uint32_t detID, const TrackerTopology *tTopo, const PixelGeomDetUnit *pixdet, int col, int row, float amp) const
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
bool isBarrel() const
Definition: GeomDetType.cc:9
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
virtual SubDetector subDetector() const
Which subdetector.
Definition: GeomDet.cc:38
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
col
Definition: cuy.py:1009
uint16_t *__restrict__ uint16_t const *__restrict__ adc
#define LogDebug(id)

◆ make_digis()

void SiPixelDigitizerAlgorithm::make_digis ( float  thePixelThresholdInE,
uint32_t  detID,
const PixelGeomDetUnit pixdet,
std::vector< PixelDigi > &  digis,
std::vector< PixelDigiSimLink > &  simlinks,
std::vector< PixelDigiAddTempInfo > &  newClass_Digi_extra,
const TrackerTopology tTopo 
) const
private

Definition at line 1663 of file SiPixelDigitizerAlgorithm.cc.

References _signal, gpuClustering::adc, officialStyle::chan, PixelDigi::channelToPixel(), cuy::col, doMissCalibrate, PSimHit::entryPoint(), PSimHit::exitPoint(), f, newFWLiteAna::found, HLT_2022v15_cff::fraction, mps_fire::i, info(), createfilelist::int, LogDebug, makeDigiSimLinks_, SiStripPI::min, missCalibrate(), PSimHit::processType(), SimHitCollMap, SimHitMap, mcMuonSeeds_cfi::SimTrack, store_SimHitEntryExitPoints_, theAdcFullScale, theElectronPerADC, theThresholdInE_BPix, theThresholdInE_BPix_L1, theThresholdInE_BPix_L2, theThresholdInE_FPix, and PSimHit::trackId().

Referenced by digitize().

1669  {
1670 #ifdef TP_DEBUG
1671  LogDebug("Pixel Digitizer") << " make digis "
1672  << " "
1673  << " pixel threshold FPix" << theThresholdInE_FPix << " "
1674  << " pixel threshold BPix" << theThresholdInE_BPix << " "
1675  << " pixel threshold BPix Layer1" << theThresholdInE_BPix_L1 << " "
1676  << " pixel threshold BPix Layer2" << theThresholdInE_BPix_L2 << " "
1677  << " List pixels passing threshold ";
1678 #endif
1679 
1680  // Loop over hit pixels
1681 
1682  signalMaps::const_iterator it = _signal.find(detID);
1683  if (it == _signal.end()) {
1684  return;
1685  }
1686 
1687  const signal_map_type& theSignal = (*it).second;
1688 
1689  // unsigned long is enough to store SimTrack id and EncodedEventId
1690  using TrackEventId = std::pair<decltype(SimTrack().trackId()), decltype(EncodedEventId().rawId())>;
1691  std::map<TrackEventId, float> simi; // re-used
1692 
1693  for (signal_map_const_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
1694  float signalInElectrons = (*i).second; // signal in electrons
1695 
1696  // Do the miss calibration for calibration studies only.
1697  //if(doMissCalibrate) signalInElectrons = missCalibrate(signalInElectrons)
1698 
1699  // Do only for pixels above threshold
1700 
1701  if (signalInElectrons >= thePixelThresholdInE &&
1702  signalInElectrons > 0.) { // check threshold, always reject killed (0-charge) digis
1703 
1704  int chan = (*i).first; // channel number
1705  std::pair<int, int> ip = PixelDigi::channelToPixel(chan);
1706  int adc = 0; // ADC count as integer
1707 
1708  // Do the miss calibration for calibration studies only.
1709  if (doMissCalibrate) {
1710  int row = ip.first; // X in row
1711  int col = ip.second; // Y is in col
1712  adc = int(missCalibrate(detID, tTopo, pixdet, col, row, signalInElectrons)); //full misscalib.
1713  } else { // Just do a simple electron->adc conversion
1714  adc = int(signalInElectrons / theElectronPerADC); // calibrate gain
1715  }
1716  adc = std::min(adc, theAdcFullScale); // Check maximum value
1717 #ifdef TP_DEBUG
1718  LogDebug("Pixel Digitizer") << (*i).first << " " << (*i).second << " " << signalInElectrons << " " << adc
1719  << ip.first << " " << ip.second;
1720 #endif
1721 
1722  // Load digis
1723  digis.emplace_back(ip.first, ip.second, adc);
1724 
1725  if (makeDigiSimLinks_ && !(*i).second.hitInfos().empty()) {
1726  //digilink
1727  unsigned int il = 0;
1728  for (const auto& info : (*i).second.hitInfos()) {
1729  // note: according to C++ standard operator[] does
1730  // value-initializiation, which for float means initial value of 0
1731  simi[std::make_pair(info.trackId(), info.eventId().rawId())] += (*i).second.individualampl()[il];
1732  il++;
1733  }
1734 
1735  //sum the contribution of the same trackid
1736  for (const auto& info : (*i).second.hitInfos()) {
1737  // skip if track already processed
1738  auto found = simi.find(std::make_pair(info.trackId(), info.eventId().rawId()));
1739  if (found == simi.end())
1740  continue;
1741 
1742  float sum_samechannel = found->second;
1743  float fraction = sum_samechannel / (*i).second;
1744  if (fraction > 1.f)
1745  fraction = 1.f;
1746 
1747  // Approximation: pick hitIndex and tofBin only from the first SimHit
1748  simlinks.emplace_back((*i).first, info.trackId(), info.hitIndex(), info.tofBin(), info.eventId(), fraction);
1749  simi.erase(found);
1750  }
1751  simi.clear(); // although should be empty already
1752  }
1753 
1754  if (store_SimHitEntryExitPoints_ && !(*i).second.hitInfos().empty()) {
1755  // get info stored, like in simlinks...
1756  for (const auto& info : (*i).second.hitInfos()) {
1757  unsigned int CFPostoBeUsed = info.hitIndex4ChargeRew();
1758  // check if the association (chan, index) is already in the newClass_Digi_extra collection
1759  // if yes, don't push a duplicated entry ; if not, push a new entry
1760  std::vector<PixelDigiAddTempInfo>::iterator loopNewClass;
1761  bool already_present = false;
1762  for (loopNewClass = newClass_Digi_extra.begin(); loopNewClass != newClass_Digi_extra.end(); ++loopNewClass) {
1763  if (chan == (int)loopNewClass->channel() && CFPostoBeUsed == loopNewClass->hitIndex()) {
1764  already_present = true;
1765  loopNewClass->addCharge(info.getAmpl());
1766  }
1767  }
1768  if (!already_present) {
1769  unsigned int tofBin = info.tofBin();
1770  // then inspired by https://github.com/cms-sw/cmssw/blob/master/SimTracker/TrackerHitAssociation/src/TrackerHitAssociator.cc#L566 :
1771  subDetTofBin theSubDetTofBin = std::make_pair(DetId(detID).subdetId(), tofBin);
1772  auto it = SimHitCollMap.find(theSubDetTofBin);
1773  if (it != SimHitCollMap.end()) {
1774  auto it2 = SimHitMap.find((it->second));
1775 
1776  if (it2 != SimHitMap.end()) {
1777  const PSimHit& theSimHit = (it2->second)[CFPostoBeUsed];
1778  newClass_Digi_extra.emplace_back(chan,
1779  info.hitIndex4ChargeRew(),
1780  theSimHit.entryPoint(),
1781  theSimHit.exitPoint(),
1782  theSimHit.processType(),
1783  theSimHit.trackId(),
1784  detID,
1785  info.getAmpl());
1786  }
1787  }
1788  }
1789  } // end for
1790  } // end if store_SimHitEntryExitPoints_
1791  }
1792  }
1793 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
signal_map_type::const_iterator signal_map_const_iterator
static const TGPicture * info(bool iBackgroundIsBlack)
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
Local3DPoint exitPoint() const
Exit point in the local Det frame.
Definition: PSimHit.h:46
std::pair< unsigned int, unsigned int > subDetTofBin
unsigned short processType() const
Definition: PSimHit.h:120
Local3DPoint entryPoint() const
Entry point in the local Det frame.
Definition: PSimHit.h:43
double f[11][100]
float missCalibrate(uint32_t detID, const TrackerTopology *tTopo, const PixelGeomDetUnit *pixdet, int col, int row, float amp) const
unsigned int trackId() const
Definition: PSimHit.h:106
Definition: DetId.h:17
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
col
Definition: cuy.py:1009
uint16_t *__restrict__ uint16_t const *__restrict__ adc
#define LogDebug(id)

◆ missCalibrate()

float SiPixelDigitizerAlgorithm::missCalibrate ( uint32_t  detID,
const TrackerTopology tTopo,
const PixelGeomDetUnit pixdet,
int  col,
int  row,
float  amp 
) const
private

Definition at line 2186 of file SiPixelDigitizerAlgorithm.cc.

References BPix_p0, BPix_p1, BPix_p2, BPix_p3, cuy::col, electronsPerVCAL, electronsPerVCAL_L1, electronsPerVCAL_L1_Offset, electronsPerVCAL_Offset, Exception, FPix_p0, FPix_p1, FPix_p2, FPix_p3, GeomDetType::isBarrel(), GeomDetType::isTrackerPixel(), pixelTopology::layer, LogDebug, LaserDQM_cfg::p1, SiStripOfflineCRack_cfg::p2, chargedHadronTrackResolutionFilter_cfi::p3, TrackerTopology::pxbLayer(), DetId::subdetId(), nnet::tanh(), theElectronPerADC, and PixelGeomDetUnit::type().

Referenced by lateSignalReweight(), and make_digis().

2191  {
2192  // Central values
2193  //const float p0=0.00352, p1=0.868, p2=112., p3=113.; // pix(0,0,0)
2194  // const float p0=0.00382, p1=0.886, p2=112.7, p3=113.0; // average roc=0
2195  //const float p0=0.00492, p1=1.998, p2=90.6, p3=134.1; // average roc=6
2196  // Smeared (rms)
2197  //const float s0=0.00020, s1=0.051, s2=5.4, s3=4.4; // average roc=0
2198  //const float s0=0.00015, s1=0.043, s2=3.2, s3=3.1; // col average roc=0
2199 
2200  // Make 2 sets of parameters for Fpix and BPIx:
2201 
2202  float p0 = 0.0f;
2203  float p1 = 0.0f;
2204  float p2 = 0.0f;
2205  float p3 = 0.0f;
2206 
2207  if (pixdet->type().isTrackerPixel() && pixdet->type().isBarrel()) { // barrel layers
2208  p0 = BPix_p0;
2209  p1 = BPix_p1;
2210  p2 = BPix_p2;
2211  p3 = BPix_p3;
2212  } else if (pixdet->type().isTrackerPixel()) { // forward disks
2213  p0 = FPix_p0;
2214  p1 = FPix_p1;
2215  p2 = FPix_p2;
2216  p3 = FPix_p3;
2217  } else {
2218  throw cms::Exception("NotAPixelGeomDetUnit") << "Not a pixel geomdet unit" << detID;
2219  }
2220 
2221  float newAmp = 0.f; //Modified signal
2222 
2223  // Convert electrons to VCAL units
2224  float signal = (signalInElectrons - electronsPerVCAL_Offset) / electronsPerVCAL;
2225 
2226  // New gains/offsets are needed for phase1 L1
2227  int layer = 0;
2228  if (DetId(detID).subdetId() == 1)
2229  layer = tTopo->pxbLayer(detID);
2230  if (layer == 1)
2231  signal = (signalInElectrons - electronsPerVCAL_L1_Offset) / electronsPerVCAL_L1;
2232 
2233  // Simulate the analog response with fixed parametrization
2234  newAmp = p3 + p2 * tanh(p0 * signal - p1);
2235 
2236  // Use the pixel-by-pixel calibrations
2237  //transform to ROC index coordinates
2238  //int chipIndex=0, colROC=0, rowROC=0;
2239  //std::unique_ptr<PixelIndices> pIndexConverter(new PixelIndices(numColumns,numRows));
2240  //pIndexConverter->transformToROC(col,row,chipIndex,colROC,rowROC);
2241 
2242  // Use calibration from a file
2243  //int chanROC = PixelIndices::pixelToChannelROC(rowROC,colROC); // use ROC coordinates
2244  //float pp0=0, pp1=0,pp2=0,pp3=0;
2245  //map<int,CalParameters,std::less<int> >::const_iterator it=calmap.find(chanROC);
2246  //CalParameters y = (*it).second;
2247  //pp0 = y.p0;
2248  //pp1 = y.p1;
2249  //pp2 = y.p2;
2250  //pp3 = y.p3;
2251 
2252  //
2253  // Use random smearing
2254  // Randomize the pixel response
2255  //float pp0 = RandGaussQ::shoot(p0,s0);
2256  //float pp1 = RandGaussQ::shoot(p1,s1);
2257  //float pp2 = RandGaussQ::shoot(p2,s2);
2258  //float pp3 = RandGaussQ::shoot(p3,s3);
2259 
2260  //newAmp = pp3 + pp2 * tanh(pp0*signal - pp1); // Final signal
2261 
2262  LogDebug("Pixel Digitizer") << " misscalibrate " << col << " " << row
2263  << " "
2264  // <<chipIndex<<" " <<colROC<<" " <<rowROC<<" "
2265  << signalInElectrons << " " << signal << " " << newAmp << " "
2266  << (signalInElectrons / theElectronPerADC) << "\n";
2267 
2268  return newAmp;
2269 }
unsigned int pxbLayer(const DetId &id) const
void tanh(data_T data[CONFIG_T::n_in], res_T res[CONFIG_T::n_in])
const GeomDetType & type() const override
bool isTrackerPixel() const
Definition: GeomDetType.cc:15
constexpr std::array< uint8_t, layerIndexSize< TrackerTraits > > layer
constexpr int subdetId() const
get the contents of the subdetector field (not cast into any detector&#39;s numbering enum) ...
Definition: DetId.h:48
Definition: DetId.h:17
bool isBarrel() const
Definition: GeomDetType.cc:9
col
Definition: cuy.py:1009
#define LogDebug(id)

◆ module_killing_conf()

void SiPixelDigitizerAlgorithm::module_killing_conf ( uint32_t  detID)
private

Definition at line 2368 of file SiPixelDigitizerAlgorithm.cc.

References _signal, PixelDigi::channelToPixel(), DeadModules, mps_fire::i, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by digitize().

2368  {
2369  bool isbad = false;
2370 
2371  Parameters::const_iterator itDeadModules = DeadModules.begin();
2372 
2373  int detid = detID;
2374  for (; itDeadModules != DeadModules.end(); ++itDeadModules) {
2375  int Dead_detID = itDeadModules->getParameter<int>("Dead_detID");
2376  if (detid == Dead_detID) {
2377  isbad = true;
2378  break;
2379  }
2380  }
2381 
2382  if (!isbad)
2383  return;
2384 
2385  signal_map_type& theSignal = _signal[detID];
2386 
2387  std::string Module = itDeadModules->getParameter<std::string>("Module");
2388 
2389  if (Module == "whole") {
2390  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2391  i->second.set(0.); // reset amplitude
2392  }
2393  }
2394 
2395  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2396  std::pair<int, int> ip = PixelDigi::channelToPixel(i->first); //get pixel pos
2397 
2398  if (Module == "tbmA" && ip.first >= 80 && ip.first <= 159) {
2399  i->second.set(0.);
2400  }
2401 
2402  if (Module == "tbmB" && ip.first <= 79) {
2403  i->second.set(0.);
2404  }
2405  }
2406 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
signal_map_type::iterator signal_map_iterator

◆ module_killing_DB()

void SiPixelDigitizerAlgorithm::module_killing_DB ( uint32_t  detID)
private

Definition at line 2408 of file SiPixelDigitizerAlgorithm.cc.

References _signal, funct::abs(), PixelDigi::channelToPixel(), TauDecayModes::dec, SiPixelQuality::disabledModuleType::errorType, SiPixelFedCablingMap::findItem(), SiPixelQuality::getBadComponentList(), SiPixelQuality::getBadRocs(), mps_fire::i, l1ctLayer2EG_cff::id, sipixelobjects::PixelROC::idInDetUnit(), SiPixelQuality::IsRocBad(), dqmiolumiharvest::j, DTRecHitClients_cfi::local, LogDebug, map_, castor_dqm_sourceclient_file_cfg::path, SiPixelFedCablingMap::pathToDetUnit(), SiPixelBadModule_, and sipixelobjects::PixelROC::toGlobal().

Referenced by digitize().

2408  {
2409  // Not SLHC safe for now
2410 
2411  bool isbad = false;
2412 
2413  std::vector<SiPixelQuality::disabledModuleType> disabledModules = SiPixelBadModule_->getBadComponentList();
2414 
2416 
2417  for (size_t id = 0; id < disabledModules.size(); id++) {
2418  if (detID == disabledModules[id].DetID) {
2419  isbad = true;
2420  badmodule = disabledModules[id];
2421  break;
2422  }
2423  }
2424 
2425  if (!isbad)
2426  return;
2427 
2428  signal_map_type& theSignal = _signal[detID];
2429 
2430  LogDebug("Pixel Digitizer") << "Hit in: " << detID << " errorType " << badmodule.errorType << " BadRocs=" << std::hex
2431  << SiPixelBadModule_->getBadRocs(detID) << std::dec << " "
2432  << "\n";
2433  if (badmodule.errorType == 0) { // this is a whole dead module.
2434 
2435  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2436  i->second.set(0.); // reset amplitude
2437  }
2438  } else { // all other module types: half-modules and single ROCs.
2439  // Get Bad ROC position:
2440  //follow the example of getBadRocPositions in CondFormats/SiPixelObjects/src/SiPixelQuality.cc
2441  std::vector<GlobalPixel> badrocpositions(0);
2442  for (unsigned int j = 0; j < 16; j++) {
2443  if (SiPixelBadModule_->IsRocBad(detID, j) == true) {
2444  std::vector<CablingPathToDetUnit> path = map_->pathToDetUnit(detID);
2445  typedef std::vector<CablingPathToDetUnit>::const_iterator IT;
2446  for (IT it = path.begin(); it != path.end(); ++it) {
2447  const PixelROC* myroc = map_->findItem(*it);
2448  if (myroc->idInDetUnit() == j) {
2449  LocalPixel::RocRowCol local = {39, 25}; //corresponding to center of ROC row, col
2450  GlobalPixel global = myroc->toGlobal(LocalPixel(local));
2451  badrocpositions.push_back(global);
2452  break;
2453  }
2454  }
2455  }
2456  } // end of getBadRocPositions
2457 
2458  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2459  std::pair<int, int> ip = PixelDigi::channelToPixel(i->first); //get pixel pos
2460 
2461  for (std::vector<GlobalPixel>::const_iterator it = badrocpositions.begin(); it != badrocpositions.end(); ++it) {
2462  if (it->row >= 80 && ip.first >= 80) {
2463  if ((std::abs(ip.second - it->col) < 26)) {
2464  i->second.set(0.);
2465  } else if (it->row == 120 && ip.second - it->col == 26) {
2466  i->second.set(0.);
2467  } else if (it->row == 119 && it->col - ip.second == 26) {
2468  i->second.set(0.);
2469  }
2470  } else if (it->row < 80 && ip.first < 80) {
2471  if ((std::abs(ip.second - it->col) < 26)) {
2472  i->second.set(0.);
2473  } else if (it->row == 40 && ip.second - it->col == 26) {
2474  i->second.set(0.);
2475  } else if (it->row == 39 && it->col - ip.second == 26) {
2476  i->second.set(0.);
2477  }
2478  }
2479  }
2480  }
2481  }
2482 }
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
bool IsRocBad(const uint32_t &detid, const short &rocNb) const
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
std::vector< sipixelobjects::CablingPathToDetUnit > pathToDetUnit(uint32_t rawDetId) const final
identify pixel inside single ROC
Definition: LocalPixel.h:7
global coordinates (row and column in DetUnit, as in PixelDigi)
Definition: GlobalPixel.h:6
const std::vector< disabledModuleType > getBadComponentList() const
GlobalPixel toGlobal(const LocalPixel &loc) const
Definition: PixelROC.h:55
const sipixelobjects::PixelROC * findItem(const sipixelobjects::CablingPathToDetUnit &path) const final
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
std::vector< LinkConnSpec >::const_iterator IT
signal_map_type::iterator signal_map_iterator
const SiPixelQuality * SiPixelBadModule_
const SiPixelFedCablingMap * map_
row and collumn in ROC representation
Definition: LocalPixel.h:13
short getBadRocs(const uint32_t &detid) const
unsigned int idInDetUnit() const
id of this ROC in DetUnit etermined by token path
Definition: PixelROC.h:37
#define LogDebug(id)

◆ pixel_aging()

float SiPixelDigitizerAlgorithm::pixel_aging ( const PixelAging aging,
const PixelGeomDetUnit pixdet,
const TrackerTopology tTopo 
) const
private

Definition at line 2130 of file SiPixelDigitizerAlgorithm.cc.

References GeomDet::geographicalId(), TrackerTopology::layer(), LogDebug, GeomDetEnumerators::P1PXB, GeomDetEnumerators::P1PXEC, GeomDetEnumerators::P2OTB, GeomDetEnumerators::P2OTEC, GeomDetEnumerators::P2PXEC, GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, TrackerTopology::pxbLadder(), TrackerTopology::pxbModule(), DetId::rawId(), and GeomDet::subDetector().

Referenced by drift().

2132  {
2133  uint32_t detID = pixdet->geographicalId().rawId();
2134 
2135  // Predefined damage parameter (no aging)
2136  float pseudoRadDamage = 0.0f;
2137 
2138  // setup the chip indices conversion
2140  pixdet->subDetector() == GeomDetEnumerators::SubDetector::P1PXB) { // barrel layers
2141  int layerIndex = tTopo->layer(detID);
2142 
2143  pseudoRadDamage = aging.thePixelPseudoRadDamage[layerIndex - 1];
2144 
2145  LogDebug("Pixel Digitizer") << "pixel_aging: "
2146  << "\n";
2147  LogDebug("Pixel Digitizer") << "Subid " << pixdet->subDetector() << " layerIndex " << layerIndex << " ladder "
2148  << tTopo->pxbLadder(detID) << " module " << tTopo->pxbModule(detID) << "\n";
2149 
2152  pixdet->subDetector() == GeomDetEnumerators::SubDetector::P2PXEC) { // forward disks
2153  unsigned int diskIndex =
2154  tTopo->layer(detID) + aging.FPixIndex; // Use diskIndex-1 later to stay consistent with BPix
2155 
2156  pseudoRadDamage = aging.thePixelPseudoRadDamage[diskIndex - 1];
2157 
2158  LogDebug("Pixel Digitizer") << "pixel_aging: "
2159  << "\n";
2160  LogDebug("Pixel Digitizer") << "Subid " << pixdet->subDetector() << " diskIndex " << diskIndex << "\n";
2161  } else if (pixdet->subDetector() == GeomDetEnumerators::SubDetector::P2OTB ||
2163  // if phase 2 OT hardcoded value as it has always been
2164  pseudoRadDamage = 0.f;
2165  } // if barrel/forward
2166 
2167  LogDebug("Pixel Digitizer") << " pseudoRadDamage " << pseudoRadDamage << "\n";
2168  LogDebug("Pixel Digitizer") << " end pixel_aging "
2169  << "\n";
2170 
2171  return pseudoRadDamage;
2172 #ifdef TP_DEBUG
2173  LogDebug("Pixel Digitizer") << " enter pixel_aging " << pseudoRadDamage;
2174 #endif
2175 }
unsigned int pxbLadder(const DetId &id) const
unsigned int layer(const DetId &id) const
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
virtual SubDetector subDetector() const
Which subdetector.
Definition: GeomDet.cc:38
unsigned int pxbModule(const DetId &id) const
Definition: aging.py:1
#define LogDebug(id)

◆ pixel_inefficiency()

void SiPixelDigitizerAlgorithm::pixel_inefficiency ( const PixelEfficiencies eff,
const PixelGeomDetUnit pixdet,
const TrackerTopology tTopo,
CLHEP::HepRandomEngine *  engine 
)
private

Definition at line 1901 of file SiPixelDigitizerAlgorithm.cc.

References _signal, officialStyle::chan, PixelDigi::channelToPixel(), SiPixelDigitizerAlgorithm::PixelEfficiencies::ChipGeomFactors, sipixelobjects::GlobalPixel::col, cuy::col, SiPixelDigitizerAlgorithm::PixelEfficiencies::ColGeomFactors, mps_check::columns, SiPixelFedCablingMap::findItem(), SiPixelDigitizerAlgorithm::PixelEfficiencies::FPixIndex, SiPixelDigitizerAlgorithm::PixelEfficiencies::FromConfig, GeomDet::geographicalId(), mps_fire::i, sipixelobjects::PixelROC::idInDetUnit(), SiPixelDigitizerAlgorithm::PixelEfficiencies::iPU, PixelTopology::isItBigPixelInX(), PixelTopology::isItBigPixelInY(), pixelClusterTagInfos_cfi::isPhase1, KillBadFEDChannels, PVValHelper::ladder, TrackerTopology::layer(), DTRecHitClients_cfi::local, LogDebug, map_, callgraph::module, PixelTopology::ncolumns(), PixelTopology::nrows(), NumberOfBarrelLayers, AlCaHLTBitMon_ParallelJobs::p, GeomDetEnumerators::P1PXB, GeomDetEnumerators::P1PXEC, GeomDetEnumerators::P2OTB, GeomDetEnumerators::P2OTEC, GeomDetEnumerators::P2PXEC, castor_dqm_sourceclient_file_cfg::path, SiPixelFedCablingMap::pathToDetUnit(), GeomDetEnumerators::PixelBarrel, GeomDetEnumerators::PixelEndcap, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelFEDChannelCollection_, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelGeomFactors, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelGeomFactorsROCBigPixels, SiPixelDigitizerAlgorithm::PixelEfficiencies::PixelGeomFactorsROCStdPixels, SiPixelDigitizerAlgorithm::PixelEfficiencies::pu_scale, TrackerTopology::pxbLadder(), TrackerTopology::pxbModule(), TrackerTopology::pxfDisk(), TrackerTopology::pxfModule(), TrackerTopology::pxfPanel(), DetId::rawId(), sipixelobjects::GlobalPixel::row, PixelGeomDetUnit::specificTopology(), GeomDet::subDetector(), SiPixelDigitizerAlgorithm::PixelEfficiencies::theInnerEfficiency_FPix, SiPixelDigitizerAlgorithm::PixelEfficiencies::theLadderEfficiency_BPix, SiPixelDigitizerAlgorithm::PixelEfficiencies::theModuleEfficiency_BPix, SiPixelDigitizerAlgorithm::PixelEfficiencies::theOuterEfficiency_FPix, SiPixelDigitizerAlgorithm::PixelEfficiencies::thePixelChipEfficiency, SiPixelDigitizerAlgorithm::PixelEfficiencies::thePixelColEfficiency, SiPixelDigitizerAlgorithm::PixelEfficiencies::thePixelEfficiency, and sipixelobjects::PixelROC::toGlobal().

Referenced by digitize().

1904  {
1905  uint32_t detID = pixdet->geographicalId().rawId();
1906  signal_map_type& theSignal = _signal[detID];
1907  const PixelTopology* topol = &pixdet->specificTopology();
1908  int numColumns = topol->ncolumns(); // det module number of cols&rows
1909  int numRows = topol->nrows();
1912  // Predefined efficiencies
1913  double pixelEfficiency = 1.0;
1914  double columnEfficiency = 1.0;
1915  double chipEfficiency = 1.0;
1916  std::vector<double> pixelEfficiencyROCStdPixels(16, 1);
1917  std::vector<double> pixelEfficiencyROCBigPixels(16, 1);
1918 
1919  auto pIndexConverter = PixelIndices(numColumns, numRows);
1920 
1921  std::vector<int> badRocsFromFEDChannels(16, 0);
1922  if (eff.PixelFEDChannelCollection_ != nullptr) {
1923  PixelFEDChannelCollection::const_iterator it = eff.PixelFEDChannelCollection_->find(detID);
1924 
1925  if (it != eff.PixelFEDChannelCollection_->end()) {
1926  const std::vector<CablingPathToDetUnit>& path = map_->pathToDetUnit(detID);
1927  for (const auto& ch : *it) {
1928  for (unsigned int i_roc = ch.roc_first; i_roc <= ch.roc_last; ++i_roc) {
1929  for (const auto p : path) {
1930  const PixelROC* myroc = map_->findItem(p);
1931  if (myroc->idInDetUnit() == static_cast<unsigned int>(i_roc)) {
1932  LocalPixel::RocRowCol local = {39, 25}; //corresponding to center of ROC row,col
1933  GlobalPixel global = myroc->toGlobal(LocalPixel(local));
1934  int chipIndex(0), colROC(0), rowROC(0);
1935  pIndexConverter.transformToROC(global.col, global.row, chipIndex, colROC, rowROC);
1936  badRocsFromFEDChannels.at(chipIndex) = 1;
1937  }
1938  }
1939  }
1940  } // loop over channels
1941  } // detID in PixelFEDChannelCollection_
1942  } // has PixelFEDChannelCollection_
1943 
1944  if (eff.FromConfig) {
1945  // setup the chip indices conversion
1947  pixdet->subDetector() == GeomDetEnumerators::SubDetector::P1PXB) { // barrel layers
1948  int layerIndex = tTopo->layer(detID);
1949  pixelEfficiency = eff.thePixelEfficiency[layerIndex - 1];
1950  columnEfficiency = eff.thePixelColEfficiency[layerIndex - 1];
1951  chipEfficiency = eff.thePixelChipEfficiency[layerIndex - 1];
1952  LogDebug("Pixel Digitizer") << "Using BPix columnEfficiency = " << columnEfficiency
1953  << " for layer = " << layerIndex << "\n";
1954  // This should never happen, but only check if it is not an upgrade geometry
1955  if (NumberOfBarrelLayers == 3) {
1956  if (numColumns > 416)
1957  LogWarning("Pixel Geometry") << " wrong columns in barrel " << numColumns;
1958  if (numRows > 160)
1959  LogWarning("Pixel Geometry") << " wrong rows in barrel " << numRows;
1960 
1961  int ladder = tTopo->pxbLadder(detID);
1962  int module = tTopo->pxbModule(detID);
1963  if (module <= 4)
1964  module = 5 - module;
1965  else
1966  module -= 4;
1967 
1968  columnEfficiency *= eff.theLadderEfficiency_BPix[layerIndex - 1][ladder - 1] *
1969  eff.theModuleEfficiency_BPix[layerIndex - 1][module - 1] * eff.pu_scale[layerIndex - 1];
1970  }
1973  pixdet->subDetector() == GeomDetEnumerators::SubDetector::P2PXEC) { // forward disks
1974 
1975  unsigned int diskIndex =
1976  tTopo->layer(detID) + eff.FPixIndex; // Use diskIndex-1 later to stay consistent with BPix
1977  unsigned int panelIndex = tTopo->pxfPanel(detID);
1978  unsigned int moduleIndex = tTopo->pxfModule(detID);
1979  //if (eff.FPixIndex>diskIndex-1){throw cms::Exception("Configuration") <<"SiPixelDigitizer is using the wrong efficiency value. index = "
1980  // <<diskIndex-1<<" , MinIndex = "<<eff.FPixIndex<<" ... "<<tTopo->pxfDisk(detID);}
1981  pixelEfficiency = eff.thePixelEfficiency[diskIndex - 1];
1982  columnEfficiency = eff.thePixelColEfficiency[diskIndex - 1];
1983  chipEfficiency = eff.thePixelChipEfficiency[diskIndex - 1];
1984  LogDebug("Pixel Digitizer") << "Using FPix columnEfficiency = " << columnEfficiency
1985  << " for Disk = " << tTopo->pxfDisk(detID) << "\n";
1986  // Sometimes the forward pixels have wrong size,
1987  // this crashes the index conversion, so exit, but only check if it is not an upgrade geometry
1988  if (NumberOfBarrelLayers ==
1989  3) { // whether it is the present or the phase 1 detector can be checked using GeomDetEnumerators::SubDetector
1990  if (numColumns > 260 || numRows > 160) {
1991  if (numColumns > 260)
1992  LogWarning("Pixel Geometry") << " wrong columns in endcaps " << numColumns;
1993  if (numRows > 160)
1994  LogWarning("Pixel Geometry") << " wrong rows in endcaps " << numRows;
1995  return;
1996  }
1997  if ((panelIndex == 1 && (moduleIndex == 1 || moduleIndex == 2)) ||
1998  (panelIndex == 2 && moduleIndex == 1)) { //inner modules
1999  columnEfficiency *= eff.theInnerEfficiency_FPix[diskIndex - 1] * eff.pu_scale[3];
2000  } else { //outer modules
2001  columnEfficiency *= eff.theOuterEfficiency_FPix[diskIndex - 1] * eff.pu_scale[4];
2002  }
2003  } // current detector, forward
2004  } else if (pixdet->subDetector() == GeomDetEnumerators::SubDetector::P2OTB ||
2006  // If phase 2 outer tracker, hardcoded values as they have been so far
2007  pixelEfficiency = 0.999;
2008  columnEfficiency = 0.999;
2009  chipEfficiency = 0.999;
2010  } // if barrel/forward
2011  } else { // Load precomputed factors from Database
2012  pixelEfficiency = eff.PixelGeomFactors.at(detID);
2013  columnEfficiency = eff.ColGeomFactors.at(detID) * eff.pu_scale[eff.iPU.at(detID)];
2014  chipEfficiency = eff.ChipGeomFactors.at(detID);
2015  if (isPhase1) {
2016  for (unsigned int i_roc = 0; i_roc < eff.PixelGeomFactorsROCStdPixels.at(detID).size(); ++i_roc) {
2017  pixelEfficiencyROCStdPixels[i_roc] = eff.PixelGeomFactorsROCStdPixels.at(detID).at(i_roc);
2018  pixelEfficiencyROCBigPixels[i_roc] = eff.PixelGeomFactorsROCBigPixels.at(detID).at(i_roc);
2019  }
2020  } // is Phase 1
2021  }
2022 
2023 #ifdef TP_DEBUG
2024  LogDebug("Pixel Digitizer") << " enter pixel_inefficiency " << pixelEfficiency << " " << columnEfficiency << " "
2025  << chipEfficiency;
2026 #endif
2027 
2028  // Initilize the index converter
2029  //PixelIndices indexConverter(numColumns,numRows);
2030 
2031  int chipIndex = 0;
2032  int rowROC = 0;
2033  int colROC = 0;
2034  std::map<int, int, std::less<int> > chips, columns, pixelStd, pixelBig;
2035  std::map<int, int, std::less<int> >::iterator iter;
2036 
2037  // Find out the number of columns and rocs hits
2038  // Loop over hit pixels, amplitude in electrons, channel = coded row,col
2039  for (signal_map_const_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2040  int chan = i->first;
2041  std::pair<int, int> ip = PixelDigi::channelToPixel(chan);
2042  int row = ip.first; // X in row
2043  int col = ip.second; // Y is in col
2044  //transform to ROC index coordinates
2045  pIndexConverter.transformToROC(col, row, chipIndex, colROC, rowROC);
2046  int dColInChip = pIndexConverter.DColumn(colROC); // get ROC dcol from ROC col
2047  //dcol in mod
2048  int dColInDet = pIndexConverter.DColumnInModule(dColInChip, chipIndex);
2049 
2050  chips[chipIndex]++;
2051  columns[dColInDet]++;
2052  if (isPhase1) {
2053  if (topol->isItBigPixelInX(row) || topol->isItBigPixelInY(col))
2054  pixelBig[chipIndex]++;
2055  else
2056  pixelStd[chipIndex]++;
2057  }
2058  }
2059 
2060  // Delete some ROC hits.
2061  for (iter = chips.begin(); iter != chips.end(); iter++) {
2062  //float rand = RandFlat::shoot();
2063  float rand = CLHEP::RandFlat::shoot(engine);
2064  if (rand > chipEfficiency)
2065  chips[iter->first] = 0;
2066  }
2067 
2068  // Delete some Dcol hits.
2069  for (iter = columns.begin(); iter != columns.end(); iter++) {
2070  //float rand = RandFlat::shoot();
2071  float rand = CLHEP::RandFlat::shoot(engine);
2072  if (rand > columnEfficiency)
2073  columns[iter->first] = 0;
2074  }
2075 
2076  // Delete some pixel hits based on DCDC issue damage.
2077  if (isPhase1) {
2078  for (iter = pixelStd.begin(); iter != pixelStd.end(); iter++) {
2079  float rand = CLHEP::RandFlat::shoot(engine);
2080  if (rand > pixelEfficiencyROCStdPixels[iter->first])
2081  pixelStd[iter->first] = 0;
2082  }
2083 
2084  for (iter = pixelBig.begin(); iter != pixelBig.end(); iter++) {
2085  float rand = CLHEP::RandFlat::shoot(engine);
2086  if (rand > pixelEfficiencyROCBigPixels[iter->first])
2087  pixelBig[iter->first] = 0;
2088  }
2089  }
2090 
2091  // Now loop again over pixels to kill some of them.
2092  // Loop over hit pixels, amplitude in electrons, channel = coded row,col
2093  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2094  // int chan = i->first;
2095  std::pair<int, int> ip = PixelDigi::channelToPixel(i->first); //get pixel pos
2096  int row = ip.first; // X in row
2097  int col = ip.second; // Y is in col
2098  //transform to ROC index coordinates
2099  pIndexConverter.transformToROC(col, row, chipIndex, colROC, rowROC);
2100  int dColInChip = pIndexConverter.DColumn(colROC); //get ROC dcol from ROC col
2101  //dcol in mod
2102  int dColInDet = pIndexConverter.DColumnInModule(dColInChip, chipIndex);
2103 
2104  //float rand = RandFlat::shoot();
2105  float rand = CLHEP::RandFlat::shoot(engine);
2106  if (chips[chipIndex] == 0 || columns[dColInDet] == 0 || rand > pixelEfficiency ||
2107  (pixelStd.count(chipIndex) && pixelStd[chipIndex] == 0) ||
2108  (pixelBig.count(chipIndex) && pixelBig[chipIndex] == 0)) {
2109  // make pixel amplitude =0, pixel will be lost at clusterization
2110  i->second.set(0.); // reset amplitude,
2111  } // end if
2112  if (isPhase1) {
2113  if ((pixelStd.count(chipIndex) && pixelStd[chipIndex] == 0) ||
2114  (pixelBig.count(chipIndex) && pixelBig[chipIndex] == 0) || (badRocsFromFEDChannels.at(chipIndex) == 1)) {
2115  //============================================================
2116  // make pixel amplitude =0, pixel will be lost at clusterization
2117  i->second.set(0.); // reset amplitude,
2118  } // end if
2119  } // is Phase 1
2120  if (KillBadFEDChannels && badRocsFromFEDChannels.at(chipIndex) == 1) {
2121  i->second.set(0.);
2122  }
2123  } // end pixel loop
2124 } // end pixel_indefficiency
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
signal_map_type::const_iterator signal_map_const_iterator
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
virtual int ncolumns() const =0
unsigned int pxfModule(const DetId &id) const
virtual int nrows() const =0
std::vector< sipixelobjects::CablingPathToDetUnit > pathToDetUnit(uint32_t rawDetId) const final
unsigned int pxbLadder(const DetId &id) const
identify pixel inside single ROC
Definition: LocalPixel.h:7
unsigned int layer(const DetId &id) const
global coordinates (row and column in DetUnit, as in PixelDigi)
Definition: GlobalPixel.h:6
virtual bool isItBigPixelInX(int ixbin) const =0
GlobalPixel toGlobal(const LocalPixel &loc) const
Definition: PixelROC.h:55
virtual bool isItBigPixelInY(int iybin) const =0
unsigned int pxfDisk(const DetId &id) const
const sipixelobjects::PixelROC * findItem(const sipixelobjects::CablingPathToDetUnit &path) const final
signal_map_type::iterator signal_map_iterator
DetId geographicalId() const
The label of this GeomDet.
Definition: GeomDet.h:64
unsigned int pxfPanel(const DetId &id) const
boost::transform_iterator< IterHelp, const_IdIter > const_iterator
const SiPixelFedCablingMap * map_
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
row and collumn in ROC representation
Definition: LocalPixel.h:13
virtual SubDetector subDetector() const
Which subdetector.
Definition: GeomDet.cc:38
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...
virtual const PixelTopology & specificTopology() const
Returns a reference to the pixel proxy topology.
col
Definition: cuy.py:1009
unsigned int pxbModule(const DetId &id) const
Log< level::Warning, false > LogWarning
unsigned int idInDetUnit() const
id of this ROC in DetUnit etermined by token path
Definition: PixelROC.h:37
#define LogDebug(id)

◆ pixel_inefficiency_db()

void SiPixelDigitizerAlgorithm::pixel_inefficiency_db ( uint32_t  detID)
private

Definition at line 2348 of file SiPixelDigitizerAlgorithm.cc.

References _signal, PixelDigi::channelToPixel(), cuy::col, mps_fire::i, LogDebug, and theSiPixelGainCalibrationService_.

Referenced by digitize().

2348  {
2349  signal_map_type& theSignal = _signal[detID];
2350 
2351  // Loop over hit pixels, amplitude in electrons, channel = coded row,col
2352  for (signal_map_iterator i = theSignal.begin(); i != theSignal.end(); ++i) {
2353  // int chan = i->first;
2354  std::pair<int, int> ip = PixelDigi::channelToPixel(i->first); //get pixel pos
2355  int row = ip.first; // X in row
2356  int col = ip.second; // Y is in col
2357  //transform to ROC index coordinates
2358  if (theSiPixelGainCalibrationService_->isDead(detID, col, row)) {
2359  LogDebug("Pixel Digitizer") << "now in isdead check, row " << detID << " " << col << "," << row << "\n";
2360  // make pixel amplitude =0, pixel will be lost at clusterization
2361  i->second.set(0.); // reset amplitude,
2362  } // end if
2363  } // end pixel loop
2364 } // end pixel_indefficiency
std::map< int, digitizerUtility::Amplitude, std::less< int > > signal_map_type
const std::unique_ptr< SiPixelGainCalibrationOfflineSimService > theSiPixelGainCalibrationService_
static std::pair< int, int > channelToPixel(int ch)
Definition: PixelDigi.h:69
signal_map_type::iterator signal_map_iterator
col
Definition: cuy.py:1009
#define LogDebug(id)

◆ primary_ionization()

void SiPixelDigitizerAlgorithm::primary_ionization ( const PSimHit hit,
std::vector< EnergyDepositUnit > &  ionization_points,
CLHEP::HepRandomEngine *  engine 
) const
private

Definition at line 1128 of file SiPixelDigitizerAlgorithm.cc.

References simKBmtfDigis_cfi::eLoss, HCALHighEnergyHPDFilter_cfi::energy, dqmMemoryStats::float, fluctuateCharge, fluctuateEloss(), GeVperElectron, mps_fire::i, createfilelist::int, LogDebug, PV3DBase< T, PVType, FrameType >::mag(), point, hit::x, hit::y, and hit::z.

Referenced by accumulateSimHits().

1130  {
1131  // Straight line approximation for trajectory inside active media
1132 
1133  const float SegmentLength = 0.0010; //10microns in cm
1134  float energy;
1135 
1136  // Get the 3D segment direction vector
1137  LocalVector direction = hit.exitPoint() - hit.entryPoint();
1138 
1139  float eLoss = hit.energyLoss(); // Eloss in GeV
1140  float length = direction.mag(); // Track length in Silicon
1141 
1142  int NumberOfSegments = int(length / SegmentLength); // Number of segments
1143  if (NumberOfSegments < 1)
1144  NumberOfSegments = 1;
1145 
1146 #ifdef TP_DEBUG
1147  LogDebug("Pixel Digitizer") << " enter primary_ionzation " << NumberOfSegments
1148  << " shift = " << (hit.exitPoint().x() - hit.entryPoint().x()) << " "
1149  << (hit.exitPoint().y() - hit.entryPoint().y()) << " "
1150  << (hit.exitPoint().z() - hit.entryPoint().z()) << " " << hit.particleType() << " "
1151  << hit.pabs();
1152 #endif
1153 
1154  float* elossVector = new float[NumberOfSegments]; // Eloss vector
1155 
1156  if (fluctuateCharge) {
1157  //MP DA RIMUOVERE ASSOLUTAMENTE
1158  int pid = hit.particleType();
1159  //int pid=211; // assume it is a pion
1160 
1161  float momentum = hit.pabs();
1162  // Generate fluctuated charge points
1163  fluctuateEloss(pid, momentum, eLoss, length, NumberOfSegments, elossVector, engine);
1164  }
1165 
1166  ionization_points.resize(NumberOfSegments); // set size
1167 
1168  // loop over segments
1169  for (int i = 0; i != NumberOfSegments; i++) {
1170  // Divide the segment into equal length subsegments
1171  Local3DPoint point = hit.entryPoint() + float((i + 0.5) / NumberOfSegments) * direction;
1172 
1173  if (fluctuateCharge)
1174  energy = elossVector[i] / GeVperElectron; // Convert charge to elec.
1175  else
1176  energy = hit.energyLoss() / GeVperElectron / float(NumberOfSegments);
1177 
1178  EnergyDepositUnit edu(energy, point); //define position,energy point
1179  ionization_points[i] = edu; // save
1180 
1181 #ifdef TP_DEBUG
1182  LogDebug("Pixel Digitizer") << i << " " << ionization_points[i].x() << " " << ionization_points[i].y() << " "
1183  << ionization_points[i].z() << " " << ionization_points[i].energy();
1184 #endif
1185 
1186  } // end for loop
1187 
1188  delete[] elossVector;
1189 }
T mag() const
Definition: PV3DBase.h:64
void fluctuateEloss(int particleId, float momentum, float eloss, float length, int NumberOfSegments, float elossVector[], CLHEP::HepRandomEngine *) const
*vegas h *****************************************************used in the default bin number in original ***version of VEGAS is ***a higher bin number might help to derive a more precise ***grade subtle point
Definition: invegas.h:5
#define LogDebug(id)

◆ resetSimHitMaps()

void SiPixelDigitizerAlgorithm::resetSimHitMaps ( )

Definition at line 1658 of file SiPixelDigitizerAlgorithm.cc.

References SimHitMap.

1658 { SimHitMap.clear(); }

◆ setSimAccumulator()

void SiPixelDigitizerAlgorithm::setSimAccumulator ( const std::map< uint32_t, std::map< int, int > > &  signalMap)

Definition at line 1018 of file SiPixelDigitizerAlgorithm.cc.

References _signal, officialStyle::chan, and theElectronPerADC.

Referenced by PreMixingSiPixelWorker::put().

1018  {
1019  for (const auto& det : signalMap) {
1020  auto& theSignal = _signal[det.first];
1021  for (const auto& chan : det.second) {
1022  theSignal[chan.first].set(chan.second *
1023  theElectronPerADC); // will get divided again by theElectronPerAdc in digitize...
1024  }
1025  }
1026 }
chan
lumi = TPaveText(lowX+0.38, lowY+0.061, lowX+0.45, lowY+0.161, "NDC") lumi.SetBorderSize( 0 ) lumi...

Member Data Documentation

◆ _signal

signalMaps SiPixelDigitizerAlgorithm::_signal
private

◆ addChargeVCALSmearing

const bool SiPixelDigitizerAlgorithm::addChargeVCALSmearing
private

Definition at line 346 of file SiPixelDigitizerAlgorithm.h.

Referenced by add_noise().

◆ addNoise

const bool SiPixelDigitizerAlgorithm::addNoise
private

Definition at line 345 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize().

◆ addNoisyPixels

const bool SiPixelDigitizerAlgorithm::addNoisyPixels
private

Definition at line 347 of file SiPixelDigitizerAlgorithm.h.

Referenced by add_noise().

◆ AddPixelAging

const bool SiPixelDigitizerAlgorithm::AddPixelAging
private

Definition at line 362 of file SiPixelDigitizerAlgorithm.h.

Referenced by drift().

◆ AddPixelInefficiency

const bool SiPixelDigitizerAlgorithm::AddPixelInefficiency
private

◆ addThresholdSmearing

const bool SiPixelDigitizerAlgorithm::addThresholdSmearing
private

Definition at line 353 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and lateSignalReweight().

◆ alpha2Order

const bool SiPixelDigitizerAlgorithm::alpha2Order
private

Definition at line 299 of file SiPixelDigitizerAlgorithm.h.

Referenced by drift(), and DriftDirection().

◆ BPix_p0

const float SiPixelDigitizerAlgorithm::BPix_p0
private

Definition at line 339 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ BPix_p1

const float SiPixelDigitizerAlgorithm::BPix_p1
private

Definition at line 340 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ BPix_p2

const float SiPixelDigitizerAlgorithm::BPix_p2
private

Definition at line 341 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ BPix_p3

const float SiPixelDigitizerAlgorithm::BPix_p3
private

Definition at line 342 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ calmap

const std::map<int, CalParameters, std::less<int> > SiPixelDigitizerAlgorithm::calmap
private

Definition at line 378 of file SiPixelDigitizerAlgorithm.h.

Referenced by initCal().

◆ ClusterWidth

const float SiPixelDigitizerAlgorithm::ClusterWidth
private

Definition at line 302 of file SiPixelDigitizerAlgorithm.h.

Referenced by induce_signal().

◆ DeadModules

const Parameters SiPixelDigitizerAlgorithm::DeadModules
private

Definition at line 286 of file SiPixelDigitizerAlgorithm.h.

Referenced by module_killing_conf().

◆ Dist300

const float SiPixelDigitizerAlgorithm::Dist300
private

Definition at line 298 of file SiPixelDigitizerAlgorithm.h.

Referenced by drift().

◆ doMissCalibrate

const bool SiPixelDigitizerAlgorithm::doMissCalibrate
private

Definition at line 356 of file SiPixelDigitizerAlgorithm.h.

Referenced by make_digis().

◆ doMissCalInLateCR

const bool SiPixelDigitizerAlgorithm::doMissCalInLateCR
private

Definition at line 357 of file SiPixelDigitizerAlgorithm.h.

Referenced by lateSignalReweight().

◆ electronsPerVCAL

const float SiPixelDigitizerAlgorithm::electronsPerVCAL
private

Definition at line 325 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ electronsPerVCAL_L1

const float SiPixelDigitizerAlgorithm::electronsPerVCAL_L1
private

Definition at line 327 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ electronsPerVCAL_L1_Offset

const float SiPixelDigitizerAlgorithm::electronsPerVCAL_L1_Offset
private

Definition at line 328 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ electronsPerVCAL_Offset

const float SiPixelDigitizerAlgorithm::electronsPerVCAL_Offset
private

Definition at line 326 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ fluctuate

const std::unique_ptr<SiG4UniversalFluctuation> SiPixelDigitizerAlgorithm::fluctuate
private

Definition at line 374 of file SiPixelDigitizerAlgorithm.h.

Referenced by fluctuateEloss().

◆ fluctuateCharge

const bool SiPixelDigitizerAlgorithm::fluctuateCharge
private

Definition at line 348 of file SiPixelDigitizerAlgorithm.h.

Referenced by primary_ionization().

◆ FPix_p0

const float SiPixelDigitizerAlgorithm::FPix_p0
private

Definition at line 335 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ FPix_p1

const float SiPixelDigitizerAlgorithm::FPix_p1
private

Definition at line 336 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ FPix_p2

const float SiPixelDigitizerAlgorithm::FPix_p2
private

Definition at line 337 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ FPix_p3

const float SiPixelDigitizerAlgorithm::FPix_p3
private

Definition at line 338 of file SiPixelDigitizerAlgorithm.h.

Referenced by missCalibrate().

◆ geom_

const TrackerGeometry* SiPixelDigitizerAlgorithm::geom_ = nullptr
private

Definition at line 119 of file SiPixelDigitizerAlgorithm.h.

Referenced by init_DynIneffDB().

◆ geomToken_

const edm::ESGetToken<TrackerGeometry, TrackerDigiGeometryRecord> SiPixelDigitizerAlgorithm::geomToken_
private

Definition at line 117 of file SiPixelDigitizerAlgorithm.h.

◆ GeVperElectron

const float SiPixelDigitizerAlgorithm::GeVperElectron
private

Definition at line 294 of file SiPixelDigitizerAlgorithm.h.

Referenced by primary_ionization().

◆ KillBadFEDChannels

const bool SiPixelDigitizerAlgorithm::KillBadFEDChannels
private

◆ makeDigiSimLinks_

const bool SiPixelDigitizerAlgorithm::makeDigiSimLinks_
private

Definition at line 278 of file SiPixelDigitizerAlgorithm.h.

Referenced by induce_signal(), and make_digis().

◆ map_

const SiPixelFedCablingMap* SiPixelDigitizerAlgorithm::map_ = nullptr
private

Definition at line 118 of file SiPixelDigitizerAlgorithm.h.

Referenced by module_killing_DB(), and pixel_inefficiency().

◆ mapToken_

const edm::ESGetToken<SiPixelFedCablingMap, SiPixelFedCablingMapRcd> SiPixelDigitizerAlgorithm::mapToken_
private

Definition at line 116 of file SiPixelDigitizerAlgorithm.h.

◆ NumberOfBarrelLayers

const int SiPixelDigitizerAlgorithm::NumberOfBarrelLayers
private

◆ NumberOfEndcapDisks

const int SiPixelDigitizerAlgorithm::NumberOfEndcapDisks
private

◆ pixelAging_

const PixelAging SiPixelDigitizerAlgorithm::pixelAging_
private

Definition at line 435 of file SiPixelDigitizerAlgorithm.h.

Referenced by drift().

◆ pixelEfficiencies_

PixelEfficiencies SiPixelDigitizerAlgorithm::pixelEfficiencies_
private

◆ PixelFEDChannelCollectionMapToken_

edm::ESGetToken<PixelFEDChannelCollectionMap, SiPixelFEDChannelContainerESProducerRcd> SiPixelDigitizerAlgorithm::PixelFEDChannelCollectionMapToken_
private

Definition at line 128 of file SiPixelDigitizerAlgorithm.h.

Referenced by SiPixelDigitizerAlgorithm().

◆ quality_map

const PixelFEDChannelCollectionMap* SiPixelDigitizerAlgorithm::quality_map

Definition at line 104 of file SiPixelDigitizerAlgorithm.h.

Referenced by chooseScenario().

◆ scenarioProbability_

const SiPixelQualityProbabilities* SiPixelDigitizerAlgorithm::scenarioProbability_ = nullptr
private

Definition at line 129 of file SiPixelDigitizerAlgorithm.h.

Referenced by chooseScenario().

◆ scenarioProbabilityToken_

edm::ESGetToken<SiPixelQualityProbabilities, SiPixelStatusScenarioProbabilityRcd> SiPixelDigitizerAlgorithm::scenarioProbabilityToken_
private

Definition at line 126 of file SiPixelDigitizerAlgorithm.h.

Referenced by SiPixelDigitizerAlgorithm().

◆ Sigma0

const float SiPixelDigitizerAlgorithm::Sigma0
private

Definition at line 297 of file SiPixelDigitizerAlgorithm.h.

Referenced by drift().

◆ SimHitCollMap

simhit_collectionMap SiPixelDigitizerAlgorithm::SimHitCollMap
private

Definition at line 273 of file SiPixelDigitizerAlgorithm.h.

Referenced by fillSimHitMaps(), and make_digis().

◆ SimHitMap

simhit_map SiPixelDigitizerAlgorithm::SimHitMap
private

Definition at line 271 of file SiPixelDigitizerAlgorithm.h.

Referenced by fillSimHitMaps(), make_digis(), and resetSimHitMaps().

◆ SiPixelBadModule_

const SiPixelQuality* SiPixelDigitizerAlgorithm::SiPixelBadModule_ = nullptr
private

Definition at line 113 of file SiPixelDigitizerAlgorithm.h.

Referenced by module_killing_DB().

◆ SiPixelBadModuleToken_

edm::ESGetToken<SiPixelQuality, SiPixelQualityRcd> SiPixelDigitizerAlgorithm::SiPixelBadModuleToken_
private

Definition at line 112 of file SiPixelDigitizerAlgorithm.h.

Referenced by SiPixelDigitizerAlgorithm().

◆ SiPixelDynamicInefficiency_

const SiPixelDynamicInefficiency* SiPixelDigitizerAlgorithm::SiPixelDynamicInefficiency_ = nullptr
private

Definition at line 123 of file SiPixelDigitizerAlgorithm.h.

Referenced by init_DynIneffDB().

◆ SiPixelDynamicInefficiencyToken_

edm::ESGetToken<SiPixelDynamicInefficiency, SiPixelDynamicInefficiencyRcd> SiPixelDigitizerAlgorithm::SiPixelDynamicInefficiencyToken_
private

Definition at line 122 of file SiPixelDigitizerAlgorithm.h.

Referenced by init_DynIneffDB(), and SiPixelDigitizerAlgorithm().

◆ SiPixelLorentzAngle_

const SiPixelLorentzAngle* SiPixelDigitizerAlgorithm::SiPixelLorentzAngle_ = nullptr
private

Definition at line 109 of file SiPixelDigitizerAlgorithm.h.

Referenced by DriftDirection().

◆ SiPixelLorentzAngleToken_

edm::ESGetToken<SiPixelLorentzAngle, SiPixelLorentzAngleSimRcd> SiPixelDigitizerAlgorithm::SiPixelLorentzAngleToken_
private

Definition at line 108 of file SiPixelDigitizerAlgorithm.h.

Referenced by SiPixelDigitizerAlgorithm().

◆ store_SimHitEntryExitPoints_

const bool SiPixelDigitizerAlgorithm::store_SimHitEntryExitPoints_
private

◆ tanLorentzAnglePerTesla_BPix

const float SiPixelDigitizerAlgorithm::tanLorentzAnglePerTesla_BPix
private

Definition at line 333 of file SiPixelDigitizerAlgorithm.h.

Referenced by DriftDirection().

◆ tanLorentzAnglePerTesla_FPix

const float SiPixelDigitizerAlgorithm::tanLorentzAnglePerTesla_FPix
private

Definition at line 332 of file SiPixelDigitizerAlgorithm.h.

Referenced by DriftDirection().

◆ theAdcFullScale

const int SiPixelDigitizerAlgorithm::theAdcFullScale
private

Definition at line 309 of file SiPixelDigitizerAlgorithm.h.

Referenced by make_digis(), and SiPixelDigitizerAlgorithm().

◆ theAdcFullScLateCR

const int SiPixelDigitizerAlgorithm::theAdcFullScLateCR
private

Definition at line 310 of file SiPixelDigitizerAlgorithm.h.

Referenced by lateSignalReweight().

◆ theElectronPerADC

const float SiPixelDigitizerAlgorithm::theElectronPerADC
private

◆ theGainSmearing

const float SiPixelDigitizerAlgorithm::theGainSmearing
private

Definition at line 358 of file SiPixelDigitizerAlgorithm.h.

◆ TheNewSiPixelChargeReweightingAlgorithmClass

std::unique_ptr<SiPixelChargeReweightingAlgorithm> SiPixelDigitizerAlgorithm::TheNewSiPixelChargeReweightingAlgorithmClass
private

◆ theNoiseInElectrons

const float SiPixelDigitizerAlgorithm::theNoiseInElectrons
private

Definition at line 311 of file SiPixelDigitizerAlgorithm.h.

Referenced by add_noise(), digitize(), and lateSignalReweight().

◆ theNoiser

const std::unique_ptr<GaussianTailNoiseGenerator> SiPixelDigitizerAlgorithm::theNoiser
private

Definition at line 375 of file SiPixelDigitizerAlgorithm.h.

Referenced by add_noise().

◆ theOffsetSmearing

const float SiPixelDigitizerAlgorithm::theOffsetSmearing
private

Definition at line 359 of file SiPixelDigitizerAlgorithm.h.

◆ theReadoutNoise

const float SiPixelDigitizerAlgorithm::theReadoutNoise
private

Definition at line 312 of file SiPixelDigitizerAlgorithm.h.

Referenced by add_noise().

◆ theSiPixelGainCalibrationService_

const std::unique_ptr<SiPixelGainCalibrationOfflineSimService> SiPixelDigitizerAlgorithm::theSiPixelGainCalibrationService_
private

Definition at line 425 of file SiPixelDigitizerAlgorithm.h.

Referenced by pixel_inefficiency_db().

◆ theThresholdInE_BPix

const float SiPixelDigitizerAlgorithm::theThresholdInE_BPix
private

◆ theThresholdInE_BPix_L1

const float SiPixelDigitizerAlgorithm::theThresholdInE_BPix_L1
private

◆ theThresholdInE_BPix_L2

const float SiPixelDigitizerAlgorithm::theThresholdInE_BPix_L2
private

◆ theThresholdInE_FPix

const float SiPixelDigitizerAlgorithm::theThresholdInE_FPix
private

◆ theThresholdSmearing_BPix

const double SiPixelDigitizerAlgorithm::theThresholdSmearing_BPix
private

Definition at line 321 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and lateSignalReweight().

◆ theThresholdSmearing_BPix_L1

const double SiPixelDigitizerAlgorithm::theThresholdSmearing_BPix_L1
private

Definition at line 322 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and lateSignalReweight().

◆ theThresholdSmearing_BPix_L2

const double SiPixelDigitizerAlgorithm::theThresholdSmearing_BPix_L2
private

Definition at line 323 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and lateSignalReweight().

◆ theThresholdSmearing_FPix

const double SiPixelDigitizerAlgorithm::theThresholdSmearing_FPix
private

Definition at line 320 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and lateSignalReweight().

◆ theTofLowerCut

const float SiPixelDigitizerAlgorithm::theTofLowerCut
private

Definition at line 330 of file SiPixelDigitizerAlgorithm.h.

Referenced by accumulateSimHits().

◆ theTofUpperCut

const float SiPixelDigitizerAlgorithm::theTofUpperCut
private

Definition at line 331 of file SiPixelDigitizerAlgorithm.h.

Referenced by accumulateSimHits().

◆ tMax

const double SiPixelDigitizerAlgorithm::tMax
private

Definition at line 370 of file SiPixelDigitizerAlgorithm.h.

Referenced by fluctuateEloss(), and SiPixelDigitizerAlgorithm().

◆ use_deadmodule_DB_

const bool SiPixelDigitizerAlgorithm::use_deadmodule_DB_
private

Definition at line 283 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize(), and SiPixelDigitizerAlgorithm().

◆ use_ineff_from_db_

const bool SiPixelDigitizerAlgorithm::use_ineff_from_db_
private

Definition at line 281 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize().

◆ use_LorentzAngle_DB_

const bool SiPixelDigitizerAlgorithm::use_LorentzAngle_DB_
private

Definition at line 284 of file SiPixelDigitizerAlgorithm.h.

Referenced by DriftDirection(), and SiPixelDigitizerAlgorithm().

◆ use_module_killing_

const bool SiPixelDigitizerAlgorithm::use_module_killing_
private

Definition at line 282 of file SiPixelDigitizerAlgorithm.h.

Referenced by digitize().

◆ UseReweighting

const bool SiPixelDigitizerAlgorithm::UseReweighting
private