BTLElectronicsSim.h

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#ifndef __SimFastTiming_FastTimingCommon_BTLElectronicsSim_h__
#define __SimFastTiming_FastTimingCommon_BTLElectronicsSim_h__

#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/EventSetup.h"

#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "SimDataFormats/TrackingHit/interface/PSimHit.h"

#include "DataFormats/FTLDigi/interface/FTLDigiCollections.h"
#include "SimFastTiming/FastTimingCommon/interface/MTDDigitizerTypes.h"

#include "SimFastTiming/FastTimingCommon/interface/BTLPulseShape.h"

namespace mtd = mtd_digitizer;

namespace CLHEP {
  class HepRandomEngine;
}

class BTLElectronicsSim {
public:
  BTLElectronicsSim(const edm::ParameterSet& pset, edm::ConsumesCollector iC);

  void getEvent(const edm::Event& evt) {}

  void getEventSetup(const edm::EventSetup& evt) {}

  void run(const mtd::MTDSimHitDataAccumulator& input, BTLDigiCollection& output, CLHEP::HepRandomEngine* hre) const;

  void runTrivialShaper(BTLDataFrame& dataFrame,
                        const mtd::MTDSimHitData& chargeColl,
                        const mtd::MTDSimHitData& toa1,
                        const mtd::MTDSimHitData& toa2,
                        const uint8_t row,
                        const uint8_t col) const;

  void updateOutput(BTLDigiCollection& coll, const BTLDataFrame& rawDataFrame) const;

  static constexpr int dfSIZE = 2;

private:
  float sigma2_pe(const float& Q, const float& R) const;

  const bool debug_;

  const float bxTime_;
  const float testBeamMIPTimeRes_;
  const float ScintillatorRiseTime_;
  const float ScintillatorDecayTime_;
  const float ChannelTimeOffset_;
  const float smearChannelTimeOffset_;

  const float EnergyThreshold_;
  const float TimeThreshold1_;
  const float TimeThreshold2_;
  const float ReferencePulseNpe_;

  const float SinglePhotonTimeResolution_;
  const float DarkCountRate_;
  const float SigmaElectronicNoise_;
  const float SigmaClock_;
  const bool smearTimeForOOTtails_;
  const float Npe_to_pC_;
  const float Npe_to_V_;

  // adc/tdc bitwidths
  const uint32_t adcNbits_, tdcNbits_;

  // synthesized adc/tdc information
  const float adcSaturation_MIP_;
  const uint32_t adcBitSaturation_;
  const float adcLSB_MIP_;
  const float adcThreshold_MIP_;
  const float toaLSB_ns_;
  const uint32_t tdcBitSaturation_;

  const float CorrCoeff_;
  const float cosPhi_;
  const float sinPhi_;

  const float ScintillatorDecayTime2_;
  const float ScintillatorDecayTimeInv_;
  const float SPTR2_;
  const float DCRxRiseTime_;
  const float SigmaElectronicNoise2_;
  const float SigmaClock2_;

  const BTLPulseShape btlPulseShape_;
};

#endif