ME0SimpleModel Class Reference

#include <ME0SimpleModel.h>

Inheritance diagram for ME0SimpleModel:

Public Member Functions
int	getSimHitBx (const PSimHit *, CLHEP::HepRandomEngine *)
	ME0SimpleModel (const edm::ParameterSet &)
void	setup () override
std::vector< std::pair< int, int > >	simulateClustering (const ME0EtaPartition *, const PSimHit *, const int, CLHEP::HepRandomEngine *) override
void	simulateNoise (const ME0EtaPartition *, CLHEP::HepRandomEngine *) override
void	simulateSignal (const ME0EtaPartition *, const edm::PSimHitContainer &, CLHEP::HepRandomEngine *) override
	~ME0SimpleModel () override
Public Member Functions inherited from ME0DigiModel
void	fillDigis (int rollDetId, ME0DigiCollection &)
const ME0Geometry *	getGeometry ()
const ME0DigiSimLinks &	me0DigiSimLinks () const
void	setGeometry (const ME0Geometry *geom)
const StripDigiSimLinks &	stripDigiSimLinks () const
virtual	~ME0DigiModel ()

Private Attributes
double	averageEfficiency_
double	averageNoiseRate_
double	averageShapingTime_
int	bxwidth_
bool	digitizeOnlyMuons_
bool	doBkgNoise_
bool	doNoiseCLS_
bool	fixedRollRadius_
double	instLumi_
int	maxBunch_
double	ME0ElecBkgParam0_
double	ME0ElecBkgParam1_
double	ME0ElecBkgParam2_
double	ME0ElecBkgParam3_
double	ME0NeuBkgParam0_
double	ME0NeuBkgParam1_
double	ME0NeuBkgParam2_
double	ME0NeuBkgParam3_
int	minBunch_
double	rateFact_
double	referenceInstLumi_
double	signalPropagationSpeed_
bool	simulateElectronBkg_
bool	simulateIntrinsicNoise_
double	timeJitter_
double	timeResolution_

Additional Inherited Members
Public Types inherited from ME0DigiModel
typedef edm::DetSet< ME0DigiSimLink >	ME0DigiSimLinks
typedef edm::DetSet< StripDigiSimLink >	StripDigiSimLinks
Protected Types inherited from ME0DigiModel
typedef std::multimap< std::pair< unsigned int, int >, const PSimHit *, std::less< std::pair< unsigned int, int > > >	DetectorHitMap
Protected Member Functions inherited from ME0DigiModel
void	addLinks (unsigned int strip, int bx)
	creates links from Digi to SimTrack More...
void	addLinksWithPartId (unsigned int strip, int bx)
	ME0DigiModel (const edm::ParameterSet &)
Protected Attributes inherited from ME0DigiModel
DetectorHitMap	detectorHitMap_
const ME0Geometry *	geometry_
StripDigiSimLinks	stripDigiSimLinks_
std::set< std::pair< int, int > >	strips_
ME0DigiSimLinks	theME0DigiSimLinks_

Detailed Description

Class for the ME0 strip response simulation based on a very simple model

Author

Sven Dildick by Roumyana Hadjiiska

Definition at line 24 of file ME0SimpleModel.h.

Constructor & Destructor Documentation

ME0SimpleModel::ME0SimpleModel

(

const edm::ParameterSet &

config

)

Definition at line 17 of file ME0SimpleModel.cc.

                                                            :
ME0DigiModel(config)
, averageEfficiency_(config.getParameter<double> ("averageEfficiency"))
, averageShapingTime_(config.getParameter<double> ("averageShapingTime"))
, timeResolution_(config.getParameter<double> ("timeResolution"))
, timeJitter_(config.getParameter<double> ("timeJitter"))
, averageNoiseRate_(config.getParameter<double> ("averageNoiseRate"))
, signalPropagationSpeed_(config.getParameter<double> ("signalPropagationSpeed"))
, bxwidth_(config.getParameter<int> ("bxwidth"))
, minBunch_(config.getParameter<int> ("minBunch"))
, maxBunch_(config.getParameter<int> ("maxBunch"))
, digitizeOnlyMuons_(config.getParameter<bool> ("digitizeOnlyMuons"))
, doBkgNoise_(config.getParameter<bool> ("doBkgNoise"))
, doNoiseCLS_(config.getParameter<bool> ("doNoiseCLS"))
, fixedRollRadius_(config.getParameter<bool> ("fixedRollRadius"))
, simulateElectronBkg_(config.getParameter<bool> ("simulateElectronBkg"))
, instLumi_(config.getParameter<double> ("instLumi"))
, rateFact_(config.getParameter<double> ("rateFact"))
, referenceInstLumi_(config.getParameter<double> ("referenceInstLumi"))
, ME0ElecBkgParam0_(config.getParameter<double> ("ME0ElecBkgParam0"))
, ME0ElecBkgParam1_(config.getParameter<double> ("ME0ElecBkgParam1"))
, ME0ElecBkgParam2_(config.getParameter<double> ("ME0ElecBkgParam2"))
, ME0ElecBkgParam3_(config.getParameter<double> ("ME0ElecBkgParam3"))
, ME0NeuBkgParam0_(config.getParameter<double> ("ME0NeuBkgParam0"))
, ME0NeuBkgParam1_(config.getParameter<double> ("ME0NeuBkgParam1"))
, ME0NeuBkgParam2_(config.getParameter<double> ("ME0NeuBkgParam2"))
, ME0NeuBkgParam3_(config.getParameter<double> ("ME0NeuBkgParam3"))
{
}

ME0SimpleModel::~ME0SimpleModel ( )

override

Definition at line 47 of file ME0SimpleModel.cc.

{
}

Member Function Documentation

int ME0SimpleModel::getSimHitBx	(	const PSimHit *	simhit,
		CLHEP::HepRandomEngine *	engine
	)

Definition at line 100 of file ME0SimpleModel.cc.

References averageShapingTime_, bxwidth_, debug, PSimHit::detUnitId(), ME0Geometry::etaPartition(), Exception, ME0DigiModel::geometry_, triggerObjects_cff::id, PSimHit::localPosition(), LogDebug, signalPropagationSpeed_, mathSSE::sqrt(), timeJitter_, PSimHit::timeOfFlight(), timeResolution_, PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().

Referenced by simulateSignal().

{
  int bx = -999;
  const LocalPoint& simHitPos(simhit->localPosition());
  const float tof(simhit->timeOfFlight());
  // random Gaussian time correction due to electronics jitter
  float randomJitterTime = CLHEP::RandGaussQ::shoot(engine, 0., timeJitter_);
  const ME0DetId& id(simhit->detUnitId());
  const ME0EtaPartition* roll(geometry_->etaPartition(id));
  if (!roll)
  {
    throw cms::Exception("Geometry")<< "ME0SimpleModel::getSimHitBx() - ME0 simhit id does not match any ME0 roll id: " << id << "\n";
    return 999;
  }
  if (roll->id().region() == 0)
  {
    throw cms::Exception("Geometry") << "ME0SimpleModel::getSimHitBx() - this ME0 id is from barrel, which cannot happen: " << roll->id() << "\n";
  }
  const int nstrips = roll->nstrips();
  float middleStrip = nstrips/2.;
  const LocalPoint& middleOfRoll = roll->centreOfStrip(middleStrip);
  const GlobalPoint& globMiddleRol = roll->toGlobal(middleOfRoll);
  double muRadius = sqrt(globMiddleRol.x()*globMiddleRol.x() + globMiddleRol.y()*globMiddleRol.y() +globMiddleRol.z()*globMiddleRol.z());
  double timeCalibrationOffset_ = (muRadius*CLHEP::ns*CLHEP::cm)/(CLHEP::c_light); //[cm/ns]
  const TrapezoidalStripTopology* top(dynamic_cast<const TrapezoidalStripTopology*> (&(roll->topology())));
  const float halfStripLength(0.5 * top->stripLength());
  const float distanceFromEdge(halfStripLength - simHitPos.y());

  // signal propagation speed in material in [cm/ns]
  double signalPropagationSpeedTrue = signalPropagationSpeed_ * CLHEP::c_light/(CLHEP::ns*CLHEP::cm);
  // average time for the signal to propagate from the SimHit to the top of a strip
  const float averagePropagationTime(distanceFromEdge / signalPropagationSpeedTrue);
  // random Gaussian time correction due to the finite timing resolution of the detector
  float randomResolutionTime = CLHEP::RandGaussQ::shoot(engine, 0., timeResolution_);
  const float simhitTime(tof + averageShapingTime_ + randomResolutionTime + averagePropagationTime + randomJitterTime);
  float referenceTime = 0.;
  referenceTime = timeCalibrationOffset_ + halfStripLength / signalPropagationSpeedTrue + averageShapingTime_;
  const float timeDifference(simhitTime - referenceTime);
  // assign the bunch crossing
  bx = static_cast<int> (std::round((timeDifference) / bxwidth_));

  // check time
  const bool debug(false);
  if (debug)
  {
    LogDebug("ME0SimpleModel")<<  "checktime " << "bx = " << bx << "\tdeltaT = " << timeDifference << "\tsimT =  " << simhitTime 
        << "\trefT =  " << referenceTime << "\ttof = " << tof << "\tavePropT =  " << averagePropagationTime
        << "\taveRefPropT = " << halfStripLength / signalPropagationSpeedTrue << std::endl;
  }
  return bx;
}

void ME0SimpleModel::setup ( )

overridevirtual

Implements ME0DigiModel.

Definition at line 51 of file ME0SimpleModel.cc.

{
  return;
}

std::vector< std::pair< int, int > > ME0SimpleModel::simulateClustering ( const ME0EtaPartition *  roll, const PSimHit *  simHit, const int  bx, CLHEP::HepRandomEngine *  engine  )

overridevirtual

Implements ME0DigiModel.

Definition at line 249 of file ME0SimpleModel.cc.

References averageEfficiency_, ME0EtaPartition::centreOfStrip(), Topology::channel(), PSimHit::localPosition(), ME0EtaPartition::nstrips(), ME0EtaPartition::specificTopology(), GeomDet::toGlobal(), ecaldqm::topology(), and PV3DBase< T, PVType, FrameType >::x().

Referenced by simulateSignal().

{
  const StripTopology& topology = roll->specificTopology();
  const LocalPoint& hit_position(simHit->localPosition());
  const int nstrips(roll->nstrips());
  int centralStrip = 0;
  if (!(topology.channel(hit_position) + 1 > nstrips))
    centralStrip = topology.channel(hit_position) + 1;
  else
    centralStrip = topology.channel(hit_position);
  const GlobalPoint& pointSimHit = roll->toGlobal(hit_position);
  const GlobalPoint& pointDigiHit = roll->toGlobal(roll->centreOfStrip(centralStrip));
  double deltaX = pointSimHit.x() - pointDigiHit.x();

  // Add central digi to cluster vector
  std::vector < std::pair<int, int> > cluster;
  cluster.clear();
  cluster.emplace_back(centralStrip, bx);

  //simulate cross talk
  int clusterSize((CLHEP::RandFlat::shoot(engine)) <= 0.53 ? 1 : 2);
  if (clusterSize == 2)
  {
    if (deltaX <= 0)
    {
      if (CLHEP::RandFlat::shoot(engine) < averageEfficiency_ && (centralStrip - 1 > 0))
    cluster.emplace_back(centralStrip - 1, bx);
    }
    else
    {
      if (CLHEP::RandFlat::shoot(engine) < averageEfficiency_ && (centralStrip + 1 <= nstrips))
    cluster.emplace_back(centralStrip + 1, bx);
    }
  }
  return cluster;
}

void ME0SimpleModel::simulateNoise ( const ME0EtaPartition *  roll, CLHEP::HepRandomEngine *  engine  )

overridevirtual

Implements ME0DigiModel.

Definition at line 152 of file ME0SimpleModel.cc.

References averageEfficiency_, averageNoiseRate_, bxwidth_, doBkgNoise_, doNoiseCLS_, MillePedeFileConverter_cfg::e, Exception, JetChargeProducer_cfi::exp, fixedRollRadius_, mps_fire::i, ME0EtaPartition::id(), instLumi_, gen::k, maxBunch_, ME0ElecBkgParam0_, ME0ElecBkgParam1_, ME0ElecBkgParam2_, ME0ElecBkgParam3_, ME0NeuBkgParam0_, ME0NeuBkgParam1_, ME0NeuBkgParam2_, ME0NeuBkgParam3_, minBunch_, ME0EtaPartition::nstrips(), ME0EtaPartition::pitch(), rateFact_, referenceInstLumi_, simulateElectronBkg_, simulateIntrinsicNoise_, mathSSE::sqrt(), ME0DigiModel::strips_, and ME0EtaPartition::topology().

{
  if (!doBkgNoise_)
    return;
  const ME0DetId me0Id(roll->id());
  const int nstrips(roll->nstrips());
  double trArea(0.0);
  double trStripArea(0.0);

  if (me0Id.region() == 0)
  {
    throw cms::Exception("Geometry")
        << "ME0Synchronizer::simulateNoise() - this ME0 id is from barrel, which cannot happen.";
  }
  const TrapezoidalStripTopology* top_(dynamic_cast<const TrapezoidalStripTopology*>(&(roll->topology())));
  const float striplength(top_->stripLength());
  trStripArea = (roll->pitch()) * striplength;
  trArea = trStripArea * nstrips;
  const int nBxing(maxBunch_ - minBunch_ + 1);
  const float rollRadius(fixedRollRadius_ ? top_->radius() : 
             top_->radius() + CLHEP::RandFlat::shoot(engine, -1.*top_->stripLength()/2., top_->stripLength()/2.));

  const float rSqrtR = rollRadius * sqrt(rollRadius);

  //calculate noise from model
  double averageNeutralNoiseRatePerRoll = 0.;
  double averageNoiseElectronRatePerRoll = 0.;
  double averageNoiseRatePerRoll = 0.;
  if (me0Id.station() != 1)
  {
    throw cms::Exception("Geometry") << "ME0SimpleModel::simulateNoise() - this ME0 id is from station 1, which cannot happen: " <<roll->id() << "\n";
  }
  else
  {
    averageNeutralNoiseRatePerRoll = ME0NeuBkgParam0_ * rollRadius* std::exp(ME0NeuBkgParam1_/rSqrtR) + ME0NeuBkgParam2_/rSqrtR + ME0NeuBkgParam3_/(sqrt(rollRadius));
    //simulate electron background for ME0
    if (simulateElectronBkg_)
      averageNoiseElectronRatePerRoll = ME0ElecBkgParam0_ * rSqrtR* std::exp(ME0ElecBkgParam1_/rSqrtR) + ME0ElecBkgParam2_/rSqrtR + ME0ElecBkgParam3_/(sqrt(rollRadius));
    averageNoiseRatePerRoll = averageNeutralNoiseRatePerRoll + averageNoiseElectronRatePerRoll;
    averageNoiseRatePerRoll *= instLumi_*rateFact_*1.0/referenceInstLumi_;  
  }

  //simulate intrinsic noise
  if(simulateIntrinsicNoise_)
  {
    const double aveIntrinsicNoisePerStrip(averageNoiseRate_ * nBxing * bxwidth_ * trStripArea * 1.0e-9);
    for(int j = 0; j < nstrips; ++j)
    {
      int randPoissonQ = CLHEP::RandPoissonQ::shoot(engine, aveIntrinsicNoisePerStrip); 
    
      for (int k = 0; k < randPoissonQ; k++ )
      {
        const int time_hit(static_cast<int>(CLHEP::RandFlat::shoot(engine, nBxing)) + minBunch_);
    strips_.emplace(k+1,time_hit);
      }
    }
  }//end simulate intrinsic noise

  //simulate bkg contribution
  const double averageNoise(averageNoiseRatePerRoll * nBxing * bxwidth_ * trArea * 1.0e-9);
  int randPoissonQ = CLHEP::RandPoissonQ::shoot(engine, averageNoise);

  for (int i = 0; i < randPoissonQ; ++i)
  {
    const int centralStrip(static_cast<int> (CLHEP::RandFlat::shoot(engine, 1, nstrips)));
    const int time_hit(static_cast<int>(CLHEP::RandFlat::shoot(engine, nBxing)) + minBunch_);
    if (doNoiseCLS_)
    {
      std::vector < std::pair<int, int> > cluster;
      cluster.emplace_back(centralStrip, time_hit);
      int clusterSize((CLHEP::RandFlat::shoot(engine)) <= 0.53 ? 1 : 2);
      if (clusterSize == 2)
      {
        if(CLHEP::RandFlat::shoot(engine) < 0.5)
        {
          if (CLHEP::RandFlat::shoot(engine) < averageEfficiency_ && (centralStrip - 1 > 0))
            cluster.emplace_back(centralStrip - 1, time_hit);
        }
        else
        {
          if (CLHEP::RandFlat::shoot(engine) < averageEfficiency_ && (centralStrip + 1 <= nstrips))
            cluster.emplace_back(centralStrip + 1, time_hit);
        }
      }
      for (const auto& digi : cluster)
      {
    strips_.emplace(digi);
      }
    } //end doNoiseCLS_
    else
    {
      strips_.emplace(centralStrip, time_hit);
    }
  }
  return;
}

void ME0SimpleModel::simulateSignal ( const ME0EtaPartition *  roll, const edm::PSimHitContainer &  simHits, CLHEP::HepRandomEngine *  engine  )

overridevirtual

Implements ME0DigiModel.

Definition at line 56 of file ME0SimpleModel.cc.

References funct::abs(), averageEfficiency_, edm::DetSet< T >::clear(), ME0DigiModel::detectorHitMap_, digitizeOnlyMuons_, MillePedeFileConverter_cfg::e, JetChargeProducer_cfi::exp, getSimHitBx(), ME0EtaPartition::id(), cmsBatch::log, DetId::rawId(), simulateClustering(), ME0DigiModel::stripDigiSimLinks_, ME0DigiModel::strips_, and ME0DigiModel::theME0DigiSimLinks_.

{
  stripDigiSimLinks_.clear();
  detectorHitMap_.clear();
  stripDigiSimLinks_ = StripDigiSimLinks(roll->id().rawId());

  theME0DigiSimLinks_.clear();
  theME0DigiSimLinks_ = ME0DigiSimLinks(roll->id().rawId());
  bool digiMuon = false;
  bool digiElec = false;
  for (const auto& hit : simHits)
  {
    if (std::abs(hit.particleType()) != 13 && digitizeOnlyMuons_)
      continue;
    double elecEff = 0.;
    double partMom = hit.pabs();
    double checkMuonEff = CLHEP::RandFlat::shoot(engine, 0., 1.);
    double checkElecEff = CLHEP::RandFlat::shoot(engine, 0., 1.);
    if (std::abs(hit.particleType()) == 13 && checkMuonEff < averageEfficiency_)
      digiMuon = true;
    if (std::abs(hit.particleType()) != 13) //consider all non muon particles with me0 efficiency to electrons
    {
      if (partMom <= 1.95e-03)
        elecEff = 1.7e-05 * std::exp(2.1 * partMom * 1000.);
      if (partMom > 1.95e-03 && partMom < 10.e-03)
        elecEff = 1.34 * log(7.96e-01 * partMom * 1000. - 5.75e-01)
            / (1.34 + log(7.96e-01 * partMom * 1000. - 5.75e-01));
      if (partMom > 10.e-03)
        elecEff = 1.;
      if (checkElecEff < elecEff)
        digiElec = true;
    }
   if (!(digiMuon || digiElec))
      continue;
    const int bx(getSimHitBx(&hit, engine));
    const std::vector<std::pair<int, int> >& cluster(simulateClustering(roll, &hit, bx, engine));
    for (const auto & digi : cluster)
    {
      detectorHitMap_.emplace(digi,&hit);
      strips_.emplace(digi);
    }
  }
}

Member Data Documentation

double ME0SimpleModel::averageEfficiency_

private

Definition at line 46 of file ME0SimpleModel.h.

Referenced by simulateClustering(), simulateNoise(), and simulateSignal().

double ME0SimpleModel::averageNoiseRate_

private

Definition at line 50 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::averageShapingTime_

private

Definition at line 47 of file ME0SimpleModel.h.

Referenced by getSimHitBx().

int ME0SimpleModel::bxwidth_

private

Definition at line 52 of file ME0SimpleModel.h.

Referenced by getSimHitBx(), and simulateNoise().

bool ME0SimpleModel::digitizeOnlyMuons_

private

Definition at line 55 of file ME0SimpleModel.h.

Referenced by simulateSignal().

bool ME0SimpleModel::doBkgNoise_

private

Definition at line 56 of file ME0SimpleModel.h.

Referenced by simulateNoise().

bool ME0SimpleModel::doNoiseCLS_

private

Definition at line 57 of file ME0SimpleModel.h.

Referenced by simulateNoise().

bool ME0SimpleModel::fixedRollRadius_

private

Definition at line 58 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::instLumi_

private

Definition at line 61 of file ME0SimpleModel.h.

Referenced by simulateNoise().

int ME0SimpleModel::maxBunch_

private

Definition at line 54 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0ElecBkgParam0_

private

Definition at line 65 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0ElecBkgParam1_

private

Definition at line 66 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0ElecBkgParam2_

private

Definition at line 67 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0ElecBkgParam3_

private

Definition at line 68 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0NeuBkgParam0_

private

Definition at line 70 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0NeuBkgParam1_

private

Definition at line 71 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0NeuBkgParam2_

private

Definition at line 72 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::ME0NeuBkgParam3_

private

Definition at line 73 of file ME0SimpleModel.h.

Referenced by simulateNoise().

int ME0SimpleModel::minBunch_

private

Definition at line 53 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::rateFact_

private

Definition at line 62 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::referenceInstLumi_

private

Definition at line 63 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::signalPropagationSpeed_

private

Definition at line 51 of file ME0SimpleModel.h.

Referenced by getSimHitBx().

bool ME0SimpleModel::simulateElectronBkg_

private

Definition at line 60 of file ME0SimpleModel.h.

Referenced by simulateNoise().

bool ME0SimpleModel::simulateIntrinsicNoise_

private

Definition at line 59 of file ME0SimpleModel.h.

Referenced by simulateNoise().

double ME0SimpleModel::timeJitter_

private

Definition at line 49 of file ME0SimpleModel.h.

Referenced by getSimHitBx().

double ME0SimpleModel::timeResolution_

private

Definition at line 48 of file ME0SimpleModel.h.

Referenced by getSimHitBx().