#include <FP420DigiMain.h>

Public Types
typedef float	Amplitude

typedef DConverterFP420::DigitalMapType	DigitalMapType

typedef std::map< int, float, std::less< int > >	hit_map_type

typedef PileUpFP420::HitToDigisMapType	HitToDigisMapType

Public Member Functions
	FP420DigiMain (const edm::ParameterSet &conf)

std::vector< HDigiFP420 >	run (const std::vector< PSimHit > &input, G4ThreeVector, unsigned int)

	~FP420DigiMain ()

Private Member Functions
void	fluctuateEloss (int particleId, float momentum, float eloss, float length, int NumberOfSegments, float elossVector[])

void	push_digis (const DigitalMapType &, const HitToDigisMapType &, const PileUpFP420::signal_map_type &)

Private Attributes
std::vector< short int >	adcVec

bool	addNoisyPixels

double	appliedVoltage

double	chargeDistributionRMS

double	chargeMobility

float	ClusterWidth

edm::ParameterSet	conf_

double	depletionVoltage

std::vector< HDigiFP420 >	digis

bool	doMissCalibrate

float	elossCut

float	ENC

LandauFP420	fluctuate

double	ldrift

double	ldriftX

double	ldriftY

float	moduleThickness

int	ndigis

bool	noDiffusion

bool	noNoise

int	NumberOfSegments

int	numStrips

int	numStripsW

int	numStripsX

int	numStripsXW

int	numStripsY

int	numStripsYW

double	pitch

double	pitchW

double	pitchX

double	pitchXW

double	pitchY

double	pitchYW

float	Sigma0

std::vector< const PSimHit * >	ss

double	temperature

int	theAdcFullScale

bool	theApplyTofCut

CDividerFP420 *	theCDividerFP420

ChargeDrifterFP420 *	theCDrifterFP420

DigiConverterFP420 *	theDConverterFP420

float	theElectronPerADC

FP420NumberingScheme *	theFP420NumberingScheme

float	theGainSmearing

GaussNoiseFP420 *	theGNoiseFP420

HitDigitizerFP420 *	theHitDigitizerFP420

float	theNoiseInElectrons

GaussNoiseProducerFP420 *	theNoiser

float	theOffsetSmearing

PileUpFP420 *	thePileUpFP420

int	theStripsInChip

float	theStripThreshold

float	theStripThresholdInE

float	theThreshold

double	thez420

double	thezD2

double	thezD3

ZeroSuppressFP420 *	theZSuppressFP420

float	Thick300

double	tMax

double	tofCut

int	verbosity

int	xytype

Detailed Description

Definition at line 32 of file FP420DigiMain.h.

Member Typedef Documentation

typedef float FP420DigiMain::Amplitude

Definition at line 37 of file FP420DigiMain.h.

typedef DConverterFP420::DigitalMapType FP420DigiMain::DigitalMapType

Definition at line 39 of file FP420DigiMain.h.

typedef std::map<int, float, std::less<int> > FP420DigiMain::hit_map_type

Definition at line 36 of file FP420DigiMain.h.

typedef PileUpFP420::HitToDigisMapType FP420DigiMain::HitToDigisMapType

Definition at line 40 of file FP420DigiMain.h.

Constructor & Destructor Documentation

FP420DigiMain::FP420DigiMain ( const edm::ParameterSet & conf )

Definition at line 42 of file FP420DigiMain.cc.

References addNoisyPixels, conf_, gather_cfg::cout, elossCut, ENC, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), ldrift, ldriftX, ldriftY, moduleThickness, ndigis, noNoise, numStrips, numStripsW, numStripsX, numStripsXW, numStripsY, numStripsYW, pitch, pitchW, pitchX, pitchXW, pitchY, pitchYW, theApplyTofCut, theDConverterFP420, theElectronPerADC, theFP420NumberingScheme, theGNoiseFP420, theHitDigitizerFP420, thePileUpFP420, theThreshold, thez420, thezD2, thezD3, theZSuppressFP420, Thick300, tofCut, verbosity, and xytype.

                                                        :conf_(conf){
   std::cout << "Creating a FP420DigiMain" << std::endl;
   ndigis=0;
   verbosity        = conf_.getUntrackedParameter<int>("VerbosityLevel");
   theElectronPerADC= conf_.getParameter<double>("ElectronFP420PerAdc");
   theThreshold     = conf_.getParameter<double>("AdcFP420Threshold");
   noNoise          = conf_.getParameter<bool>("NoFP420Noise");
   addNoisyPixels   = conf_.getParameter<bool>("AddNoisyPixels");
   thez420          = conf_.getParameter<double>("z420");
   thezD2           = conf_.getParameter<double>("zD2");
   thezD3           = conf_.getParameter<double>("zD3");
   theApplyTofCut   = conf_.getParameter<bool>("ApplyTofCut");
   tofCut           = conf_.getParameter<double>("LowtofCutAndTo200ns");
   //  sn0              = 3;// number of stations
   // pn0              = 6;// number of superplanes
   // rn0              = 3; // number of sensors in superlayer
   xytype           = 2;
   if(verbosity>0) {
     std::cout << "theApplyTofCut=" << theApplyTofCut << " tofCut=" << tofCut << std::endl;
     std::cout << "FP420DigiMain theElectronPerADC=" << theElectronPerADC << " theThreshold=" << theThreshold << " noNoise=" << noNoise << std::endl;
   }
   // X (or Y)define type of sensor (xytype=1 or 2 used to derive it: 1-Y, 2-X)
   // for every type there is normal pixel size=0.05 and Wide 0.400 mm
   Thick300 = 0.300;       // = 0.300 mm  normalized to 300micron Silicon
   //ENC= 2160.;             //          EquivalentNoiseCharge300um = 2160. + other sources of noise
   ENC= 960.;             //          EquivalentNoiseCharge300um = 2160. + other sources of noise
   
   ldriftX = 0.050;        // in mm(xytype=1)
   ldriftY = 0.050;        // in mm(xytype=2)
   moduleThickness = 0.250; // mm(xytype=1)(xytype=2)
   
   pitchY= 0.050;          // in mm(xytype=1)
   pitchX= 0.050;          // in mm(xytype=2)
   //numStripsY = 200;        // Y plate number of strips:200*0.050=10mm (xytype=1)
   //numStripsX = 400;        // X plate number of strips:400*0.050=20mm (xytype=2)
   numStripsY = 144;        // Y plate number of strips:144*0.050=7.2mm (xytype=1)
   numStripsX = 160;        // X plate number of strips:160*0.050=8.0mm (xytype=2)
   
   pitchYW= 0.400;          // in mm(xytype=1)
   pitchXW= 0.400;          // in mm(xytype=2)
   //numStripsYW = 50;        // Y plate number of W strips:50 *0.400=20mm (xytype=1) - W have ortogonal projection
   //numStripsXW = 25;        // X plate number of W strips:25 *0.400=10mm (xytype=2) - W have ortogonal projection
   numStripsYW = 20;        // Y plate number of W strips:20 *0.400=8.0mm (xytype=1) - W have ortogonal projection
   numStripsXW = 18;        // X plate number of W strips:18 *0.400=7.2mm (xytype=2) - W have ortogonal projection
   
   //  tofCut = 1350.;           // Cut on the particle TOF range  = 1380 - 1500
   elossCut = 0.00003;           // Cut on the particle TOF   = 100 or 50
   
   if(verbosity>0) std::cout << "FP420DigiMain moduleThickness=" << moduleThickness << std::endl;
   
   theFP420NumberingScheme = new FP420NumberingScheme();
   
   float noiseRMS = ENC*moduleThickness/Thick300;
   
 
 
   // Y:
   if (xytype ==1) {
     numStrips = numStripsY;  // Y plate number of strips:200*0.050=10mm --> 100*0.100=10mm
     pitch= pitchY;
     ldrift = ldriftX; // because drift is in local coordinates which 90 degree rotated ( for correct timeNormalization & noiseRMS calculations)
     numStripsW = numStripsYW;  // Y plate number of strips:200*0.050=10mm --> 100*0.100=10mm
     pitchW= pitchYW;
   }
   // X:
   if (xytype ==2) {
     numStrips = numStripsX;  // X plate number of strips:400*0.050=20mm --> 200*0.100=20mm
     pitch= pitchX;
     ldrift = ldriftY; // because drift is in local coordinates which 90 degree rotated ( for correct timeNormalization & noiseRMS calculations)
     numStripsW = numStripsXW;  // X plate number of strips:400*0.050=20mm --> 200*0.100=20mm
     pitchW= pitchXW;
   }
   
   //  float noiseRMS = ENC*moduleThickness/Thick300;
   
   
   theHitDigitizerFP420 = new HitDigitizerFP420(moduleThickness,ldrift,ldriftY,ldriftX,thez420,thezD2,thezD3,verbosity);
   int numPixels = numStrips*numStripsW;
   theGNoiseFP420 = new GaussNoiseFP420(numPixels,noiseRMS,theThreshold,addNoisyPixels,verbosity);
   //  theGNoiseFP420 = new GaussNoiseFP420(numStrips,noiseRMS,theThreshold,addNoisyPixels);
 
 
 
 
   theZSuppressFP420 = new ZeroSuppressFP420(conf_,noiseRMS/theElectronPerADC); 
   thePileUpFP420 = new PileUpFP420();
   theDConverterFP420 = new DigiConverterFP420(theElectronPerADC,verbosity);
   
   if(verbosity>0) std::cout << "FP420DigiMain end of constructor" << std::endl;
 
 }

FP420DigiMain::~FP420DigiMain ( )

Definition at line 142 of file FP420DigiMain.cc.

References gather_cfg::cout, theDConverterFP420, theGNoiseFP420, theHitDigitizerFP420, thePileUpFP420, theZSuppressFP420, and verbosity.

                              {
   if(verbosity>0) {
     std::cout << "Destroying a FP420DigiMain" << std::endl;
   }
   delete theGNoiseFP420;
   delete theZSuppressFP420;
   delete theHitDigitizerFP420;
   delete thePileUpFP420;
   delete theDConverterFP420;
   
 }

Member Function Documentation

void FP420DigiMain::fluctuateEloss	(	int	particleId,
		float	momentum,
		float	eloss,
		float	length,
		int	NumberOfSegments,
		float	elossVector[]
	)

private

void FP420DigiMain::push_digis	(	const DigitalMapType &	dm,
		const HitToDigisMapType &	htd,
		const PileUpFP420::signal_map_type &	afterNoise
	)

private

Definition at line 268 of file FP420DigiMain.cc.

References gather_cfg::cout, digis, i, ndigis, and verbosity.

Referenced by run().

                             {
   //  
   if(verbosity>0) {
     std::cout << " ****FP420DigiMain: push_digis start: do for loop dm.size()=" <<  dm.size() << std::endl;
   }
   
   
   digis.reserve(50); 
   digis.clear();
   //   link_coll.clear();
   for ( DigitalMapType::const_iterator i=dm.begin(); i!=dm.end(); i++) {
     
     // Load digis
     // push to digis the content of first and second words of HDigiFP420 vector for every strip pointer (*i)
     digis.push_back( HDigiFP420( (*i).first, (*i).second));
     ndigis++; 
     // very useful check:
     if(verbosity>0) {
       std::cout << " ****FP420DigiMain:push_digis:  ndigis = " << ndigis << std::endl;
       std::cout << "push_digis: strip  = " << (*i).first << "  adc = " << (*i).second << std::endl;
     }    
     
   }
   
   /*       
   //
   // reworked to access the fraction of amplitude per simhit PSimHit
   //
   for ( HitToDigisMapType::const_iterator mi=htd.begin(); mi!=htd.end(); mi++) {
   #ifdef mydigidebug1
   std::cout << " ****push_digis:first for:  (*mi).first = " << (*mi).first << std::endl;
   std::cout << " if condition   = " << (*((const_cast<DigitalMapType * >(&dm))))[(*mi).first] << std::endl;
   #endif
   //    if ((*((const_cast<DigitalMapType * >(&dm))))[(*mi).first] != 0){
   if ((*((const_cast<DigitalMapType * >(&dm)))).find((*mi).first) != (*((const_cast<DigitalMapType * >(&dm)))).end() ){
   //
   // For each channel, sum up the signals from a simtrack
   //
   std::map<const PSimHit *, Amplitude> totalAmplitudePerSimHit;
   for (std::vector < std::pair < const PSimHit*, Amplitude > >::const_iterator simul = 
   (*mi).second.begin() ; simul != (*mi).second.end(); simul ++){
   #ifdef mydigidebug1
   std::cout << " ****push_digis:inside last for: (*simul).second= " << (*simul).second << std::endl;
   #endif
   totalAmplitudePerSimHit[(*simul).first] += (*simul).second;
   } // for
   }  // if
   } // for
   */
   
     
     // reworked to access the fraction of amplitude per simhit
     
     for ( HitToDigisMapType::const_iterator mi=htd.begin(); mi!=htd.end(); mi++) {
       //      
       if ((*((const_cast<DigitalMapType * >(&dm)))).find((*mi).first) != (*((const_cast<DigitalMapType * >(&dm)))).end() ){
     // --- For each channel, sum up the signals from a simtrack
     //
     map<const PSimHit *, Amplitude> totalAmplitudePerSimHit;
     for (std::vector < std::pair < const PSimHit*, Amplitude > >::const_iterator simul =
            (*mi).second.begin() ; simul != (*mi).second.end(); simul ++){
       totalAmplitudePerSimHit[(*simul).first] += (*simul).second;
     }
     /*  
     //--- include the noise as well
     
     PileUpFP420::signal_map_type& temp1 = const_cast<PileUpFP420::signal_map_type&>(afterNoise);
     float totalAmplitude1 = temp1[(*mi).first];
     
     //--- digisimlink
     for (std::map<const PSimHit *, Amplitude>::const_iterator iter = totalAmplitudePerSimHit.begin();
     iter != totalAmplitudePerSimHit.end(); iter++){
     
     float threshold = 0.;
     if (totalAmplitudePerSimHit[(*iter).first]/totalAmplitude1 >= threshold) {
     float fraction = totalAmplitudePerSimHit[(*iter).first]/totalAmplitude1;
     
     //Noise fluctuation could make fraction>1. Unphysical, set it by hand.
     if(fraction >1.) fraction = 1.;
     
     link_coll.push_back(StripDigiSimLink( (*mi).first,   //channel
     ((*iter).first)->trackId(), //simhit
     fraction));    //fraction
     }//if
     }//for
     */
     //
       }//if
     }//for
     //
     //
       //      
       //      
       //      
       }

vector< HDigiFP420 > FP420DigiMain::run	(	const std::vector< PSimHit > &	input,
		G4ThreeVector	bfield,
		unsigned int	iu
	)

Definition at line 159 of file FP420DigiMain.cc.

References abs, PileUpFP420::add(), GaussNoiseFP420::addNoise(), DigiConverterFP420::convert(), gather_cfg::cout, PSimHit::detUnitId(), digis, PileUpFP420::dumpLink(), PileUpFP420::dumpSignal(), elossCut, PSimHit::energyLoss(), PSimHit::entryPoint(), PSimHit::exitPoint(), first, moduleThickness, noNoise, numStrips, numStripsW, PSimHit::pabs(), PSimHit::particleType(), pitch, pitchW, HitDigitizerFP420::processHit(), push_digis(), PileUpFP420::reset(), theApplyTofCut, theDConverterFP420, theGNoiseFP420, theHitDigitizerFP420, thePileUpFP420, theZSuppressFP420, PSimHit::tof(), tofCut, PSimHit::trackId(), verbosity, PV3DBase< T, PVType, FrameType >::x(), xytype, PV3DBase< T, PVType, FrameType >::y(), PV3DBase< T, PVType, FrameType >::z(), and ZeroSuppressFP420::zeroSuppress().

Referenced by cms::DigitizerFP420::produce().

                                                                 {
 
   /*  
   int det, zside, sector, zmodule;
   //  theFP420NumberingScheme->FP420NumberingScheme::unpackMYIndex(iu, rn0, pn0, sn0, det, zside, sector, zmodule);
   theFP420NumberingScheme->unpackMYIndex(iu, rn0, pn0, sn0, det, zside, sector, zmodule);
 */  
   thePileUpFP420->reset();
   //  unsigned int detID = det->globalId().rawId();
   //  unsigned int detID = 1;
   bool first = true;
   
   // main loop 
   //
   // First: loop on the SimHits
   //
   std::vector<PSimHit>::const_iterator simHitIter = input.begin();
   std::vector<PSimHit>::const_iterator simHitIterEnd = input.end();
   for (;simHitIter != simHitIterEnd; ++simHitIter) {
     
     const PSimHit ihit = *simHitIter;
 
     if ( first ) {
       //       detID = ihit.detUnitId();
       first = false;
     }
 
     // main part here:
     double  losenergy = ihit.energyLoss();
     float   tof = ihit.tof();
 
     if(verbosity>1) {
       unsigned int unitID = ihit.detUnitId();
       std::cout << " *******FP420DigiMain:                           intindex= " << iu << std::endl;
       std::cout << " tof= " << tof << "  EnergyLoss= " << losenergy  << "  pabs= " <<  ihit.pabs() << std::endl;
       std::cout << " EntryLocalP x= " << ihit.entryPoint().x() << " EntryLocalP y= " << ihit.entryPoint().y() << std::endl;
       std::cout << " ExitLocalP x= " << ihit.exitPoint().x() << " ExitLocalP y= " << ihit.exitPoint().y() << std::endl;
       std::cout << " EntryLocalP z= " << ihit.entryPoint().z() << " ExitLocalP z= " << ihit.exitPoint().z() << std::endl;
       std::cout << " unitID= " << unitID << "  xytype= " << xytype << " particleType= " << ihit.particleType() << " trackId= " << ihit.trackId() << std::endl;
       //    std::cout << " det= " << det << " sector= " << sector << "  zmodule= " << zmodule << std::endl;
       std::cout << "  bfield= " << bfield << std::endl;
     }
   if(verbosity>0) {
       std::cout << " *******FP420DigiMain:                           theApplyTofCut= " << theApplyTofCut << std::endl;
       std::cout << " tof= " << tof << "  EnergyLoss= " << losenergy  << "  pabs= " <<  ihit.pabs() << std::endl;
       std::cout << " particleType= " << ihit.particleType() << std::endl;
   }
 
   //
 
   //  if ( ( !(theApplyTofCut)  ||  (theApplyTofCut &&   tofCut < abs(tof) < (tofCut+200.)) ) && losenergy > elossCut) {
     if ( ( !(theApplyTofCut)  ||  ( theApplyTofCut &&   abs(tof) > tofCut && abs(tof) < (tofCut+200.)) ) && losenergy > elossCut) {
       //    if ( abs(tof) < tofCut && losenergy > elossCut) {
       // if ( losenergy>0) {
       if(verbosity>0) std::cout << " inside tof: OK " << std::endl;
       
       //   xytype = 1 - Y strips;   =2 - X strips;
       //      HitDigitizerFP420::hit_map_type _temp = theHitDigitizerFP420->processHit(ihit,bfield,xytype,numStrips,pitch);
       HitDigitizerFP420::hit_map_type _temp = theHitDigitizerFP420->processHit(ihit,bfield,xytype,numStrips,pitch,numStripsW,pitchW,moduleThickness,verbosity); 
       
       
       
       thePileUpFP420->add(_temp,ihit,verbosity);
       
     }// if
 
     else {
       //    std::cout << " *******FP420DigiMain: ERROR???  losenergy =  " <<  losenergy  << std::endl;
     }
     // main part end (AZ) 
   } //for
   // main loop end (AZ) 
   
   PileUpFP420::signal_map_type theSignal = thePileUpFP420->dumpSignal();
   PileUpFP420::HitToDigisMapType theLink = thePileUpFP420->dumpLink();  
   
   
   PileUpFP420::signal_map_type afterNoise;
   
   if (noNoise) {
     afterNoise = theSignal;
   } else {
     afterNoise = theGNoiseFP420->addNoise(theSignal);
     //    add_noise();
   }
   
   //  if((pixelInefficiency>0) && (_signal.size()>0)) 
   //  pixel_inefficiency(); // Kill some pixels
   
   
   
   digis.clear();
   
   
   
   //                                                                                                                !!!!!
   push_digis(theZSuppressFP420->zeroSuppress(theDConverterFP420->convert(afterNoise),verbosity),
          theLink,afterNoise);
   
   
   
   return digis; // to HDigiFP420
 }

Member Data Documentation

std::vector<short int> FP420DigiMain::adcVec

private

Definition at line 54 of file FP420DigiMain.h.

bool FP420DigiMain::addNoisyPixels

private

Definition at line 82 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::appliedVoltage

private

Definition at line 103 of file FP420DigiMain.h.

double FP420DigiMain::chargeDistributionRMS

private

Definition at line 107 of file FP420DigiMain.h.

double FP420DigiMain::chargeMobility

private

Definition at line 104 of file FP420DigiMain.h.

float FP420DigiMain::ClusterWidth

private

Definition at line 67 of file FP420DigiMain.h.

edm::ParameterSet FP420DigiMain::conf_

private

Definition at line 56 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::depletionVoltage

private

Definition at line 102 of file FP420DigiMain.h.

std::vector<HDigiFP420> FP420DigiMain::digis

private

Definition at line 202 of file FP420DigiMain.h.

Referenced by push_digis(), and run().

bool FP420DigiMain::doMissCalibrate

private

Definition at line 180 of file FP420DigiMain.h.

float FP420DigiMain::elossCut

private

Definition at line 85 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

float FP420DigiMain::ENC

private

Definition at line 75 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

LandauFP420 FP420DigiMain::fluctuate

private

Definition at line 191 of file FP420DigiMain.h.

double FP420DigiMain::ldrift

private

Definition at line 98 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::ldriftX

private

Definition at line 96 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::ldriftY

private

Definition at line 97 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

float FP420DigiMain::moduleThickness

private

Definition at line 170 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

int FP420DigiMain::ndigis

private

Definition at line 53 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and push_digis().

bool FP420DigiMain::noDiffusion

private

Definition at line 106 of file FP420DigiMain.h.

bool FP420DigiMain::noNoise

private

Definition at line 81 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

int FP420DigiMain::NumberOfSegments

private

Definition at line 59 of file FP420DigiMain.h.

int FP420DigiMain::numStrips

private

Definition at line 164 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

int FP420DigiMain::numStripsW

private

Definition at line 167 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

int FP420DigiMain::numStripsX

private

Definition at line 162 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

int FP420DigiMain::numStripsXW

private

Definition at line 165 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

int FP420DigiMain::numStripsY

private

Definition at line 163 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

int FP420DigiMain::numStripsYW

private

Definition at line 166 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::pitch

private

Definition at line 91 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

double FP420DigiMain::pitchW

private

Definition at line 94 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

double FP420DigiMain::pitchX

private

Definition at line 89 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::pitchXW

private

Definition at line 92 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::pitchY

private

Definition at line 90 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::pitchYW

private

Definition at line 93 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

float FP420DigiMain::Sigma0

private

Definition at line 63 of file FP420DigiMain.h.

std::vector<const PSimHit*> FP420DigiMain::ss

private

Definition at line 193 of file FP420DigiMain.h.

double FP420DigiMain::temperature

private

Definition at line 105 of file FP420DigiMain.h.

int FP420DigiMain::theAdcFullScale

private

Definition at line 76 of file FP420DigiMain.h.

bool FP420DigiMain::theApplyTofCut

private

Definition at line 83 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

CDividerFP420* FP420DigiMain::theCDividerFP420

private

Definition at line 130 of file FP420DigiMain.h.

ChargeDrifterFP420* FP420DigiMain::theCDrifterFP420

private

Definition at line 120 of file FP420DigiMain.h.

DigiConverterFP420* FP420DigiMain::theDConverterFP420

private

Definition at line 158 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), run(), and ~FP420DigiMain().

float FP420DigiMain::theElectronPerADC

private

Definition at line 71 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

FP420NumberingScheme* FP420DigiMain::theFP420NumberingScheme

private

Definition at line 172 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

float FP420DigiMain::theGainSmearing

private

Definition at line 181 of file FP420DigiMain.h.

GaussNoiseFP420* FP420DigiMain::theGNoiseFP420

private

Definition at line 154 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), run(), and ~FP420DigiMain().

HitDigitizerFP420* FP420DigiMain::theHitDigitizerFP420

private

Definition at line 156 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), run(), and ~FP420DigiMain().

float FP420DigiMain::theNoiseInElectrons

private

Definition at line 77 of file FP420DigiMain.h.

GaussNoiseProducerFP420* FP420DigiMain::theNoiser

private

Definition at line 192 of file FP420DigiMain.h.

float FP420DigiMain::theOffsetSmearing

private

Definition at line 182 of file FP420DigiMain.h.

PileUpFP420* FP420DigiMain::thePileUpFP420

private

Definition at line 155 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), run(), and ~FP420DigiMain().

int FP420DigiMain::theStripsInChip

private

Definition at line 160 of file FP420DigiMain.h.

float FP420DigiMain::theStripThreshold

private

Definition at line 78 of file FP420DigiMain.h.

float FP420DigiMain::theStripThresholdInE

private

Definition at line 79 of file FP420DigiMain.h.

float FP420DigiMain::theThreshold

private

Definition at line 87 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::thez420

private

Definition at line 72 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::thezD2

private

Definition at line 73 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::thezD3

private

Definition at line 74 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

ZeroSuppressFP420* FP420DigiMain::theZSuppressFP420

private

Definition at line 157 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), run(), and ~FP420DigiMain().

float FP420DigiMain::Thick300

private

Definition at line 64 of file FP420DigiMain.h.

Referenced by FP420DigiMain().

double FP420DigiMain::tMax

private

Definition at line 188 of file FP420DigiMain.h.

double FP420DigiMain::tofCut

private

Definition at line 86 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

int FP420DigiMain::verbosity

private

Definition at line 59 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), push_digis(), run(), and ~FP420DigiMain().

int FP420DigiMain::xytype

private

Definition at line 59 of file FP420DigiMain.h.

Referenced by FP420DigiMain(), and run().

Public Types

Public Member Functions

Private Member Functions

Private Attributes

Detailed Description

Member Typedef Documentation

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