#include <ETLElectronicsSim.h>

Public Member Functions
	ETLElectronicsSim (const edm::ParameterSet &pset)

void	getEvent (const edm::Event &evt)

void	getEventSetup (const edm::EventSetup &evt)

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

void	runTrivialShaper (ETLDataFrame &dataFrame, const mtd::MTDSimHitData &chargeColl, const mtd::MTDSimHitData &toa, const uint8_t row, const uint8_t column) const

void	updateOutput (ETLDigiCollection &coll, const ETLDataFrame &rawDataFrame) const

Static Public Attributes
static int	dfSIZE = 5

Private Attributes
const float	adcLSB_MIP_

const uint32_t	adcNbits_

const float	adcSaturation_MIP_

const float	adcThreshold_MIP_

const float	bxTime_

const bool	debug_

const reco::FormulaEvaluator	sigmaEta_

const uint32_t	tdcNbits_

const float	toaLSB_ns_

Detailed Description

Definition at line 21 of file ETLElectronicsSim.h.

Constructor & Destructor Documentation

ETLElectronicsSim::ETLElectronicsSim ( const edm::ParameterSet & pset )

Definition at line 8 of file ETLElectronicsSim.cc.

                                                                 :
   debug_( pset.getUntrackedParameter<bool>("debug",false) ),
   bxTime_(pset.getParameter<double>("bxTime") ),
   sigmaEta_( pset.getParameter<std::string>("etaResolution") ),
   adcNbits_( pset.getParameter<uint32_t>("adcNbits") ),
   tdcNbits_( pset.getParameter<uint32_t>("tdcNbits") ),
   adcSaturation_MIP_( pset.getParameter<double>("adcSaturation_MIP") ),
   adcLSB_MIP_( adcSaturation_MIP_/std::pow(2.,adcNbits_) ),
   adcThreshold_MIP_( pset.getParameter<double>("adcThreshold_MIP") ),
   toaLSB_ns_( pset.getParameter<double>("toaLSB_ns") ) {
 }

Member Function Documentation

void ETLElectronicsSim::getEvent ( const edm::Event & evt )

inline

Definition at line 25 of file ETLElectronicsSim.h.

25 { }

void ETLElectronicsSim::getEventSetup ( const edm::EventSetup & evt )

inline

Definition at line 27 of file ETLElectronicsSim.h.

References coll, input, convertSQLitetoXML_cfg::output, and writedatasetfile::run.

27 { }

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

Definition at line 21 of file ETLElectronicsSim.cc.

References adcThreshold_MIP_, bxTime_, PVValHelper::eta, reco::FormulaEvaluator::evaluate(), f, mps_fire::i, runTrivialShaper(), sigmaEta_, and updateOutput().

                                                  {
   
   MTDSimHitData chargeColl, toa;
   
 
   std::vector<double> emptyV;
   std::vector<double> eta(1);
 
   for(MTDSimHitDataAccumulator::const_iterator it=input.begin();
       it!=input.end();
       it++) {
     
     chargeColl.fill(0.f);
     toa.fill(0.f);
     for(size_t i=0; i<it->second.hit_info[0].size(); i++) {
 
       if ( (it->second).hit_info[0][i] < adcThreshold_MIP_ ) continue;
 
       // time of arrival
       float finalToA = (it->second).hit_info[1][i];
 
       // Gaussian smearing of the time of arrival
       eta[0] = 2.;  // This is just temporary. Once the RECO geometry is 
                     // available, the actual module eta will be used.
       double sigmaToA = sigmaEta_.evaluate(eta, emptyV);
 
       if ( sigmaToA > 0. )
     finalToA += CLHEP::RandGaussQ::shoot(hre, 0., sigmaToA);
 
       // fill the time and charge arrays
       const unsigned int ibucket = std::floor( finalToA/bxTime_ );
       if ( (i+ibucket) >= chargeColl.size() ) continue;
       
       chargeColl[i+ibucket] += (it->second).hit_info[0][i];      
 
       if ( toa[i+ibucket] == 0. || (finalToA-ibucket*bxTime_) < toa[i+ibucket] )
     toa[i+ibucket] = finalToA - ibucket*bxTime_;
       
     }
 
     // run the shaper to create a new data frame
     ETLDataFrame rawDataFrame( it->first.detid_ );    
     runTrivialShaper(rawDataFrame,chargeColl,toa, it->first.row_, it->first.column_);
     updateOutput(output,rawDataFrame);
     
   }
     
 }

void ETLElectronicsSim::runTrivialShaper	(	ETLDataFrame &	dataFrame,
		const mtd::MTDSimHitData &	chargeColl,
		const mtd::MTDSimHitData &	toa,
		const uint8_t	row,
		const uint8_t	column
	)		const

Definition at line 73 of file ETLElectronicsSim.cc.

References ecalMGPA::adc(), adcLSB_MIP_, adcSaturation_MIP_, adcThreshold_MIP_, debug, debug_, createfilelist::int, min(), mps_check::msg, FTLDataFrameT< D, S, DECODE >::print(), ETLSample::set(), FTLDataFrameT< D, S, DECODE >::setSample(), and toaLSB_ns_.

Referenced by run().

                                                                  {
     bool debug = debug_;
 #ifdef EDM_ML_DEBUG  
   for(int it=0; it<(int)(chargeColl.size()); it++) debug |= (chargeColl[it]>adcThreshold_fC_);
 #endif
     
   if(debug) edm::LogVerbatim("ETLElectronicsSim") << "[runTrivialShaper]" << std::endl;
   
   //set new ADCs 
   for(int it=0; it<(int)(chargeColl.size()); it++)
     {      
       //brute force saturation, maybe could to better with an exponential like saturation      
       const uint32_t adc=std::floor( std::min(chargeColl[it],adcSaturation_MIP_) / adcLSB_MIP_ );
       const uint32_t tdc_time=std::floor( toa[it] / toaLSB_ns_ );
       ETLSample newSample;
       newSample.set(chargeColl[it] > adcThreshold_MIP_,false,tdc_time,adc,row,col);
       dataFrame.setSample(it,newSample);
 
       if(debug) edm::LogVerbatim("ETLElectronicsSim") << adc << " (" << chargeColl[it] << "/" << adcLSB_MIP_ << ") ";
     }
 
   if(debug) { 
     std::ostringstream msg;
     dataFrame.print(msg);
     edm::LogVerbatim("ETLElectronicsSim") << msg.str() << std::endl;
   } 
 }

void ETLElectronicsSim::updateOutput	(	ETLDigiCollection &	coll,
		const ETLDataFrame &	rawDataFrame
	)		const

Definition at line 104 of file ETLElectronicsSim.cc.

References dfSIZE, FTLDataFrameT< D, S, DECODE >::id(), edm::SortedCollection< T, SORT >::push_back(), FTLDataFrameT< D, S, DECODE >::resize(), and FTLDataFrameT< D, S, DECODE >::size().

Referenced by run().

                                                              {
   int itIdx(9);
   if(rawDataFrame.size()<=itIdx+2) return;
   
   ETLDataFrame dataFrame( rawDataFrame.id() );
   dataFrame.resize(dfSIZE);
   bool putInEvent(false);
   for(int it=0;it<dfSIZE; ++it) {    
     dataFrame.setSample(it, rawDataFrame[itIdx-2+it]);
     if(it==2) putInEvent = rawDataFrame[itIdx-2+it].threshold(); 
   }
 
   if(putInEvent) {
     coll.push_back(dataFrame);    
   }
 }

Member Data Documentation

const float ETLElectronicsSim::adcLSB_MIP_

private

Definition at line 55 of file ETLElectronicsSim.h.

Referenced by runTrivialShaper().

const uint32_t ETLElectronicsSim::adcNbits_

private

Definition at line 51 of file ETLElectronicsSim.h.

const float ETLElectronicsSim::adcSaturation_MIP_

private

Definition at line 54 of file ETLElectronicsSim.h.

Referenced by runTrivialShaper().

const float ETLElectronicsSim::adcThreshold_MIP_

private

Definition at line 56 of file ETLElectronicsSim.h.

Referenced by run(), and runTrivialShaper().

const float ETLElectronicsSim::bxTime_

private

Definition at line 47 of file ETLElectronicsSim.h.

Referenced by run().

const bool ETLElectronicsSim::debug_

private

Definition at line 46 of file ETLElectronicsSim.h.

Referenced by runTrivialShaper().

int ETLElectronicsSim::dfSIZE = 5

static

Definition at line 42 of file ETLElectronicsSim.h.

Referenced by updateOutput().

const reco::FormulaEvaluator ETLElectronicsSim::sigmaEta_

private

Definition at line 48 of file ETLElectronicsSim.h.

Referenced by run().

const uint32_t ETLElectronicsSim::tdcNbits_

private

Definition at line 51 of file ETLElectronicsSim.h.

const float ETLElectronicsSim::toaLSB_ns_

private

Definition at line 57 of file ETLElectronicsSim.h.

Referenced by runTrivialShaper().

Public Member Functions

Static Public Attributes

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation