#include <SiStripFedZeroSuppression.h>
Public Member Functions | |
void | init (const edm::EventSetup &es) |
bool | IsAValidDigi () |
SiStripFedZeroSuppression (uint16_t fedalgo, bool trunc=true) | |
void | suppress (const edm::DetSet< SiStripRawDigi > &, edm::DetSet< SiStripDigi > &) |
void | suppress (const std::vector< SiStripDigi > &, std::vector< SiStripDigi > &, const uint32_t &) |
void | suppress (const std::vector< SiStripDigi > &, std::vector< SiStripDigi > &, const uint32_t &, edm::ESHandle< SiStripNoises > &, edm::ESHandle< SiStripThreshold > &) |
void | suppress (const std::vector< int16_t > &, edm::DetSet< SiStripDigi > &) |
~SiStripFedZeroSuppression () | |
Private Member Functions | |
void | fillThresholds_ (const uint32_t detID, size_t size) |
uint16_t | truncate (int16_t adc) const |
Private Attributes | |
int16_t | adc |
int16_t | adcMaxNeigh |
int16_t | adcNext |
int16_t | adcNext2 |
int16_t | adcPrev |
int16_t | adcPrev2 |
bool | doTruncate |
std::vector< int16_t > | highThr_ |
std::vector< float > | highThrSN_ |
std::vector< int16_t > | lowThr_ |
std::vector< float > | lowThrSN_ |
uint32_t | noise_cache_id |
edm::ESHandle< SiStripNoises > | noiseHandle |
std::vector< float > | noises_ |
uint16_t | theFEDalgorithm |
int16_t | theFEDhighThresh |
int16_t | theFEDlowThresh |
int16_t | theNeighFEDhighThresh |
int16_t | theNeighFEDlowThresh |
int16_t | theNext2FEDlowThresh |
int16_t | theNextFEDhighThresh |
int16_t | theNextFEDlowThresh |
int16_t | thePrev2FEDlowThresh |
int16_t | thePrevFEDhighThresh |
int16_t | thePrevFEDlowThresh |
uint32_t | threshold_cache_id |
edm::ESHandle< SiStripThreshold > | thresholdHandle |
Friends | |
class | SiStripRawProcessingFactory |
Definition at line 17 of file SiStripFedZeroSuppression.h.
SiStripFedZeroSuppression::SiStripFedZeroSuppression | ( | uint16_t | fedalgo, |
bool | trunc = true |
||
) | [inline] |
Definition at line 23 of file SiStripFedZeroSuppression.h.
: noise_cache_id(0), threshold_cache_id(0), theFEDalgorithm(fedalgo), doTruncate(trunc) {}
SiStripFedZeroSuppression::~SiStripFedZeroSuppression | ( | ) | [inline] |
Definition at line 28 of file SiStripFedZeroSuppression.h.
{};
void SiStripFedZeroSuppression::fillThresholds_ | ( | const uint32_t | detID, |
size_t | size | ||
) | [private] |
Definition at line 219 of file SiStripFedZeroSuppression.cc.
References ExpressReco_HICollisions_FallBack::e, findQualityFiles::size, and strip().
{ SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detID); SiStripThreshold::Range detThRange = thresholdHandle->getRange(detID); if (highThr_.size() != size) { highThr_.resize(size); lowThr_.resize(size); noises_.resize(size); highThrSN_.resize(size); lowThrSN_.resize(size); } noiseHandle->allNoises(noises_, detNoiseRange); thresholdHandle->allThresholds(lowThrSN_, highThrSN_, detThRange); // thresholds as S/N for (size_t strip = 0; strip < size; ++strip) { float noise = noises_[strip]; // uncomment line below to check bluk noise decoding //assert( noise == noiseHandle->getNoiseFast(strip,detNoiseRange) ); highThr_[strip] = static_cast<int16_t>(highThrSN_[strip]*noise+0.5+1e-6); lowThr_[strip] = static_cast<int16_t>( lowThrSN_[strip]*noise+0.5+1e-6); // Note: it's a bit wierd, but there are some cases for which 'highThrSN_[strip]*noise' is an exact integer // but due to roundoffs it gets rounded to the integer below if. // Apparently the optimized code inlines differently and this changes the roundoff. // The +1e-6 fixes the problem. [GPetruc] } }
void SiStripFedZeroSuppression::init | ( | const edm::EventSetup & | es | ) |
Definition at line 12 of file SiStripFedZeroSuppression.cc.
References edm::EventSetup::get().
{ uint32_t n_cache_id = es.get<SiStripNoisesRcd>().cacheIdentifier(); uint32_t t_cache_id = es.get<SiStripThresholdRcd>().cacheIdentifier(); if(n_cache_id != noise_cache_id) { es.get<SiStripNoisesRcd>().get( noiseHandle ); noise_cache_id = n_cache_id; } if(t_cache_id != threshold_cache_id) { es.get<SiStripThresholdRcd>().get( thresholdHandle ); threshold_cache_id = t_cache_id; } }
bool SiStripFedZeroSuppression::IsAValidDigi | ( | ) |
Definition at line 349 of file SiStripFedZeroSuppression.cc.
References accept(), ecalMGPA::adc(), edm::isDebugEnabled(), and LogTrace.
{ #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()){ LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] " << "\n\t adc " << adc << "\n\t adcPrev " << adcPrev << "\n\t adcNext " << adcNext << "\n\t adcMaxNeigh " << adcMaxNeigh << "\n\t adcPrev2 " << adcPrev2 << "\n\t adcNext2 " << adcNext2 <<std::endl; LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] " << "\n\t theFEDlowThresh " << theFEDlowThresh << "\n\t theFEDhighThresh " << theFEDhighThresh << "\n\t thePrevFEDlowThresh " << thePrevFEDlowThresh << "\n\t thePrevFEDhighThresh " << thePrevFEDhighThresh << "\n\t theNextFEDlowThresh " << theNextFEDlowThresh << "\n\t theNextFEDhighThresh " << theNextFEDhighThresh << "\n\t theNeighFEDlowThresh " << theNeighFEDlowThresh << "\n\t theNeighFEDhighThresh " << theNeighFEDhighThresh << "\n\t thePrev2FEDlowThresh " << thePrev2FEDlowThresh << "\n\t theNext2FEDlowThresh " << theNext2FEDlowThresh <<std::endl; } #endif // Decide if this strip should be accepted. bool accept = false; switch (theFEDalgorithm) { case 1: accept = (adc >= theFEDlowThresh); break; case 2: accept = (adc >= theFEDhighThresh || (adc >= theFEDlowThresh && adcMaxNeigh >= theNeighFEDlowThresh)); break; case 3: accept = (adc >= theFEDhighThresh || (adc >= theFEDlowThresh && adcMaxNeigh >= theNeighFEDhighThresh)); break; case 4: accept = ( (adc >= theFEDhighThresh) //Test for adc>highThresh (same as algorithm 2) || ( (adc >= theFEDlowThresh) //Test for adc>lowThresh, with neighbour adc>lowThresh (same as algorithm 2) && (adcMaxNeigh >= theNeighFEDlowThresh) ) || ( (adc < theFEDlowThresh) //Test for adc<lowThresh && ( ( (adcPrev >= thePrevFEDhighThresh) //with both neighbours>highThresh && (adcNext >= theNextFEDhighThresh) ) || ( (adcPrev >= thePrevFEDhighThresh) //OR with previous neighbour>highThresh and && (adcNext >= theNextFEDlowThresh) //both the next neighbours>lowThresh && (adcNext2 >= theNext2FEDlowThresh) ) || ( (adcNext >= theNextFEDhighThresh) //OR with next neighbour>highThresh and && (adcPrev >= thePrevFEDlowThresh) //both the previous neighbours>lowThresh && (adcPrev2 >= thePrev2FEDlowThresh) ) || ( (adcNext >= theNextFEDlowThresh) //OR with both next neighbours>lowThresh and && (adcNext2 >= theNext2FEDlowThresh) //both the previous neighbours>lowThresh && (adcPrev >= thePrevFEDlowThresh) && (adcPrev2 >= thePrev2FEDlowThresh) ) ) ) ); break; } return accept; }
void SiStripFedZeroSuppression::suppress | ( | const edm::DetSet< SiStripRawDigi > & | in, |
edm::DetSet< SiStripDigi > & | out | ||
) |
Definition at line 124 of file SiStripFedZeroSuppression.cc.
References ecalMGPA::adc(), edm::DetSet< T >::data, SiStripThreshold::Data::getHth(), SiStripThreshold::Data::getLth(), edm::DetSet< T >::id, edm::isDebugEnabled(), LogTrace, and strip().
{ const uint32_t detID = out.id; SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detID); SiStripThreshold::Range detThRange = thresholdHandle->getRange(detID); #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()) LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] Zero suppression on edm::DetSet<SiStripRawDigi>: detID " << detID << " size = " << in.data.size(); #endif edm::DetSet<SiStripRawDigi>::const_iterator in_iter=in.data.begin(); for (;in_iter!=in.data.end();in_iter++){ const uint32_t strip = (uint32_t) (in_iter-in.data.begin()); #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()) LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] detID= " << detID << " strip= " << strip << " adc= " << in_iter->adc(); #endif adc = in_iter->adc(); SiStripThreshold::Data thresholds=thresholdHandle->getData(strip,detThRange); theFEDlowThresh = static_cast<int16_t>(thresholds.getLth()*noiseHandle->getNoiseFast(strip,detNoiseRange)+0.5); theFEDhighThresh = static_cast<int16_t>(thresholds.getHth()*noiseHandle->getNoiseFast(strip,detNoiseRange)+0.5); adcPrev = -9999; adcNext = -9999; /* If a strip is the last one on the chip set its next neighbor's thresholds to infinity because the FED does not merge clusters across chip boundaries right now */ if ( strip%128 == 127 ) { adcNext = 0; theNextFEDlowThresh = 9999; theNextFEDhighThresh = 9999; } else { adcNext = (in_iter+1)->adc(); SiStripThreshold::Data thresholds_1=thresholdHandle->getData(strip+1,detThRange); theNextFEDlowThresh = static_cast<int16_t>(thresholds_1.getLth()*noiseHandle->getNoiseFast(strip+1,detNoiseRange)+0.5); theNextFEDhighThresh = static_cast<int16_t>(thresholds_1.getHth()*noiseHandle->getNoiseFast(strip+1,detNoiseRange)+0.5); } /* Similarily, for the first strip on a chip */ if ( strip%128 == 0 ) { adcPrev = 0; thePrevFEDlowThresh = 9999; thePrevFEDhighThresh = 9999; } else { adcPrev = (in_iter-1)->adc(); SiStripThreshold::Data thresholds_1=thresholdHandle->getData(strip-1,detThRange); thePrevFEDlowThresh = static_cast<int16_t>(thresholds_1.getLth()*noiseHandle->getNoiseFast(strip-1,detNoiseRange)+0.5); thePrevFEDhighThresh = static_cast<int16_t>(thresholds_1.getHth()*noiseHandle->getNoiseFast(strip-1,detNoiseRange)+0.5); } if ( adcNext < adcPrev){ adcMaxNeigh = adcPrev; theNeighFEDlowThresh = thePrevFEDlowThresh; theNeighFEDhighThresh = thePrevFEDhighThresh; } else { adcMaxNeigh = adcNext; theNeighFEDlowThresh = theNextFEDlowThresh; theNeighFEDhighThresh = theNextFEDhighThresh; } //Find adc values for next neighbouring strips adcPrev2 = -9999; adcNext2 = -9999; thePrev2FEDlowThresh = 1; theNext2FEDlowThresh = 1; if ( strip%128 >= 126 ) { adcNext2 = 0; theNext2FEDlowThresh = 9999; } else if ( strip%128 < 126 ) { adcNext2 = (in_iter+2)->adc(); theNext2FEDlowThresh = static_cast<int16_t>(thresholdHandle->getData(strip+2,detThRange).getLth()*noiseHandle->getNoiseFast(strip+2,detNoiseRange)+0.5); } if ( strip%128 <= 1 ) { adcPrev2 = 0; thePrev2FEDlowThresh = 9999; } else if ( strip%128 > 1 ) { adcPrev2 = (in_iter-2)->adc(); thePrev2FEDlowThresh = static_cast<int16_t>(thresholdHandle->getData(strip-2,detThRange).getLth()*noiseHandle->getNoiseFast(strip-2,detNoiseRange)+0.5); } //GB 23/6/08: truncation should be done at the very beginning if (IsAValidDigi()) out.data.push_back(SiStripDigi(strip, truncate(in_iter->adc()))); } }
void SiStripFedZeroSuppression::suppress | ( | const std::vector< int16_t > & | in, |
edm::DetSet< SiStripDigi > & | out | ||
) |
Definition at line 246 of file SiStripFedZeroSuppression.cc.
References ecalMGPA::adc(), edm::DetSet< T >::data, edm::DetSet< T >::id, edm::isDebugEnabled(), LogTrace, edm::DetSet< T >::push_back(), findQualityFiles::size, and strip().
{ const uint32_t detID = out.id; size_t size = in.size(); #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()) LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] Zero suppression on std::vector<int16_t>: detID " << detID << " size = " << in.size(); #endif fillThresholds_(detID, size); // want to decouple this from the other cost std::vector<int16_t>::const_iterator in_iter=in.begin(); for (size_t strip = 0; strip < size; ++strip, ++in_iter){ size_t strip_mod_128 = strip & 127; #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()) LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] detID= " << detID << " strip= " << strip << " adc= " << *in_iter; #endif adc = *in_iter; theFEDlowThresh = lowThr_[strip]; theFEDhighThresh = highThr_[strip]; //Find adc values for neighbouring strips /* If a strip is the last one on the chip set its next neighbor's thresholds to infinity because the FED does not merge clusters across chip boundaries right now */ //adcPrev = -9999; // useless, they are set //adcNext = -9999; // in the next lines in any case if ( strip_mod_128 == 127 ) { adcNext = 0; theNextFEDlowThresh = 9999; theNextFEDhighThresh = 9999; } else { adcNext = *(in_iter+1); theNextFEDlowThresh = lowThr_[strip+1]; theNextFEDhighThresh = highThr_[strip+1]; } /* Similarily, for the first strip on a chip */ if ( strip_mod_128 == 0 ) { adcPrev = 0; thePrevFEDlowThresh = 9999; thePrevFEDhighThresh = 9999; } else { adcPrev = *(in_iter-1); thePrevFEDlowThresh = lowThr_[strip-1]; thePrevFEDhighThresh = highThr_[strip-1]; } if ( adcNext < adcPrev){ adcMaxNeigh = adcPrev; theNeighFEDlowThresh = thePrevFEDlowThresh; theNeighFEDhighThresh = thePrevFEDhighThresh; } else { adcMaxNeigh = adcNext; theNeighFEDlowThresh = theNextFEDlowThresh; theNeighFEDhighThresh = theNextFEDhighThresh; } //Find adc values for next neighbouring strips //adcPrev2 = -9999; // //adcNext2 = -9999; // useless to set them here //thePrev2FEDlowThresh = 1; // they are overwritten always in the next 8 lines //theNext2FEDlowThresh = 1; // if ( strip_mod_128 >=126 ) { adcNext2 = 0; theNext2FEDlowThresh = 9999; //} else if ( strip_mod_128 < 126 ) { // if it's not >= then is <, no need to "if" again } else { adcNext2 = *(in_iter+2); theNext2FEDlowThresh = lowThr_[strip+2]; } if ( strip_mod_128 <= 1 ) { adcPrev2 = 0; thePrev2FEDlowThresh = 9999; //} else if ( strip_mod_128 > 1 ) { // same as above } else { adcPrev2 = *(in_iter-2); thePrev2FEDlowThresh = lowThr_[strip-2];; } if (IsAValidDigi()){ #ifdef DEBUG_SiStripZeroSuppression_ if (edm::isDebugEnabled()) LogTrace("SiStripZeroSuppression") << "[SiStripFedZeroSuppression::suppress] DetId " << out.id << " strip " << strip << " adc " << *in_iter << " digiCollection size " << out.data.size() ; #endif //GB 23/6/08: truncation should be done at the very beginning out.push_back(SiStripDigi(strip, (*in_iter<0 ? 0 : truncate( *in_iter ) ))); } } }
void SiStripFedZeroSuppression::suppress | ( | const std::vector< SiStripDigi > & | in, |
std::vector< SiStripDigi > & | selectedSignal, | ||
const uint32_t & | detID, | ||
edm::ESHandle< SiStripNoises > & | noiseHandle, | ||
edm::ESHandle< SiStripThreshold > & | thresholdHandle | ||
) |
Definition at line 30 of file SiStripFedZeroSuppression.cc.
References ecalMGPA::adc(), SiStripThreshold::Data::getHth(), SiStripThreshold::Data::getLth(), i, and strip().
Referenced by SiStripDigitizerAlgorithm::run().
{ int i; int inSize = in.size(); SiStripNoises::Range detNoiseRange = noiseHandle->getRange(detID); SiStripThreshold::Range detThRange = thresholdHandle->getRange(detID); // reserving more than needed, but quicker than one at a time selectedSignal.clear(); selectedSignal.reserve(inSize); for (i = 0; i < inSize; i++) { //Find adc values for neighbouring strips const uint32_t strip = (uint32_t) in[i].strip(); adc = in[i].adc(); SiStripThreshold::Data thresholds=thresholdHandle->getData(strip,detThRange); theFEDlowThresh = static_cast<int16_t>(thresholds.getLth()*noiseHandle->getNoiseFast(strip,detNoiseRange)+0.5); theFEDhighThresh = static_cast<int16_t>(thresholds.getHth()*noiseHandle->getNoiseFast(strip,detNoiseRange)+0.5); adcPrev = -9999; adcNext = -9999; adcPrev2 = -9999; adcNext2 = -9999; /* Since we are not running on Raw data we need to initialize all the FED threshold */ theNextFEDlowThresh = theFEDlowThresh; theNext2FEDlowThresh = theFEDlowThresh; thePrevFEDlowThresh = theFEDlowThresh; thePrev2FEDlowThresh = theFEDlowThresh; theNeighFEDlowThresh = theFEDlowThresh; theNextFEDhighThresh = theFEDhighThresh; thePrevFEDhighThresh = theFEDhighThresh; theNeighFEDhighThresh = theFEDhighThresh; if ( ((strip)%128) == 127){ adcNext = 0; theNextFEDlowThresh = 9999; theNextFEDhighThresh = 9999; }else if (i + 1 < inSize && in[i+1].strip() == strip + 1) { adcNext = in[i+1].adc(); SiStripThreshold::Data thresholds_1=thresholdHandle->getData(strip+1,detThRange); theNextFEDlowThresh = static_cast<int16_t>(thresholds_1.getLth()*noiseHandle->getNoiseFast(strip+1,detNoiseRange)+0.5); theNextFEDhighThresh = static_cast<int16_t>(thresholds_1.getHth()*noiseHandle->getNoiseFast(strip+1,detNoiseRange)+0.5); if ( ((strip)%128) == 126){ adcNext2 = 0; theNext2FEDlowThresh = 9999; }else if (i + 2 < inSize && in[i+2].strip() == strip + 2) { adcNext2 = in[i+2].adc(); theNext2FEDlowThresh = static_cast<int16_t>(thresholdHandle->getData(strip+2,detThRange).getLth()*noiseHandle->getNoiseFast(strip+2,detNoiseRange)+0.5); } } if ( ((strip)%128) == 0){ adcPrev = 0; thePrevFEDlowThresh = 9999; thePrevFEDhighThresh = 9999; }else if (i - 1 >= 0 && in[i-1].strip() == strip - 1) { adcPrev = in[i-1].adc(); SiStripThreshold::Data thresholds_1=thresholdHandle->getData(strip-1,detThRange); thePrevFEDlowThresh = static_cast<int16_t>(thresholds_1.getLth()*noiseHandle->getNoiseFast(strip-1,detNoiseRange)+0.5); thePrevFEDhighThresh = static_cast<int16_t>(thresholds_1.getHth()*noiseHandle->getNoiseFast(strip-1,detNoiseRange)+0.5); if ( ((strip)%128) == 1){ adcPrev2 = 0; thePrev2FEDlowThresh = 9999; }else if (i - 2 >= 0 && in[i-2].strip() == strip - 2) { adcPrev2 = in[i-2].adc(); thePrev2FEDlowThresh = static_cast<int16_t>(thresholdHandle->getData(strip-2,detThRange).getLth()*noiseHandle->getNoiseFast(strip-2,detNoiseRange)+0.5); } } if ( adcNext <= adcPrev){ adcMaxNeigh = adcPrev; theNeighFEDlowThresh = thePrevFEDlowThresh; theNeighFEDhighThresh = thePrevFEDhighThresh; } else { adcMaxNeigh = adcNext; theNeighFEDlowThresh = theNextFEDlowThresh; theNeighFEDhighThresh = theNextFEDhighThresh; } if (IsAValidDigi()){ selectedSignal.push_back(SiStripDigi(strip, adc)); } } }
void SiStripFedZeroSuppression::suppress | ( | const std::vector< SiStripDigi > & | in, |
std::vector< SiStripDigi > & | selectedSignal, | ||
const uint32_t & | detID | ||
) |
Definition at line 26 of file SiStripFedZeroSuppression.cc.
References suppress.
{ suppress(in, selectedSignal, detID, noiseHandle, thresholdHandle); }
uint16_t SiStripFedZeroSuppression::truncate | ( | int16_t | adc | ) | const [inline, private] |
Definition at line 40 of file SiStripFedZeroSuppression.h.
References adc, and doTruncate.
{ if(adc>253 && doTruncate) return ((adc==1023) ? 255 : 254); return adc; };
friend class SiStripRawProcessingFactory [friend] |
Definition at line 19 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::adc [private] |
Definition at line 55 of file SiStripFedZeroSuppression.h.
Referenced by truncate().
int16_t SiStripFedZeroSuppression::adcMaxNeigh [private] |
Definition at line 58 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::adcNext [private] |
Definition at line 57 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::adcNext2 [private] |
Definition at line 60 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::adcPrev [private] |
Definition at line 56 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::adcPrev2 [private] |
Definition at line 59 of file SiStripFedZeroSuppression.h.
bool SiStripFedZeroSuppression::doTruncate [private] |
Definition at line 50 of file SiStripFedZeroSuppression.h.
Referenced by truncate().
std::vector<int16_t> SiStripFedZeroSuppression::highThr_ [private] |
Definition at line 74 of file SiStripFedZeroSuppression.h.
std::vector<float> SiStripFedZeroSuppression::highThrSN_ [private] |
Definition at line 75 of file SiStripFedZeroSuppression.h.
std::vector<int16_t> SiStripFedZeroSuppression::lowThr_ [private] |
Definition at line 74 of file SiStripFedZeroSuppression.h.
std::vector<float> SiStripFedZeroSuppression::lowThrSN_ [private] |
Definition at line 75 of file SiStripFedZeroSuppression.h.
uint32_t SiStripFedZeroSuppression::noise_cache_id [private] |
Definition at line 47 of file SiStripFedZeroSuppression.h.
Definition at line 43 of file SiStripFedZeroSuppression.h.
std::vector<float> SiStripFedZeroSuppression::noises_ [private] |
Definition at line 76 of file SiStripFedZeroSuppression.h.
uint16_t SiStripFedZeroSuppression::theFEDalgorithm [private] |
Definition at line 49 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theFEDhighThresh [private] |
Definition at line 53 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theFEDlowThresh [private] |
Definition at line 52 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theNeighFEDhighThresh [private] |
Definition at line 68 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theNeighFEDlowThresh [private] |
Definition at line 67 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theNext2FEDlowThresh [private] |
Definition at line 71 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theNextFEDhighThresh [private] |
Definition at line 65 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::theNextFEDlowThresh [private] |
Definition at line 64 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::thePrev2FEDlowThresh [private] |
Definition at line 70 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::thePrevFEDhighThresh [private] |
Definition at line 63 of file SiStripFedZeroSuppression.h.
int16_t SiStripFedZeroSuppression::thePrevFEDlowThresh [private] |
Definition at line 62 of file SiStripFedZeroSuppression.h.
uint32_t SiStripFedZeroSuppression::threshold_cache_id [private] |
Definition at line 47 of file SiStripFedZeroSuppression.h.
Definition at line 46 of file SiStripFedZeroSuppression.h.