adcLSB_fC_ | HGCFEElectronics< DFr > | private |
adcPulse_ | HGCFEElectronics< DFr > | private |
adcSaturation_fC_ | HGCFEElectronics< DFr > | private |
adcThreshold_fC_ | HGCFEElectronics< DFr > | private |
busyFlags | HGCFEElectronics< DFr > | private |
fwVersion_ | HGCFEElectronics< DFr > | private |
getADClsb() | HGCFEElectronics< DFr > | inline |
getADCThreshold() | HGCFEElectronics< DFr > | inline |
getDefaultADCPulse() | HGCFEElectronics< DFr > | inline |
getTargetMipValue() | HGCFEElectronics< DFr > | inline |
getTDCForToAOnset() | HGCFEElectronics< DFr > | inline |
getTDClsb() | HGCFEElectronics< DFr > | inline |
getTDCOnset() | HGCFEElectronics< DFr > | inline |
getTimeJitter(float totalCharge, int thickness) | HGCFEElectronics< DFr > | inline |
HGCFEElectronics(const edm::ParameterSet &ps) | HGCFEElectronics< DFr > | |
HGCFEElectronicsFirmwareVersion enum name | HGCFEElectronics< DFr > | |
HGCFEElectronicsTOTMode enum name | HGCFEElectronics< DFr > | |
jitterConstant2_ns_ | HGCFEElectronics< DFr > | private |
jitterNoise2_ns_ | HGCFEElectronics< DFr > | private |
newCharge | HGCFEElectronics< DFr > | private |
noise_fC_ | HGCFEElectronics< DFr > | private |
pulseAvgT_ | HGCFEElectronics< DFr > | private |
runShaper(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, hgc::HGCSimHitData &toa, const hgc_digi::FEADCPulseShape &adcPulse, CLHEP::HepRandomEngine *engine, uint32_t thrADC=0, float lsbADC=-1, uint32_t gainIdx=0, float maxADC=-1, int thickness=1, float tdcOnsetAuto=-1) | HGCFEElectronics< DFr > | inline |
runShaper(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, hgc::HGCSimHitData &toa, CLHEP::HepRandomEngine *engine, uint32_t thrADC=0, float lsbADC=-1, uint32_t gainIdx=0, float maxADC=-1, int thickness=1) | HGCFEElectronics< DFr > | inline |
runShaperWithToT(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, hgc::HGCSimHitData &toa, CLHEP::HepRandomEngine *engine, uint32_t thrADC, float lsbADC, uint32_t gainIdx, float maxADC, int thickness, float tdcOnsetAuto, const hgc_digi::FEADCPulseShape &adcPulse) | HGCFEElectronics< DFr > | |
runShaperWithToT(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, hgc::HGCSimHitData &toa, CLHEP::HepRandomEngine *engine, uint32_t thrADC, float lsbADC, uint32_t gainIdx, float maxADC, int thickness, float tdcOnsetAuto) | HGCFEElectronics< DFr > | inline |
runSimpleShaper(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, uint32_t thrADC, float lsbADC, uint32_t gainIdx, float maxADC, const hgc_digi::FEADCPulseShape &adcPulse) | HGCFEElectronics< DFr > | |
runSimpleShaper(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, uint32_t thrADC, float lsbADC, uint32_t gainIdx, float maxADC) | HGCFEElectronics< DFr > | inline |
runTrivialShaper(DFr &dataFrame, hgc::HGCSimHitData &chargeColl, uint32_t thrADC, float lsbADC, uint32_t gainIdx, float maxADC) | HGCFEElectronics< DFr > | |
setADClsb(float newLSB) | HGCFEElectronics< DFr > | inline |
SetNoiseValues(const std::vector< float > &noise_fC) | HGCFEElectronics< DFr > | inline |
SIMPLE enum value | HGCFEElectronics< DFr > | |
SIMPLETHRESHOLD enum value | HGCFEElectronics< DFr > | |
targetMIPvalue_ADC_ | HGCFEElectronics< DFr > | private |
tdcChargeDrainParameterisation_ | HGCFEElectronics< DFr > | private |
tdcForToAOnset_fC_ | HGCFEElectronics< DFr > | private |
tdcLSB_fC_ | HGCFEElectronics< DFr > | private |
tdcOnset_fC_ | HGCFEElectronics< DFr > | private |
tdcResolutionInNs_ | HGCFEElectronics< DFr > | private |
tdcSaturation_fC_ | HGCFEElectronics< DFr > | private |
thresholdFollowsMIP_ | HGCFEElectronics< DFr > | private |
toaFlags | HGCFEElectronics< DFr > | private |
toaFromToT | HGCFEElectronics< DFr > | private |
toaLSB_ns_ | HGCFEElectronics< DFr > | private |
toaMode() const | HGCFEElectronics< DFr > | inline |
toaMode_ | HGCFEElectronics< DFr > | private |
totFlags | HGCFEElectronics< DFr > | private |
TRIVIAL enum value | HGCFEElectronics< DFr > | |
WEIGHTEDBYE enum value | HGCFEElectronics< DFr > | |
WITHTOT enum value | HGCFEElectronics< DFr > | |
~HGCFEElectronics() | HGCFEElectronics< DFr > | inline |