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# include "DigitizerPHA.h"
DigitizerPHA : : DigitizerPHA ( ) {
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DPPType = V1730_DPP_PHA_CODE ;
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}
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DigitizerPHA : : DigitizerPHA ( int boardID , int portID , bool verbose ) {
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Initalization ( ) ;
DPPType = V1730_DPP_PHA_CODE ;
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OpenDigitizer ( boardID , portID , true , verbose ) ;
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}
DigitizerPHA : : ~ DigitizerPHA ( ) {
}
int DigitizerPHA : : ProgramBoard ( ) {
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ret = CAEN_DGTZ_Reset ( handle ) ;
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printf ( " ======== program board PHA \n " ) ;
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ret = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : RecordLength_G + 0x7000 , 625 ) ;
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ret = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : BoardConfiguration , 0x4E8115 ) ;
//TODO change to write register
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ret = CAEN_DGTZ_SetAcquisitionMode ( handle , CAEN_DGTZ_SW_CONTROLLED ) ; /// software command
ret | = CAEN_DGTZ_SetIOLevel ( handle , CAEN_DGTZ_IOLevel_NIM ) ;
ret | = CAEN_DGTZ_SetExtTriggerInputMode ( handle , CAEN_DGTZ_TRGMODE_ACQ_ONLY ) ;
ret = CAEN_DGTZ_SetChannelEnableMask ( handle , 0xFFFF ) ;
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//ret = CAEN_DGTZ_SetNumEventsPerAggregate(handle, 0);
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ret = CAEN_DGTZ_SetRunSynchronizationMode ( handle , CAEN_DGTZ_RUN_SYNC_Disabled ) ;
if ( ret ! = 0 ) { printf ( " ==== set board error. \n " ) ; return 0 ; }
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printf ( " ======== program Channels PHA \n " ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : DecayTime + 0x7000 , 5000 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : TrapezoidFlatTop + 0x7000 , 0x62 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : TrapezoidRiseTime + 0x7000 , 6 ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : PeakingTime + 0x7000 , 6 ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : RCCR2SmoothingFactor + 0x7000 , 4 ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : InputRiseTime + 0x7000 , 6 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : TriggerThreshold + 0x7000 , 1000 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : PeakHoldOff + 0x7000 , 0x3E ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : TriggerHoldOffWidth + 0x7000 , 0x3E ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PHA : : RiseTimeValidationWindow + 0x7000 , 0x0 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : ChannelDCOffset + 0x7000 , 0xEEEE ) ;
ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : PreTrigger + 0x7000 , 124 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : InputDynamicRange + 0x7000 , 0x0 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : NumberEventsPerAggregate_G + 0x7000 , 100 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : AggregateOrganization , 0 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : MaxAggregatePerBlockTransfer , 40 ) ;
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ret | = CAEN_DGTZ_WriteRegister ( handle , Register : : DPP : : DPPAlgorithmControl + 0x7000 , 0xe30200f ) ;
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if ( ret ! = 0 ) { printf ( " ==== set channels error. \n " ) ; return 0 ; }
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printf ( " End of program board and channels \n " ) ;
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return ret ;
}
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void DigitizerPHA : : SetSetting ( Setting : : PHA settingName , float value , int ch ) {
unsigned int input = 0 ;
switch ( settingName ) {
/// board setting
case Setting : : PHA : : AutoDataFlush_board_bool : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 0 ) ; break ;
case Setting : : PHA : : DualTrace_board_bool : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 11 ) ; break ;
case Setting : : PHA : : AnalogProbe1_board_2bit : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 2 , 12 ) ; break ;
case Setting : : PHA : : AnalogProbe2_board_2bit : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 2 , 14 ) ; break ;
case Setting : : PHA : : WavefromRecording_board_bool : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 16 ) ; break ;
case Setting : : PHA : : EnableExtra2Word_board_bool : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 17 ) ; break ;
case Setting : : PHA : : EnergyRecording_board_bool : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 19 ) ; break ;
case Setting : : PHA : : VirtualProbe_board_4bit : input = value ; SetBits ( Register : : DPP : : BoardConfiguration , input , 1 , 20 ) ; break ;
/// DPP Algorithm Control 1
case Setting : : PHA : : TrapazoidRescaling_5bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 5 , 0 , ch ) ; break ;
case Setting : : PHA : : WaveformDecimation_2bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 2 , 8 , ch ) ; break ;
case Setting : : PHA : : WaveformDecimationGain_2bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 2 , 10 , ch ) ; break ;
case Setting : : PHA : : PeakSampling_2bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 2 , 12 , ch ) ; break ;
case Setting : : PHA : : PulsePolarity_bool : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 1 , 16 , ch ) ; break ;
case Setting : : PHA : : TriggerMode_2bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 2 , 18 , ch ) ; break ;
case Setting : : PHA : : BaselineSampling_3bit : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 3 , 20 , ch ) ; break ;
case Setting : : PHA : : DisableSelfTrigger_bool : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 1 , 24 , ch ) ; break ;
case Setting : : PHA : : RolloverFlag_bool : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 1 , 26 , ch ) ; break ;
case Setting : : PHA : : PileupFlag_bool : input = value ; SetBits ( Register : : DPP : : DPPAlgorithmControl , input , 1 , 27 , ch ) ; break ;
/// DPP Algorithm Control 2
case Setting : : PHA : : LocalShapedTrigger_bool : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 2 , ch ) ; break ;
case Setting : : PHA : : LocalShapedTriggerMode_2bit : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 0 , ch ) ; break ;
case Setting : : PHA : : LocalTriggerValidation_bool : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 6 , ch ) ; break ;
case Setting : : PHA : : LocalTriggerValidationMode_2bit : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 4 , ch ) ; break ;
case Setting : : PHA : : Extra2WordOption_3bit : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 3 , 8 , ch ) ; break ;
case Setting : : PHA : : VetoSource_2bit : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 14 , ch ) ; break ;
case Setting : : PHA : : TriggerCounterRateStep_2bit : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 16 , ch ) ; break ;
case Setting : : PHA : : BaselineCalculationWhenACQOFF_bool : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 18 , ch ) ; break ;
case Setting : : PHA : : TagCorrelatedEvents_bool : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 19 , ch ) ; break ;
case Setting : : PHA : : BaselineRestoreOptimization_bool : input = value ; SetBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 29 , ch ) ; break ;
/// ACQ control
case Setting : : PHA : : StartStopMode_2bit : input = value ; SetBits ( Register : : DPP : : AcquisitionControl , input , 2 , 0 ) ; break ;
case Setting : : PHA : : StartStopACQ_bool : input = value ; SetBits ( Register : : DPP : : AcquisitionControl , input , 1 , 2 ) ; break ;
case Setting : : PHA : : PLLClockSource_bool : input = value ; SetBits ( Register : : DPP : : AcquisitionControl , input , 1 , 6 ) ; break ;
case Setting : : PHA : : VetoInForTRGOUT_bool : input = value ; SetBits ( Register : : DPP : : AcquisitionControl , input , 1 , 12 ) ; break ;
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/// Global Trigger Mask
case Setting : : PHA : : GlobalTrgMask_8bit : input = value ; SetBits ( Register : : DPP : : GlobalTriggerMask , input , 8 , 0 ) ; break ;
case Setting : : PHA : : GlobalTrgMajorityCoincienceWindow_4bit : input = value ; SetBits ( Register : : DPP : : GlobalTriggerMask , input , 4 , 20 ) ; break ;
case Setting : : PHA : : GlobalTrgMajorityLevel_3bit : input = value ; SetBits ( Register : : DPP : : GlobalTriggerMask , input , 3 , 24 ) ; break ;
case Setting : : PHA : : GlobalTrgExternalTrigger_bool : input = value ; SetBits ( Register : : DPP : : GlobalTriggerMask , input , 1 , 30 ) ; break ;
case Setting : : PHA : : GlobalTrgSoftwareTrigger_bool : input = value ; SetBits ( Register : : DPP : : GlobalTriggerMask , input , 1 , 31 ) ; break ;
/// Front Panel TRG-OUT Mask
case Setting : : PHA : : FrontTRGOUTMask_8bit : input = value ; SetBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , input , 8 , 0 ) ; break ;
case Setting : : PHA : : FrontTRGOUTLogic_2bit : input = value ; SetBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , input , 2 , 8 ) ; break ;
case Setting : : PHA : : FrontTRGOUTMajorityLevel_3bit : input = value ; SetBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , input , 3 , 10 ) ; break ;
case Setting : : PHA : : FrontTRGOUTExternalTrigger_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , input , 1 , 30 ) ; break ;
case Setting : : PHA : : FrontTRGOUTSoftwareTrigger_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , input , 1 , 31 ) ; break ;
/// Front Plane I/O
case Setting : : PHA : : FrontPanelIO_LEMO_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelIOControl , input , 1 , 0 ) ; break ;
case Setting : : PHA : : FrontPanelIO_TRGOUT_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelIOControl , input , 1 , 1 ) ; break ;
case Setting : : PHA : : FrontPanelIO_TRGINCtrl_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelIOControl , input , 1 , 10 ) ; break ;
case Setting : : PHA : : FrontPanelIO_TRGINtoMezzanines_bool : input = value ; SetBits ( Register : : DPP : : FrontPanelIOControl , input , 1 , 11 ) ; break ;
case Setting : : PHA : : FrontPanelIO_TRGOUTmode_6bit : input = value ; SetBits ( Register : : DPP : : FrontPanelIOControl , input , 6 , 14 ) ; break ;
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/// Trigger Validation Mask
case Setting : : PHA : : TriggerValidationMask_8bit : input = value ; SetBits ( Register : : DPP : : TriggerValidationMask , input , 8 , 0 ) ; break ;
case Setting : : PHA : : TriggerValidationOperation_2bit : input = value ; SetBits ( Register : : DPP : : TriggerValidationMask , input , 2 , 8 ) ; break ;
case Setting : : PHA : : TriggerValidationMajority_3bit : input = value ; SetBits ( Register : : DPP : : TriggerValidationMask , input , 3 , 10 ) ; break ;
case Setting : : PHA : : TriggerValidationExternalTrigger_bool : input = value ; SetBits ( Register : : DPP : : TriggerValidationMask , input , 1 , 30 ) ; break ;
case Setting : : PHA : : TriggerValidationSoftwareTrigger_bool : input = value ; SetBits ( Register : : DPP : : TriggerValidationMask , input , 1 , 31 ) ; break ;
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/// Registers
case Setting : : PHA : : RecordLength_G_ns : input = value / 8 / ch2ns ; WriteRegister ( Register : : DPP : : RecordLength_G , input , ch ) ; break ;
case Setting : : PHA : : PreTriggerLength_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PreTrigger , input , ch ) ; break ;
case Setting : : PHA : : InputDynamicRange_bool : input = value ; WriteRegister ( Register : : DPP : : InputDynamicRange , input , ch ) ; break ;
case Setting : : PHA : : DCOffset_precentage : input = ( 1.0 - value ) * 0xFFFF ; WriteRegister ( Register : : DPP : : ChannelDCOffset , input , ch ) ; break ;
case Setting : : PHA : : EventPreAggregate_G_max1023 : input = value ; WriteRegister ( Register : : DPP : : NumberEventsPerAggregate_G , input , ch ) ; break ;
case Setting : : PHA : : AggregateOrganization_board_3bit : input = value ; WriteRegister ( Register : : DPP : : AggregateOrganization , input , ch ) ; break ;
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case Setting : : PHA : : MaxAggregatePerBlockTransfer_board_10bit : input = value ; WriteRegister ( Register : : DPP : : MaxAggregatePerBlockTransfer , input , ch ) ; break ;
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case Setting : : PHA : : VetoWidth_ns : {
unsigned int input = 0 ;
if ( value < = 4 * ch2ns ) {
input = 0 ;
} else if ( 4 * ch2ns < value & & value < = 1000 * ch2ns ) {
input = 1 ;
} else if ( 1000 * ch2ns < value & & value < = 262000 * ch2ns ) {
input = 2 ;
} else {
input = 3 ;
}
WriteRegister ( Register : : DPP : : VetoWidth , input , ch ) ;
break ;
}
case Setting : : PHA : : TriggerThreshold_LSD : input = value ; WriteRegister ( Register : : DPP : : PHA : : TriggerThreshold , input , ch ) ; break ;
case Setting : : PHA : : TriggerHoldOffWidth_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : TriggerHoldOffWidth , input , ch ) ; break ;
case Setting : : PHA : : TriggerSmoothingFactor_5bit : input = value ; WriteRegister ( Register : : DPP : : PHA : : RCCR2SmoothingFactor , input , ch ) ; break ;
case Setting : : PHA : : TriggerOutputWidth_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : ShapedTriggerWidth , input , ch ) ; break ;
case Setting : : PHA : : InputRiseTime_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : InputRiseTime , input , ch ) ; break ;
case Setting : : PHA : : TrapezoidRiseTime_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : TrapezoidRiseTime , input , ch ) ; break ;
case Setting : : PHA : : TrapezoidFlatTop_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : TrapezoidFlatTop , input , ch ) ; break ;
case Setting : : PHA : : DecayTime_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : DecayTime , input , ch ) ; break ;
case Setting : : PHA : : PeakingTime_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : PeakingTime , input , ch ) ; break ;
case Setting : : PHA : : PeakingHoldOff_ns : input = value / 4 / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : PeakHoldOff , input , ch ) ; break ;
case Setting : : PHA : : EnergyFineGain_16bit : input = value ; WriteRegister ( Register : : DPP : : PHA : : FineGain , input , ch ) ; break ;
case Setting : : PHA : : RiseTimeValidationWindow_ns : input = value / ch2ns ; WriteRegister ( Register : : DPP : : PHA : : RiseTimeValidationWindow , input , ch ) ; break ;
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/// Others
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case Setting : : PHA : : FanSpeedControl_bool : input = value ; WriteRegister ( Register : : DPP : : FanSpeedControl , input ) ; break ;
case Setting : : PHA : : RunStartStopDelay_8bit : input = value ; WriteRegister ( Register : : DPP : : RunStartStopDelay , input ) ; break ;
case Setting : : PHA : : DisableExternalTrigger_bool : input = value ; WriteRegister ( Register : : DPP : : DisableExternalTrigger , input ) ; break ;
case Setting : : PHA : : ExtendedVetoDelay_16bit : input = value ; WriteRegister ( Register : : DPP : : ExtendedVetoDelay , input ) ; break ;
case Setting : : PHA : : AnalogMonitorMode_3bit : input = value ; WriteRegister ( Register : : DPP : : AnalogMonitorMode , input ) ; break ;
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case Setting : : PHA : : BufferOccupancyGain_4bit : input = value ; WriteRegister ( Register : : DPP : : BufferOccupancyGain , input ) ; break ;
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}
ErrorMsg ( " PHA- " + std : : to_string ( settingName ) ) ;
}
double DigitizerPHA : : GetSetting ( Setting : : PHA settingName , int ch ) {
double value = 0 ;
unsigned int temp ;
switch ( settingName ) {
/// board setting
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case Setting : : PHA : : AutoDataFlush_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : DecimateWaveForm_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 1 ) ; value = temp ; break ;
case Setting : : PHA : : TriggerPropapation_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 2 ) ; value = temp ; break ;
case Setting : : PHA : : DualTrace_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 11 ) ; value = temp ; break ;
case Setting : : PHA : : AnalogProbe1_board_2bit : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 2 , 12 ) ; value = temp ; break ;
case Setting : : PHA : : AnalogProbe2_board_2bit : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 2 , 14 ) ; value = temp ; break ;
case Setting : : PHA : : WavefromRecording_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 16 ) ; value = temp ; break ;
case Setting : : PHA : : EnableExtra2Word_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 17 ) ; value = temp ; break ;
case Setting : : PHA : : EnergyRecording_board_bool : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 1 , 19 ) ; value = temp ; break ;
case Setting : : PHA : : VirtualProbe_board_4bit : temp = ReadBits ( Register : : DPP : : BoardConfiguration , 4 , 20 ) ; value = temp ; break ;
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/// DPP Algorithm Control 1
case Setting : : PHA : : TrapazoidRescaling_5bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 5 , 0 , ch ) ; value = temp ; break ;
case Setting : : PHA : : WaveformDecimation_2bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 2 , 8 , ch ) ; value = temp ; break ;
case Setting : : PHA : : WaveformDecimationGain_2bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 2 , 10 , ch ) ; value = temp ; break ;
case Setting : : PHA : : PeakSampling_2bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 2 , 12 , ch ) ; value = pow ( 4 , temp ) ; break ;
case Setting : : PHA : : PulsePolarity_bool : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 1 , 16 , ch ) ; value = temp ; break ;
case Setting : : PHA : : TriggerMode_2bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 2 , 18 , ch ) ; value = temp ; break ;
case Setting : : PHA : : BaselineSampling_3bit : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 3 , 20 , ch ) ; value = pow ( 4 , 1 + temp ) ; break ;
case Setting : : PHA : : DisableSelfTrigger_bool : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 1 , 24 , ch ) ; value = temp ; break ;
case Setting : : PHA : : RolloverFlag_bool : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 1 , 26 , ch ) ; value = temp ; break ;
case Setting : : PHA : : PileupFlag_bool : temp = ReadBits ( Register : : DPP : : DPPAlgorithmControl , 1 , 27 , ch ) ; value = temp ; break ;
/// DPP Algorithm Control 2
case Setting : : PHA : : LocalShapedTriggerMode_2bit : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 0 , ch ) ; value = temp ; break ;
case Setting : : PHA : : LocalShapedTrigger_bool : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 2 , ch ) ; value = temp ; break ;
case Setting : : PHA : : LocalTriggerValidationMode_2bit : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 4 , ch ) ; value = temp ; break ;
case Setting : : PHA : : LocalTriggerValidation_bool : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 6 , ch ) ; value = temp ; break ;
case Setting : : PHA : : Extra2WordOption_3bit : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 3 , 8 , ch ) ; value = temp ; break ;
case Setting : : PHA : : VetoSource_2bit : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 2 , 14 , ch ) ; value = temp ; break ;
case Setting : : PHA : : TriggerCounterRateStep_2bit : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 16 , ch ) ; value = temp ; break ;
case Setting : : PHA : : BaselineCalculationWhenACQOFF_bool : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 18 , ch ) ; value = temp ; break ;
case Setting : : PHA : : TagCorrelatedEvents_bool : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 19 , ch ) ; value = temp ; break ;
case Setting : : PHA : : BaselineRestoreOptimization_bool : temp = ReadBits ( Register : : DPP : : PHA : : DPPAlgorithmControl2_G , 1 , 29 , ch ) ; value = temp ; break ;
/// ACQ control
case Setting : : PHA : : StartStopMode_2bit : temp = ReadBits ( Register : : DPP : : AcquisitionControl , 2 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : StartStopACQ_bool : temp = ReadBits ( Register : : DPP : : AcquisitionControl , 1 , 2 ) ; value = temp ; break ;
case Setting : : PHA : : PLLClockSource_bool : temp = ReadBits ( Register : : DPP : : AcquisitionControl , 1 , 6 ) ; value = temp ; break ;
case Setting : : PHA : : VetoInForTRGOUT_bool : temp = ReadBits ( Register : : DPP : : AcquisitionControl , 1 , 12 ) ; value = temp ; break ;
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/// Global Trigger Mask
case Setting : : PHA : : GlobalTrgMask_8bit : temp = ReadBits ( Register : : DPP : : GlobalTriggerMask , 8 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : GlobalTrgMajorityCoincienceWindow_4bit : temp = ReadBits ( Register : : DPP : : GlobalTriggerMask , 4 , 20 ) ; value = temp ; break ;
case Setting : : PHA : : GlobalTrgMajorityLevel_3bit : temp = ReadBits ( Register : : DPP : : GlobalTriggerMask , 3 , 24 ) ; value = temp ; break ;
case Setting : : PHA : : GlobalTrgExternalTrigger_bool : temp = ReadBits ( Register : : DPP : : GlobalTriggerMask , 1 , 30 ) ; value = temp ; break ;
case Setting : : PHA : : GlobalTrgSoftwareTrigger_bool : temp = ReadBits ( Register : : DPP : : GlobalTriggerMask , 1 , 31 ) ; value = temp ; break ;
/// Front Panel TRG-OUT Mask
case Setting : : PHA : : FrontTRGOUTMask_8bit : temp = ReadBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , 8 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : FrontTRGOUTLogic_2bit : temp = ReadBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , 2 , 8 ) ; value = temp ; break ;
case Setting : : PHA : : FrontTRGOUTMajorityLevel_3bit : temp = ReadBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , 3 , 10 ) ; value = temp ; break ;
case Setting : : PHA : : FrontTRGOUTExternalTrigger_bool : temp = ReadBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , 1 , 30 ) ; value = temp ; break ;
case Setting : : PHA : : FrontTRGOUTSoftwareTrigger_bool : temp = ReadBits ( Register : : DPP : : FrontPanelTRGOUTEnableMask , 1 , 31 ) ; value = temp ; break ;
/// Front Plane I/O
case Setting : : PHA : : FrontPanelIO_LEMO_bool : temp = ReadBits ( Register : : DPP : : FrontPanelIOControl , 1 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : FrontPanelIO_TRGOUT_bool : temp = ReadBits ( Register : : DPP : : FrontPanelIOControl , 1 , 1 ) ; value = temp ; break ;
case Setting : : PHA : : FrontPanelIO_TRGINCtrl_bool : temp = ReadBits ( Register : : DPP : : FrontPanelIOControl , 1 , 10 ) ; value = temp ; break ;
case Setting : : PHA : : FrontPanelIO_TRGINtoMezzanines_bool : temp = ReadBits ( Register : : DPP : : FrontPanelIOControl , 1 , 11 ) ; value = temp ; break ;
case Setting : : PHA : : FrontPanelIO_TRGOUTmode_6bit : temp = ReadBits ( Register : : DPP : : FrontPanelIOControl , 6 , 14 ) ; value = temp ; break ;
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/// Trigger Validation Mask
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case Setting : : PHA : : TriggerValidationMask_8bit : temp = ReadBits ( Register : : DPP : : TriggerValidationMask , 8 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : TriggerValidationOperation_2bit : temp = ReadBits ( Register : : DPP : : TriggerValidationMask , 2 , 8 ) ; value = temp ; break ;
case Setting : : PHA : : TriggerValidationMajority_3bit : temp = ReadBits ( Register : : DPP : : TriggerValidationMask , 3 , 10 ) ; value = temp ; break ;
case Setting : : PHA : : TriggerValidationExternalTrigger_bool : temp = ReadBits ( Register : : DPP : : TriggerValidationMask , 1 , 30 ) ; value = temp ; break ;
case Setting : : PHA : : TriggerValidationSoftwareTrigger_bool : temp = ReadBits ( Register : : DPP : : TriggerValidationMask , 1 , 31 ) ; value = temp ; break ;
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/// Registers
case Setting : : PHA : : RecordLength_G_ns : temp = ReadRegister ( Register : : DPP : : RecordLength_G , ch ) ; value = temp * 8 * ch2ns ; break ;
case Setting : : PHA : : PreTriggerLength_ns : temp = ReadRegister ( Register : : DPP : : PreTrigger , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : InputDynamicRange_bool : temp = ReadRegister ( Register : : DPP : : InputDynamicRange , ch ) ; value = temp ; break ;
case Setting : : PHA : : DCOffset_precentage : temp = ReadRegister ( Register : : DPP : : ChannelDCOffset , ch ) ; value = 1.0 - temp * 1.0 / 0xFFFF ; break ;
case Setting : : PHA : : EventPreAggregate_G_max1023 : temp = ReadRegister ( Register : : DPP : : NumberEventsPerAggregate_G , ch ) ; value = temp ; break ;
case Setting : : PHA : : VetoWidth_ns : {
temp = ReadRegister ( Register : : DPP : : VetoWidth , ch ) ;
switch ( temp ) {
case 0 : value = 4 * ch2ns ; break ; ///ns
case 1 : value = 1000 * ch2ns ; break ; ///ns
case 2 : value = 262000 * ch2ns ; break ; ///ns
case 3 : value = 66000000 * ch2ns ; break ; ///ns
default : value = temp ; break ; /// bit
}
break ;
}
case Setting : : PHA : : AggregateOrganization_board_3bit : {
temp = ReadRegister ( Register : : DPP : : AggregateOrganization , ch ) ;
value = ( ( temp & 0x007 ) < 2 ? 0 : ( int ) pow ( 2 , temp & 7 ) ) ;
break ;
}
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case Setting : : PHA : : MaxAggregatePerBlockTransfer_board_10bit : temp = ReadRegister ( Register : : DPP : : MaxAggregatePerBlockTransfer , ch ) ; value = temp ; break ;
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case Setting : : PHA : : TriggerThreshold_LSD : temp = ReadRegister ( Register : : DPP : : PHA : : TriggerThreshold , ch ) ; value = temp ; break ;
case Setting : : PHA : : TriggerHoldOffWidth_ns : temp = ReadRegister ( Register : : DPP : : PHA : : TriggerHoldOffWidth , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : TriggerSmoothingFactor_5bit : temp = ReadRegister ( Register : : DPP : : PHA : : RCCR2SmoothingFactor , ch ) ; value = ( temp & 0x1f ) * 2 * ch2ns ; break ;
case Setting : : PHA : : TriggerOutputWidth_ns : temp = ReadRegister ( Register : : DPP : : PHA : : ShapedTriggerWidth , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : InputRiseTime_ns : temp = ReadRegister ( Register : : DPP : : PHA : : InputRiseTime , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : TrapezoidRiseTime_ns : temp = ReadRegister ( Register : : DPP : : PHA : : TrapezoidRiseTime , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : TrapezoidFlatTop_ns : temp = ReadRegister ( Register : : DPP : : PHA : : TrapezoidFlatTop , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : DecayTime_ns : temp = ReadRegister ( Register : : DPP : : PHA : : DecayTime , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : PeakingTime_ns : temp = ReadRegister ( Register : : DPP : : PHA : : PeakingTime , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : PeakingHoldOff_ns : temp = ReadRegister ( Register : : DPP : : PHA : : PeakHoldOff , ch ) ; value = temp * 4 * ch2ns ; break ;
case Setting : : PHA : : EnergyFineGain_16bit : temp = ReadRegister ( Register : : DPP : : PHA : : FineGain , ch ) ; value = temp ; break ;
case Setting : : PHA : : RiseTimeValidationWindow_ns : temp = ReadRegister ( Register : : DPP : : PHA : : RiseTimeValidationWindow , ch ) ; value = temp * ch2ns ; break ;
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/// Others
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case Setting : : PHA : : FanSpeedControl_bool : temp = ReadRegister ( Register : : DPP : : FanSpeedControl ) ; value = temp & 0x8 ; break ;
case Setting : : PHA : : RunStartStopDelay_8bit : temp = ReadRegister ( Register : : DPP : : RunStartStopDelay ) ; value = temp & 0xFF ; break ;
case Setting : : PHA : : DisableExternalTrigger_bool : temp = ReadRegister ( Register : : DPP : : DisableExternalTrigger ) ; value = temp & 0x1 ; break ;
case Setting : : PHA : : ExtendedVetoDelay_16bit : temp = ReadRegister ( Register : : DPP : : ExtendedVetoDelay ) ; value = temp & 0xffff ; break ;
case Setting : : PHA : : AnalogMonitorMode_3bit : temp = ReadRegister ( Register : : DPP : : AnalogMonitorMode ) ; value = temp & 0x7 ; break ;
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case Setting : : PHA : : BufferOccupancyGain_4bit : temp = ReadRegister ( Register : : DPP : : BufferOccupancyGain ) ; value = temp & 0xf ; break ;
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/// AMC Firmware Revisiion
case Setting : : PHA : : AMCFirmwareNumber_readOnly_8bit : temp = ReadBits ( Register : : DPP : : AMCFirmwareRevision , 7 , 0 ) ; value = temp ; break ;
case Setting : : PHA : : AMCDPPcode_readOnly_8bit : temp = ReadBits ( Register : : DPP : : AMCFirmwareRevision , 8 , 8 ) ; value = temp ; break ;
case Setting : : PHA : : AMCBuildDay_readOnly_8bit : temp = ReadBits ( Register : : DPP : : AMCFirmwareRevision , 8 , 16 ) ; value = temp ; break ;
case Setting : : PHA : : AMCBuildMonth_readOnly_4bits : temp = ReadBits ( Register : : DPP : : AMCFirmwareRevision , 4 , 24 ) ; value = temp ; break ;
case Setting : : PHA : : AMCBuildYear_readOnly_4bits : temp = ReadBits ( Register : : DPP : : AMCFirmwareRevision , 4 , 28 ) ; value = temp ; break ;
/// ACQ Status
case Setting : : PHA : : ACQStatus_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 2 ) ; value = temp ; break ;
case Setting : : PHA : : ACQEventReady_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 3 ) ; value = temp ; break ;
case Setting : : PHA : : ACQEventFull_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 4 ) ; value = temp ; break ;
case Setting : : PHA : : ACQClockSource_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 5 ) ; value = temp ; break ;
case Setting : : PHA : : ACQPLLLock_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 7 ) ; value = temp ; break ;
case Setting : : PHA : : ACQBoardReady_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 8 ) ; value = temp ; break ;
case Setting : : PHA : : ACQ_S_IN_Statue_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 15 ) ; value = temp ; break ;
case Setting : : PHA : : ACQ_TRGIN_Status_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 16 ) ; value = temp ; break ;
case Setting : : PHA : : ACQChannelShutDownStatus_readOnly_bool : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 1 , 19 ) ; value = temp ; break ;
case Setting : : PHA : : ACQTenmperatureStatus_readOnly_4bit : temp = ReadBits ( Register : : DPP : : AcquisitionStatus , 4 , 20 ) ; value = temp ; break ;
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}
return value ;
}
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void DigitizerPHA : : AutoSetTrapezoidRescalingAndFindGate ( double gain , int ch ) {
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int startCh = 0 ;
int endCh = MaxNChannels ;
if ( ch > = 0 ) {
startCh = ch ;
endCh = ch ;
}
for ( int i = startCh ; i < = endCh ; i + + ) {
double riseTime = ReadRegister ( Register : : DPP : : PHA : : TrapezoidRiseTime , i ) * 4 * ch2ns ;
double flatTop = ReadRegister ( Register : : DPP : : PHA : : TrapezoidFlatTop , i ) * 4 * ch2ns ;
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unsigned int shift = ( unsigned int ) ( log ( riseTime * flatTop ) / log ( 2.0 ) ) ;
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SetTrapezoidRescaling ( shift , i ) ;
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double haha = 0xFFFF * gain * ( pow ( 2 , shift ) / riseTime / flatTop ) ;
unsigned int fineGain = ( unsigned int ) ( haha ) ;
if ( fineGain > 0xFFFF ) {
SetEnergyFineGain ( 0xFFFF , i ) ;
} else {
SetEnergyFineGain ( fineGain , i ) ;
}
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}
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ErrorMsg ( " PHA-AutoSetTrapezoidRescalingAndFindGate " ) ;
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}
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void DigitizerPHA : : PrintBoardConfiguration ( ) {
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if ( ! isConnected ) return ;
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uint32_t value = PrintRegister ( Register : : DPP : : BoardConfiguration , " Board Configuration " ) ;
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printf ( " Bit[ 0] = %d = Auto Data Flush \n " , value & 0x1 ) ;
printf ( " Bit[ 1] = %d = Decimated waveform \n " , ( value > > 1 ) & 0x1 ) ;
printf ( " Bit[ 2] = %d = Trigger propagation \n " , ( value > > 2 ) & 0x1 ) ;
printf ( " Bit[ 3:10] = %d = must be 001 0001 0 = 22 \n " , ( value > > 3 ) & 0xFF ) ;
printf ( " Bit[ 11] = %d = Dual Trace \n " , ( value > > 11 ) & 0x1 ) ;
printf ( " Bit[12:13] = %d = Analog probe 1 : " , ( ( value > > 12 ) & 0x3 ) ) ;
switch ( ( ( value > > 12 ) & 0x3 ) ) {
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case 0 : printf ( " input \n " ) ; break ;
case 1 : printf ( " RC-CR (1st derivative) \n " ) ; break ;
case 2 : printf ( " RC-CR2 (2nd derivative) \n " ) ; break ;
case 3 : printf ( " Trapezoid \n " ) ; break ;
}
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printf ( " Bit[14:15] = %d = Analog probe 2 : " , ( ( value > > 14 ) & 0x3 ) ) ;
switch ( ( ( value > > 14 ) & 0x3 ) ) {
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case 0 : printf ( " input \n " ) ; break ;
case 1 : printf ( " Threshold \n " ) ; break ;
case 2 : printf ( " Trapezoid - Baseline \n " ) ; break ;
case 3 : printf ( " baseline. \n " ) ; break ;
}
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printf ( " Bit[ 16] = %d = WaveForm Recording \n " , ( ( value > > 16 ) & 0x1 ) ) ;
printf ( " Bit[ 17] = %d = Extras 2 word enable \n " , ( ( value > > 17 ) & 0x1 ) ) ;
printf ( " Bit[ 18] = %d = Record Time Stamp \n " , ( ( value > > 18 ) & 0x1 ) ) ;
printf ( " Bit[ 19] = %d = Record Energy \n " , ( ( value > > 19 ) & 0x1 ) ) ;
printf ( " Bit[20:23] = %d = Digital Virtual probe 1 : " , ( ( value > > 20 ) & 0x7 ) ) ;
switch ( ( ( value > > 20 ) & 0xF ) ) {
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case 0 : printf ( " Peaking, shows where the energy is calculated; \n " ) ; break ;
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case 1 : printf ( " ”Armed”, digital input showing where the RC‐ CR2 crosses the Threshold \n " ) ; break ;
case 2 : printf ( " ”Peak Run”, starts with the trigger and last for the whole event \n " ) ; break ;
case 3 : printf ( " ”Pile‐ up”, shows where a pile‐ up event occurred \n " ) ; break ;
case 4 : printf ( " ”Peaking”, shows where the energy is calculated \n " ) ; break ;
case 5 : printf ( " ”TRG Validation Win”, digital input showing the trigger validation acceptance window TVAW \n " ) ; break ;
case 6 : printf ( " ”Baseline freeze”, shows where the algorithm stops calculating the baseline and its value is frozen \n " ) ; break ;
case 7 : printf ( " ”TRG Holdoff”, shows the trigger hold‐ off parameter \n " ) ; break ;
case 8 : printf ( " ”TRG Validation”, shows the trigger validation signal TRG_VAL \n " ) ; break ;
case 9 : printf ( " ”Acq Busy”, this is 1 when the board is busy (saturated input signal or full memory board) or there is a veto \n " ) ; break ;
case 10 : printf ( " ”Zero Cross. Win.”, shows the RT Discrimination Width \n " ) ; break ;
case 11 : printf ( " ”Ext TRG”, shows the external trigger, when available \n " ) ; break ;
case 12 : printf ( " ”Busy”, shows when the memory board is full. \n " ) ; break ;
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}
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printf ( " Bit[26:28] = %d = Digital Virtual probe 2 : " , ( ( value > > 26 ) & 0x7 ) ) ;
if ( ( ( value > > 26 ) & 0x7 ) = = 0 ) {
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printf ( " Trigger \n " ) ;
} else {
printf ( " Reserved \n " ) ;
}
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}
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void DigitizerPHA : : PrintACQControl ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : AcquisitionControl , " ACQ COntrol " ) ;
///==== Start Stop Mode
printf ( " Bit[1:0] = %d = Start/Stop Mode ( " , value & 0x3 ) ;
switch ( value & 0x3 ) {
case 0 : printf ( " Software controlled) \n " ) ; break ;
case 1 : printf ( " S-IN controlled) \n " ) ; break ;
case 2 : printf ( " 1st trigger controlled) \n " ) ; break ;
case 3 : printf ( " LVDS controlled) \n " ) ; break ;
}
///==== ACQ Start/Arm
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printf ( " Bit[ 2] = %d = Start/Arm (%s) \n " , value & 0x4 , ( value & 0x4 ) = = 0 ? " STOP " : " RUN " ) ;
printf ( " Bit[ 6] = %d = PLL Ref. Clock (%s) \n " , value & 0x40 , ( value & 0x40 ) = = 0 ? " Internal " : " External " ) ;
printf ( " Bit[ 8] = %d = LVDS I/O Busy Enable (%s) \n " , value & 0x100 , ( value & 0x100 ) = = 0 ? " Disabled " : " Enabled " ) ;
printf ( " Bit[ 8] = %d = LVDS I/O Veto Enable (%s) \n " , value & 0x200 , ( value & 0x200 ) = = 0 ? " Disabled " : " Enabled " ) ;
printf ( " Bit[ 12] = %d = Veto-in as veto for TRG-OUT (%s) \n " , value & 0x1000 , ( value & 0x1000 ) = = 0 ? " not used " : " used " ) ;
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}
void DigitizerPHA : : PrintGlobalTriggerMask ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : GlobalTriggerMask , " Global Trigger Mask " ) ;
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printf ( " Bit[ 7:0] = 0x%x = Enabled Paired Channel \n " , value & 0xff ) ;
printf ( " Bit[23:20] = %.0f ns = Majority Coincidence Window \n " , ( ( value > > 20 ) & 0xf ) * 4 * ch2ns ) ;
printf ( " Bit[26:24] = %d = Majority Level \n " , ( ( value > > 24 ) & 0x7 ) ) ;
printf ( " Bit[ 29] = %d = LVDS Trigger(%s) \n " , ( ( value > > 29 ) & 0x1 ) , ( ( value > > 29 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 30] = %d = External Trigger(%s) \n " , ( ( value > > 30 ) & 0x1 ) , ( ( value > > 30 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 31] = %d = Software Trigger(%s) \n " , ( ( value > > 31 ) & 0x1 ) , ( ( value > > 31 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
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}
void DigitizerPHA : : PrintFrontPanelTRIGOUTEnableMask ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : FrontPanelTRGOUTEnableMask , " Front Panel TRG-OUT Mask " ) ;
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printf ( " Bit[ 7:0] = 0x%x = Enabled Paired Channel \n " , value & 0xff ) ;
printf ( " Bit[ 9:8] = %d = TRG-OUT Logic ( " , ( value > > 8 ) & 0x3 ) ;
switch ( ( value > > 8 ) & 0x3 ) {
case 0 : printf ( " OR) \n " ) ; break ;
case 1 : printf ( " AND) \n " ) ; break ;
case 2 : printf ( " MAjority) \n " ) ; break ;
}
printf ( " Bit[12:10] = %d = Majority Level \n " , ( value > > 10 ) & 0x7 ) ;
printf ( " Bit[ 29] = %d = LVDS Trigger(%s) \n " , ( ( value > > 29 ) & 0x1 ) , ( ( value > > 29 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 30] = %d = External Trigger(%s) \n " , ( ( value > > 30 ) & 0x1 ) , ( ( value > > 30 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 31] = %d = Software Trigger(%s) \n " , ( ( value > > 31 ) & 0x1 ) , ( ( value > > 31 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
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}
void DigitizerPHA : : PrintFrontPanelIOControl ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : FrontPanelIOControl , " Front Panel I/O Control " ) ;
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printf ( " Bit[ 0] = %d = LEMO I/O (%s) \n " , value & 0x1 , ( value & 0x1 ) = = 0 ? " NIM " : " TTL " ) ;
printf ( " Bit[ 1] = %d = TRG-OUT (%s) \n " , ( value > > 1 ) & 0x1 , ( ( value > > 1 ) & 0x1 ) = = 0 ? " enabled " : " high impedance " ) ;
printf ( " Bit[ 2] = %d = LVDS I/O [3:0] (%s) \n " , ( value > > 2 ) & 0x1 , ( ( value > > 2 ) & 0x1 ) = = 0 ? " input " : " output " ) ;
printf ( " Bit[ 3] = %d = LVDS I/O [7:4] (%s) \n " , ( value > > 3 ) & 0x1 , ( ( value > > 3 ) & 0x1 ) = = 0 ? " input " : " output " ) ;
printf ( " Bit[ 4] = %d = LVDS I/O [11:8] (%s) \n " , ( value > > 4 ) & 0x1 , ( ( value > > 4 ) & 0x1 ) = = 0 ? " input " : " output " ) ;
printf ( " Bit[ 5] = %d = LVDS I/O [15:12] (%s) \n " , ( value > > 5 ) & 0x1 , ( ( value > > 5 ) & 0x1 ) = = 0 ? " input " : " output " ) ;
printf ( " Bit[ 7:6] = %d = LVDS I/O Signal Config ( " , ( value > > 6 ) & 0x3 ) ;
switch ( ( value > > 6 ) & 0x3 ) {
case 0 : printf ( " general pupose) \n " ) ; break ;
case 1 : printf ( " programmed) \n " ) ; break ;
case 2 : printf ( " pattern mode) \n " ) ; break ;
}
printf ( " Bit[ 8] = %d = LVDS I/O feature (%s) \n " , ( value > > 8 ) & 0x1 , ( ( value > > 8 ) & 0x1 ) = = 0 ? " old " : " new " ) ;
printf ( " Bit[ 9] = %d = LVDS I/O Latch Mode (%s) \n " , ( value > > 9 ) & 0x1 , ( ( value > > 9 ) & 0x1 ) = = 0 ? " global trigger " : " external trigger " ) ;
printf ( " Bit[ 10] = %d = TRG-IN control (%s) \n " , ( value > > 10 ) & 0x1 , ( ( value > > 10 ) & 0x1 ) = = 0 ? " trigger sync with the edge of TRG-IN " : " triger sync with whole TRG-IN " ) ;
printf ( " Bit[ 11] = %d = TRG-IN to Mezzanines (%s) \n " , ( value > > 11 ) & 0x1 , ( ( value > > 11 ) & 0x1 ) = = 0 ? " by motherboard " : " directly to mezzanine " ) ;
printf ( " Bit[ 14] = %d = Force TRG-OUT(%s) \n " , ( value > > 14 ) & 0x1 , ( ( value > > 14 ) & 0x1 ) = = 0 ? " 0 " : " 1 " ) ;
printf ( " Bit[ 15] = %d = TRG-OUT mode(%s) \n " , ( value > > 15 ) & 0x1 , ( ( value > > 15 ) & 0x1 ) = = 0 ? " internal " : " Forced " ) ;
printf ( " Bit[17:16] = %d = TRG-OUT mode( " , ( value > > 16 ) & 0x3 ) ;
switch ( ( value > > 16 ) & 0x3 ) {
case 0 : printf ( " Trigger) \n " ) ; break ;
case 1 : printf ( " Motherboard Probe) \n " ) ; break ;
case 2 : printf ( " Channel Probe) \n " ) ; break ;
case 3 : printf ( " S-IN) \n " ) ; break ;
}
printf ( " Bit[19:18] = %d = Motherboard Probe( " , ( value > > 18 ) & 0x3 ) ;
switch ( ( value > > 18 ) & 0x3 ) {
case 0 : printf ( " RUN) \n " ) ; break ;
case 1 : printf ( " Clock) \n " ) ; break ;
case 2 : printf ( " Clock Phase) \n " ) ; break ;
case 3 : printf ( " BUSY/UNLOCK) \n " ) ; break ;
}
printf ( " Bit[22:21] = %d = Patten Configure(%s) " , ( value > > 21 ) & 0x3 , ( ( value > > 21 ) & 0x3 ) = = 0 ? " default " : " Reserved " ) ;
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}
void DigitizerPHA : : PrintTriggerValidationMask ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : TriggerValidationMask , " Trigger Validation Mask " ) ;
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printf ( " Bit[ 7:0] = 0x%x = Enabled Paired Channel \n " , value & 0xff ) ;
printf ( " Bit[ 9:8] = %d = Operation ( \n " , ( value > > 8 ) & 0x3 ) ;
switch ( ( value > > 8 ) & 0x3 ) {
case 0 : printf ( " OR) \n " ) ; break ;
case 1 : printf ( " AND) \n " ) ; break ;
case 2 : printf ( " Majority) \n " ) ; break ;
case 3 : printf ( " Reserved) \n " ) ; break ;
}
printf ( " Bit[12:10] = %d = Majority Level \n " , ( value > > 10 ) & 0x7 ) ;
printf ( " Bit[ 28] = %d = LVDS I/O Global Trigger(%s) \n " , ( value > > 28 ) & 0x1 , ( ( value > > 28 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 29] = %d = LVDS I/O individual Trigger(%s) \n " , ( value > > 29 ) & 0x1 , ( ( value > > 29 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 30] = %d = External Trigger(%s) \n " , ( value > > 30 ) & 0x1 , ( ( value > > 30 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 31] = %d = Software Trigger(%s) \n " , ( value > > 31 ) & 0x1 , ( ( value > > 31 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
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}
void DigitizerPHA : : PrintBoardInfoRegister ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : BoardInfo , " Board Info " ) ;
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printf ( " Bit[ 7:0] = %d = Digitizer Family Code " , value & 0xff ) ;
switch ( value & 0xff ) {
case 0x0E : printf ( " ( 725 family ) \n " ) ; break ;
case 0x0B : printf ( " ( 730 family ) \n " ) ; break ;
}
printf ( " Bit[ 15:8] = %d = Channel Memory Code " , ( value > > 8 ) & 0xff ) ;
switch ( ( value > > 8 ) & 0xff ) {
case 0x01 : printf ( " ( 640 kSample per channel) \n " ) ; break ;
case 0x08 : printf ( " ( 5.12 MSample per channel) \n " ) ; break ;
}
printf ( " Bit[23:16] = %d = Channel Number " , ( value > > 16 ) & 0xff ) ;
switch ( ( value > > 16 ) & 0xff ) {
case 0x10 : printf ( " ( 16 Channel ) \n " ) ; break ;
case 0x08 : printf ( " ( 8 Channel ) \n " ) ; break ;
}
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}
void DigitizerPHA : : PrintBoardFailureState ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : BoardFailureStatus , " Board Failure State " ) ;
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printf ( " Bit[4] = %d = PLL Lock Loss (%s) \n " , ( value > > 4 ) & 0x1 , ( ( value > > 4 ) & 0x1 ) = = 0 ? " no error " : " Lock Loss " ) ;
printf ( " Bit[5] = %d = Temperature Failure (%s) \n " , ( value > > 5 ) & 0x1 , ( ( value > > 5 ) & 0x1 ) = = 0 ? " no error " : " over heat " ) ;
printf ( " Bit[6] = %d = ADC Power Down (%s) \n " , ( value > > 6 ) & 0x1 , ( ( value > > 6 ) & 0x1 ) = = 0 ? " no error " : " down " ) ;
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}
void DigitizerPHA : : PrintReadoutControl ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : ReadoutControl , " Readout Control " ) ;
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printf ( " Bit[2:0] = %d = VME Interrupt Level %s \n " , value & 0x3 , ( value & 0x3 ) = = 0 ? " (disabled) " : " " ) ;
printf ( " Bit[ 3] = %d = Optical Link Interrupt (%s) \n " , ( value > > 3 ) & 0x1 , ( ( value > > 3 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 4] = %d = VME Bus Error / Event Aligned Readout (%s) \n " , ( value > > 4 ) & 0x1 , ( ( value > > 4 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 5] = %d = VME Align64 Mode (%s) \n " , ( value > > 5 ) & 0x1 , ( ( value > > 5 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 6] = %d = VME Base Address Relocation (%s) \n " , ( value > > 6 ) & 0x1 , ( ( value > > 6 ) & 0x1 ) = = 0 ? " disabled " : " enabled " ) ;
printf ( " Bit[ 7] = %d = Interrupt Release Mode (%s) \n " , ( value > > 7 ) & 0x1 , ( ( value > > 7 ) & 0x1 ) = = 0 ? " Release On Register Access " : " Release On Acknowledge " ) ;
printf ( " Bit[ 8] = %d = Extended Block Transfer Space (%s) \n " , ( value > > 8 ) & 0x1 , ( ( value > > 8 ) & 0x1 ) = = 0 ? " Release On Register Access " : " Release On Acknowledge " ) ;
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}
void DigitizerPHA : : PrintReadoutStatu ( ) {
if ( ! isConnected ) return ;
uint32_t value = PrintRegister ( Register : : DPP : : ReadoutStatus , " Readout Status " ) ;
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printf ( " Bit[0] = %d = Event Ready (%s) \n " , value & 0x1 , ( value & 0x1 ) = = 0 ? " no date " : " ready " ) ;
printf ( " Bit[2] = %d = Bus Error (%s) \n " , ( value > > 2 ) & 0x1 , ( ( value > > 2 ) & 0x1 ) = = 0 ? " no error " : " error occurred " ) ;
printf ( " Bit[3] = %d = VME FIFO Flag (%s) \n " , ( value > > 3 ) & 0x1 , ( ( value > > 3 ) & 0x1 ) = = 0 ? " not empty " : " empty " ) ;
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}
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void DigitizerPHA : : PrintChannelSettingFromDigitizer ( int ch ) {
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if ( ! isConnected ) return ;
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printf ( " \ e[33m================================================ \n " ) ;
printf ( " ================ Setting for channel %d \n " , ch ) ;
printf ( " ================================================ \ e[0m \n " ) ;
///DPP algorithm Control
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uint32_t * value = new uint32_t [ NChannel ] ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : DPPAlgorithmControl + ( ch < < 8 ) , value ) ;
printf ( " 32 28 24 20 16 12 8 4 0 \n " ) ;
printf ( " | | | | | | | | | \n " ) ;
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cout < < " DPP algorithm Control : 0b " < < bitset < 32 > ( value [ 0 ] ) ;
printf ( " = 0x%x \n " , value [ 0 ] ) ;
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int trapRescaling = int ( value [ 0 ] ) & 0x1f ;
int polarity = int ( value [ 0 ] > > 16 ) & 0x1 ; /// in bit[16]
int baseline = int ( value [ 0 ] > > 20 ) & 0x7 ; /// in bit[22:20]
int NsPeak = int ( value [ 0 ] > > 12 ) & 0x3 ; /// in bit[13:12]
int rollOver = int ( value [ 0 ] > > 26 ) & 0x1 ;
int pileUp = int ( value [ 0 ] > > 27 ) & 0x1 ;
///DPP algorithm Control 2
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : DPPAlgorithmControl2_G + ( ch < < 8 ) , value ) ;
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cout < < " DPP algorithm Control 2: 0b " < < bitset < 32 > ( value [ 0 ] ) ;
printf ( " = 0x%x \n " , value [ 0 ] ) ;
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int extras2WordOption = int ( value [ 0 ] > > 8 ) & 0x3 ;
string extra2WordOptStr = " " ;
switch ( extras2WordOption ) {
case 0 : extra2WordOptStr = " [0:15] Baseline *4 [16:31] Extended Time Stamp " ; break ;
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case 2 : extra2WordOptStr = " [0:9] Fine Time Stamp [10:15] Reserved [16:31] Extended Time Stamp " ; break ;
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case 4 : extra2WordOptStr = " [0:15] Total Trigger Counter [16:31] Lost Trigger Counter " ; break ;
case 5 : extra2WordOptStr = " [0:15] Event After the Zero Crossing [16:31] Event Before the Zero Crossing " ; break ;
default : extra2WordOptStr = " Reserved " ; break ;
}
printf ( " ch2ns : %.0f ns \n " , ch2ns ) ;
printf ( " ==========----- input \n " ) ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : RecordLength_G + ( ch < < 8 ) , value ) ; printf ( " %24s %5d samples = %5.0f ns \n " , " Record Length " , ( ( value [ 0 ] * 8 ) & MaxRecordLength ) , ( ( value [ 0 ] * 8 ) & MaxRecordLength ) * ch2ns ) ; ///Record length
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PreTrigger + ( ch < < 8 ) , value ) ; printf ( " %24s %5d samples = %5.0f ns \n " , " Pre-tigger " , value [ 0 ] * 4 , value [ 0 ] * 4 * ch2ns ) ; ///Pre-trigger
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printf ( " %24s %5.0f samples, DPP-[20:22] \n " , " baseline mean " , pow ( 4 , 1 + baseline ) ) ; ///Ns baseline
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : ChannelDCOffset + ( ch < < 8 ) , value ) ; printf ( " %24s %.2f %% \n " , " DC offset " , 100.0 - value [ 0 ] * 100. / 0xFFFF ) ; ///DC offset
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : InputDynamicRange + ( ch < < 8 ) , value ) ; printf ( " %24s %.1f Vpp \n " , " input Dynamic " , value [ 0 ] = = 0 ? 2 : 0.5 ) ; ///InputDynamic
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printf ( " %24s %s, DPP-[16] \n " , " polarity " , polarity = = 0 ? " Positive " : " negative " ) ; ///Polarity
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printf ( " ==========----- discriminator \n " ) ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : TriggerThreshold + ( ch < < 8 ) , value ) ; printf ( " %24s %4d LSB \n " , " Threshold " , value [ 0 ] ) ; ///Threshold
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : TriggerHoldOffWidth + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " trigger hold off " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Trigger Hold off
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : RCCR2SmoothingFactor + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Fast Dis. smoothing " , ( value [ 0 ] & 0x1f ) * 2 , ( value [ 0 ] & 0x1f ) * 2 * ch2ns ) ; ///Fast Discriminator smoothing
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : ShapedTriggerWidth + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Fast Dis. output width " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Fast Dis. output width
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : InputRiseTime + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Input rise time " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Input rise time
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printf ( " ==========----- Trapezoid \n " ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : TrapezoidRiseTime + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Trap. rise time " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Trap. rise time, 2 for 1 ch to 2ns
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int riseTime = value [ 0 ] * 4 * ch2ns ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : TrapezoidFlatTop + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Trap. flat time " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Trap. flat time
int flatTopTime = value [ 0 ] * 4 * ch2ns ;
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double shift = log ( riseTime * flatTopTime ) / log ( 2 ) - 2 ;
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printf ( " %24s %4d bit =? %.1f = Ceil( Log(rise [ns] x decay [ns])/Log(2) ), DPP-[0:5] \n " , " Trap. Rescaling " , trapRescaling , shift ) ; ///Trap. Rescaling Factor
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : DecayTime + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Decay time " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Trap. pole zero
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : PeakingTime + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns = %.2f %% of FlatTop \n " , " Peaking time " , value [ 0 ] , value [ 0 ] * 4 * ch2ns , value [ 0 ] * 400. * ch2ns / flatTopTime ) ; ///Peaking time
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : PeakHoldOff + ( ch < < 8 ) , value ) ; printf ( " %24s %4d samples, %5.0f ns \n " , " Peak hole off " , value [ 0 ] , value [ 0 ] * 4 * ch2ns ) ; ///Peak hold off
printf ( " %24s %4.0f samples, DPP-[12:13] \n " , " Peak mean " , pow ( 4 , NsPeak ) ) ; ///Ns peak
printf ( " ==========----- Other \n " ) ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : FineGain + ( ch < < 8 ) , value ) ; printf ( " %24s %d = 0x%x \n " , " Energy fine gain " , value [ 0 ] , value [ 0 ] ) ; ///Energy fine gain
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : ChannelADCTemperature + ( ch < < 8 ) , value ) ; printf ( " %24s %d C \n " , " Temperature " , value [ 0 ] ) ; ///Temperature
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : RiseTimeValidationWindow + ( ch < < 8 ) , value ) ; printf ( " %24s %.0f ns \n " , " RiseTime Vaild Win. " , value [ 0 ] * ch2ns ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : PHA : : ChannelStopAcquisition + ( ch < < 8 ) , value ) ; printf ( " %24s %d = %s \n " , " Stop Acq bit " , value [ 0 ] & 1 , ( value [ 0 ] & 1 ) = = 0 ? " Run " : " Stop " ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : ChannelStatus + ( ch < < 8 ) , value ) ; printf ( " %24s 0x%x \n " , " Status bit " , ( value [ 0 ] & 0xff ) ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : AMCFirmwareRevision + ( ch < < 8 ) , value ) ; printf ( " %24s 0x%x \n " , " AMC firmware rev. " , value [ 0 ] ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : VetoWidth + ( ch < < 8 ) , value ) ; printf ( " %24s 0x%x \n " , " VetoWidth bit " , value [ 0 ] ) ;
printf ( " %24s %d = %s \n " , " RollOverFlag, DPP-[26] " , rollOver , rollOver ? " enable " : " disable " ) ;
printf ( " %24s %d = %s \n " , " Pile-upFlag, DPP-[27] " , pileUp , pileUp ? " enable " : " disable " ) ;
printf ( " %24s %d, %s \n " , " Extra2 opt, DPP2-[8:10] " , extras2WordOption , extra2WordOptStr . c_str ( ) ) ;
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printf ( " ========= events storage and transfer \n " ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : NumberEventsPerAggregate_G + ( ch < < 8 ) , value ) ; printf ( " %24s %d \n " , " Event Aggregate " , value [ 0 ] & 0x3FF ) ;
CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : AggregateOrganization , value ) ; printf ( " %24s %d \n " , " Buffer Division " , ( ( value [ 0 ] & 0x007 ) < 2 ? 0 : ( int ) pow ( 2 , value [ 0 ] & 7 ) ) ) ;
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CAEN_DGTZ_ReadRegister ( handle , Register : : DPP : : MaxAggregatePerBlockTransfer , value ) ; printf ( " %24s %d \n " , " Num of Agg. / ReadData " , value [ 0 ] & 0x1FF ) ;
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printf ( " ========================================= end of ch-%d \n " , ch ) ;
}