429 lines
25 KiB
C++
429 lines
25 KiB
C++
#ifndef REGISTERADDRESS_H
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#define REGISTERADDRESS_H
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#include <vector>
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///=======
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/// All 0x1XXX registers are either indiviual or Group
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/// Indiviual register are all independence
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/// Group register, 2m and 2m+1 channels setting are shared. and the name will have _G as prefix
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/// Most 0x8XXX registers are common, which share for all channel
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/// For adding Register, two things needed.
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/// 1) add to the namepace
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/// 2) add to the RegisterXXXList
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/// The Reg Class has conversion operator
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/// Reg haha("haha", 0x1234);
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/// uint32_t papa = haha; /// papa = 0x1234
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enum RW { ReadWrite = 0, ReadONLY = 1, WriteONLY = 2};
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class Reg{
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public:
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Reg(){
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this->name = "";
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this->address = 0;
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this->type = 0;
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this->group = 0;
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}
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Reg(std::string name, uint32_t address, char type = 0, bool group = 0){
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this->name = name;
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this->address = address;
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this->type = type;
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this->group = group;
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};
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~Reg(){};
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operator uint32_t () const {return this->address;} /// this allows Reg kaka("kaka", 0x1234) uint32_t haha = kaka;
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std::string GetName() const {return this->name;}
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const char * GetNameChar() const {return this->name.c_str();}
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uint32_t GetAddress() const {return this->address; }
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char GetType() const {return this->type;}
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bool GetGroup() const {return this->group;}
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void Print() const ;
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uint32_t ActualAddress(int ch = -1){
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if( address == 0x8180 ) return (ch < 0 ? address : (address + 4*(ch/2)));
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if( address < 0x8000 ) return (ch < 0 ? (address + 0x7000) : (address + (ch << 8)) );
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if( address >= 0x8000 ) return address;
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return 0;
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}
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unsigned short Index (unsigned short ch);
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uint32_t CalAddress(unsigned int index); /// output actual address, also write the registerAddress
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void SetName(std::string str) {this->name = str;}
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private:
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uint32_t address; /// This is the table of register, the actual address should call ActualAddress();
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std::string name;
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char type; /// read/write = 0; read = 1; write = 2
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bool group;
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};
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inline void Reg::Print() const{
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printf(" Name: %s\n", name.c_str());
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printf("Address: 0x%04X\n", address);
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printf(" Type: %s\n", type == RW::ReadWrite ? "Read/Write" : (type == RW::ReadONLY ? "Read-Only" : "Write-Only") );
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printf(" Group: %s\n", group ? "True" : "False");
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}
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inline unsigned short Reg::Index (unsigned short ch){
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unsigned short index;
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if( address == 0x8180){
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index = ((address + 4*(ch/2)) & 0x0FFF) / 4;
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}else if( address < 0x8000){
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index = (address + (ch << 8)) / 4;
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}else{
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if(address < 0xF000) {
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index = (address & 0x0FFF) / 4;
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}else{
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index = ((address & 0x0FFF) + 0x0200 ) / 4;
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}
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}
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return index;
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}
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inline uint32_t Reg::CalAddress(unsigned int index){
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uint32_t actualAddress = 0xFFFF;
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this->address = 0xFFFF;
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if( index < 0x0200 /4 ) {actualAddress = index * 4 + 0x8000; this->address = index * 4 + 0x8000; }
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if( 0x0200 / 4 <= index && index < 0x0300 /4 ) {actualAddress = index * 4 + 0xEE00; this->address = index * 4 + 0xEE00; }/// EE00 == F000 - 0200
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if( 0x0F00 / 4 <= index && index < 0x1000 /4 ) {actualAddress = index * 4 + 0xE000; this->address = index * 4 + 0xE000; }
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if( 0x1000 / 4 <= index ) {actualAddress = index * 4; this->address = (index * 4) & 0xF0FF; }
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///for TriggerValidationMask
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if( index == ((0x8180 + 4) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 4; address = 0x8180;} /// 1
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if( index == ((0x8180 + 8) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 8; address = 0x8180;} /// 2
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if( index == ((0x8180 + 12) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 12; address = 0x8180;} /// 3
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if( index == ((0x8180 + 16) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 16; address = 0x8180;} /// 4
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if( index == ((0x8180 + 20) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 20; address = 0x8180;} /// 5
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if( index == ((0x8180 + 24) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 24; address = 0x8180;} /// 6
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if( index == ((0x8180 + 28) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 28; address = 0x8180;} /// 7
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return actualAddress;
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}
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namespace Register {
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const Reg EventReadOutBuffer("EventReadOutBuffer", 0x0000, 1); /// R
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///========== Channel or Group
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const Reg ChannelDummy32 ("ChannelDummy32" , 0x1024); /// R/W
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const Reg InputDynamicRange ("InputDynamicRange" , 0x1028); /// R/W
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const Reg ChannelPulseWidth ("ChannelPulseWidth" , 0x1070); /// R/W
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const Reg ChannelTriggerThreshold ("ChannelTriggerThreshold" , 0x1080); /// R/W
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const Reg CoupleSelfTriggerLogic_G ("CoupleSelfTriggerLogic_G" , 0x1084, 0 , 1); /// R/W
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const Reg ChannelStatus_R ("ChannelStatus_R" , 0x1088, 1); /// R
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const Reg AMCFirmwareRevision_R ("AMCFirmwareRevision_R" , 0x108C, 1); /// R
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const Reg ChannelDCOffset ("ChannelDCOffset" , 0x1098); /// R/W
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const Reg ChannelADCTemperature_R ("ChannelADCTemperature_R" , 0x10A8, 1); /// R
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const Reg ChannelSelfTriggerRateMeter_R ("ChannelSelfTriggerRateMeter_R", 0x10EC, 1); /// R
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///========== Board
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const Reg BoardConfiguration ("BoardConfiguration" , 0x8000, 0); /// R/W
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const Reg BufferOrganization ("BufferOrganization" , 0x800C, 0); /// R/W
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const Reg CustomSize ("CustomSize" , 0x8020, 0); /// R/W
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const Reg ADCCalibration_W ("ADCCalibration_W" , 0x809C, 2); /// W
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const Reg AcquisitionControl ("AcquisitionControl" , 0x8100, 0); /// R/W
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const Reg AcquisitionStatus_R ("AcquisitionStatus_R" , 0x8104, 1); /// R
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const Reg SoftwareTrigger_W ("SoftwareTrigger_W" , 0x8108, 2); /// W
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const Reg GlobalTriggerMask ("GlobalTriggerMask" , 0x810C, 0); /// R/W
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const Reg FrontPanelTRGOUTEnableMask ("FrontPanelTRGOUTEnableMask" , 0x8110, 0); /// R/W
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const Reg PostTrigger ("PostTrigger" , 0x8114, 0); /// R/W
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const Reg LVDSIOData ("LVDSIOData" , 0x8118, 0); /// R/W
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const Reg FrontPanelIOControl ("FrontPanelIOControl" , 0x811C, 0); /// R/W
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const Reg ChannelEnableMask ("ChannelEnableMask" , 0x8120, 0); /// R/W
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const Reg ROCFPGAFirmwareRevision_R ("ROCFPGAFirmwareRevision_R" , 0x8124, 1); /// R
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const Reg EventStored_R ("EventStored_R" , 0x812C, 1); /// R
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const Reg VoltageLevelModeConfig ("VoltageLevelModeConfig" , 0x8138, 0); /// R/W
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const Reg SoftwareClockSync_W ("SoftwareClockSync_W" , 0x813C, 2); /// W
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const Reg BoardInfo_R ("BoardInfo_R" , 0x8140, 1); /// R
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const Reg AnalogMonitorMode ("AnalogMonitorMode" , 0x8144, 0); /// R/W
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const Reg EventSize_R ("EventSize_R" , 0x814C, 1); /// R
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const Reg FanSpeedControl ("FanSpeedControl" , 0x8168, 0); /// R/W
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const Reg MemoryBufferAlmostFullLevel ("MemoryBufferAlmostFullLevel" , 0x816C, 0); /// R/W
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const Reg RunStartStopDelay ("RunStartStopDelay" , 0x8170, 0); /// R/W
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const Reg BoardFailureStatus_R ("BoardFailureStatus_R" , 0x8178, 1); /// R
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const Reg FrontPanelLVDSIONewFeatures ("FrontPanelLVDSIONewFeatures" , 0x81A0, 0); /// R/W
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const Reg BufferOccupancyGain ("BufferOccupancyGain" , 0x81B4, 0); /// R/W
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const Reg ChannelsShutdown_W ("ChannelsShutdown_W" , 0x81C0, 2); /// W
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const Reg ExtendedVetoDelay ("ExtendedVetoDelay" , 0x81C4, 0); /// R/W
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const Reg ReadoutControl ("ReadoutControl" , 0xEF00, 0); /// R/W
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const Reg ReadoutStatus_R ("ReadoutStatus_R" , 0xEF04, 1); /// R
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const Reg BoardID ("BoardID" , 0xEF08, 0); /// R/W
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const Reg MCSTBaseAddressAndControl ("MCSTBaseAddressAndControl" , 0xEF0C, 0); /// R/W
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const Reg RelocationAddress ("RelocationAddress" , 0xEF10, 0); /// R/W
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const Reg InterruptStatusID ("InterruptStatusID" , 0xEF14, 0); /// R/W
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const Reg InterruptEventNumber ("InterruptEventNumber" , 0xEF18, 0); /// R/W
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const Reg MaxAggregatePerBlockTransfer ("MaxAggregatePerBlockTransfer" , 0xEF1C, 0); /// R/W
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const Reg Scratch ("Scratch" , 0xEF20, 0); /// R/W
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const Reg SoftwareReset_W ("SoftwareReset_W" , 0xEF24, 2); /// W
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const Reg SoftwareClear_W ("SoftwareClear_W" , 0xEF28, 2); /// W
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///====== Common for PHA and PSD
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namespace DPP {
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const Reg RecordLength_G ("RecordLength_G" , 0x1020, 0, 1); /// R/W
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const Reg InputDynamicRange ("InputDynamicRange" , 0x1028, 0); /// R/W
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const Reg NumberEventsPerAggregate_G ("NumberEventsPerAggregate_G" , 0x1034, 0, 1); /// R/W
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const Reg PreTrigger ("PreTrigger" , 0x1038, 0); /// R/W
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const Reg TriggerThreshold ("TriggerThreshold" , 0x106C, 0); /// R/W
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const Reg TriggerHoldOffWidth ("TriggerHoldOffWidth" , 0x1074, 0); /// R/W
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const Reg DPPAlgorithmControl ("DPPAlgorithmControl" , 0x1080, 0); /// R/W
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const Reg ChannelStatus_R ("ChannelStatus_R" , 0x1088, 1); /// R
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const Reg AMCFirmwareRevision_R ("AMCFirmwareRevision_R" , 0x108C, 1); /// R
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const Reg ChannelDCOffset ("ChannelDCOffset" , 0x1098, 0); /// R/W
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const Reg ChannelADCTemperature_R ("ChannelADCTemperature_R" , 0x10A8, 1); /// R
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const Reg IndividualSoftwareTrigger_W ("IndividualSoftwareTrigger_W" , 0x10C0, 2); /// W
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const Reg VetoWidth ("VetoWidth" , 0x10D4, 0); /// R/W
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/// I know there are many duplication, it is the design.
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const Reg BoardConfiguration ("BoardConfiguration" , 0x8000, 0 ); /// R/W
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const Reg AggregateOrganization ("AggregateOrganization" , 0x800C, 0 ); /// R/W
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const Reg ADCCalibration_W ("ADCCalibration_W" , 0x809C, 2 ); /// W
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const Reg ChannelShutdown_W ("ChannelShutdown_W" , 0x80BC, 2 ); /// W
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const Reg AcquisitionControl ("AcquisitionControl" , 0x8100, 0 ); /// R/W
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const Reg AcquisitionStatus_R ("AcquisitionStatus_R" , 0x8104, 1 ); /// R
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const Reg SoftwareTrigger_W ("SoftwareTrigger_W" , 0x8108, 2 ); /// W
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const Reg GlobalTriggerMask ("GlobalTriggerMask" , 0x810C, 0 ); /// R/W
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const Reg FrontPanelTRGOUTEnableMask ("FrontPanelTRGOUTEnableMask" , 0x8110, 0 ); /// R/W
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const Reg LVDSIOData ("LVDSIOData" , 0x8118, 0 ); /// R/W
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const Reg FrontPanelIOControl ("FrontPanelIOControl" , 0x811C, 0 ); /// R/W
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const Reg ChannelEnableMask ("ChannelEnableMask" , 0x8120, 0 ); /// R/W
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const Reg ROCFPGAFirmwareRevision_R ("ROCFPGAFirmwareRevision_R" , 0x8124, 1 ); /// R
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const Reg EventStored_R ("EventStored_R" , 0x812C, 1 ); /// R
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const Reg VoltageLevelModeConfig ("VoltageLevelModeConfig" , 0x8138, 0 ); /// R/W
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const Reg SoftwareClockSync_W ("SoftwareClockSync_W" , 0x813C, 2 ); /// W
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const Reg BoardInfo_R ("BoardInfo_R" , 0x8140, 1 ); /// R
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const Reg AnalogMonitorMode ("AnalogMonitorMode" , 0x8144, 0 ); /// R/W
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const Reg EventSize_R ("EventSize_R" , 0x814C, 1 ); /// R
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const Reg TimeBombDowncounter_R ("TimeBombDowncounter_R" , 0x8158, 1 ); /// R
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const Reg FanSpeedControl ("FanSpeedControl" , 0x8168, 0 ); /// R/W
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const Reg RunStartStopDelay ("RunStartStopDelay" , 0x8170, 0 ); /// R/W
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const Reg BoardFailureStatus_R ("BoardFailureStatus_R" , 0x8178, 1 ); /// R
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const Reg DisableExternalTrigger ("DisableExternalTrigger" , 0x817C, 0 ); /// R/W
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const Reg TriggerValidationMask_G ("TriggerValidationMask_G" , 0x8180, 0 , 1); /// R/W,
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const Reg FrontPanelLVDSIONewFeatures ("FrontPanelLVDSIONewFeatures" , 0x81A0, 0 ); /// R/W
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const Reg BufferOccupancyGain ("BufferOccupancyGain" , 0x81B4, 0 ); /// R/W
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const Reg ExtendedVetoDelay ("ExtendedVetoDelay" , 0x81C4, 0 ); /// R/W
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const Reg ReadoutControl ("ReadoutControl" , 0xEF00, 0 ); /// R/W
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const Reg ReadoutStatus_R ("ReadoutStatus_R" , 0xEF04, 1 ); /// R
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const Reg BoardID ("BoardID" , 0xEF08, 0 ); /// R/W
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const Reg MCSTBaseAddressAndControl ("MCSTBaseAddressAndControl" , 0xEF0C, 0 ); /// R/W
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const Reg RelocationAddress ("RelocationAddress" , 0xEF10, 0 ); /// R/W
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const Reg InterruptStatusID ("InterruptStatusID" , 0xEF14, 0 ); /// R/W
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const Reg InterruptEventNumber ("InterruptEventNumber" , 0xEF18, 0 ); /// R/W
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const Reg MaxAggregatePerBlockTransfer("MaxAggregatePerBlockTransfer", 0xEF1C, 0 ); /// R/W
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const Reg Scratch ("Scratch" , 0xEF20, 0 ); /// R/W
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const Reg SoftwareReset_W ("SoftwareReset_W" , 0xEF24, 2 ); /// W
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const Reg SoftwareClear_W ("SoftwareClear_W" , 0xEF28, 2 ); /// W
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const Reg ConfigurationReload_W ("ConfigurationReload_W" , 0xEF34, 2 ); /// W
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const Reg ROMChecksum_R ("ROMChecksum_R" , 0xF000, 1 ); /// R
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const Reg ROMChecksumByte2_R ("ROMChecksumByte2_R" , 0xF004, 1 ); /// R
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const Reg ROMChecksumByte1_R ("ROMChecksumByte1_R" , 0xF008, 1 ); /// R
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const Reg ROMChecksumByte0_R ("ROMChecksumByte0_R" , 0xF00C, 1 ); /// R
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const Reg ROMConstantByte2_R ("ROMConstantByte2_R" , 0xF010, 1 ); /// R
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const Reg ROMConstantByte1_R ("ROMConstantByte1_R" , 0xF014, 1 ); /// R
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const Reg ROMConstantByte0_R ("ROMConstantByte0_R" , 0xF018, 1 ); /// R
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const Reg ROM_C_Code_R ("ROM_C_Code_R" , 0xF01C, 1 ); /// R
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const Reg ROM_R_Code_R ("ROM_R_Code_R" , 0xF020, 1 ); /// R
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const Reg ROM_IEEE_OUI_Byte2_R ("ROM_IEEE_OUI_Byte2_R" , 0xF024, 1 ); /// R
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const Reg ROM_IEEE_OUI_Byte1_R ("ROM_IEEE_OUI_Byte1_R" , 0xF028, 1 ); /// R
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const Reg ROM_IEEE_OUI_Byte0_R ("ROM_IEEE_OUI_Byte0_R" , 0xF02C, 1 ); /// R
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const Reg ROM_BoardVersion_R ("ROM_BoardVersion_R" , 0xF030, 1 ); /// R
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const Reg ROM_BoardFromFactor_R ("ROM_BoardFromFactor_R" , 0xF034, 1 ); /// R
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const Reg ROM_BoardIDByte1_R ("ROM_BoardIDByte1_R" , 0xF038, 1 ); /// R
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const Reg ROM_BoardIDByte0_R ("ROM_BoardIDByte0_R" , 0xF03C, 1 ); /// R
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const Reg ROM_PCB_rev_Byte3_R ("ROM_PCB_rev_Byte3_R" , 0xF040, 1 ); /// R
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const Reg ROM_PCB_rev_Byte2_R ("ROM_PCB_rev_Byte2_R" , 0xF044, 1 ); /// R
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const Reg ROM_PCB_rev_Byte1_R ("ROM_PCB_rev_Byte1_R" , 0xF048, 1 ); /// R
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const Reg ROM_PCB_rev_Byte0_R ("ROM_PCB_rev_Byte0_R" , 0xF04C, 1 ); /// R
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const Reg ROM_FlashType_R ("ROM_FlashType_R" , 0xF050, 1 ); /// R
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const Reg ROM_BoardSerialNumByte1_R ("ROM_BoardSerialNumByte1_R" , 0xF080, 1 ); /// R
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const Reg ROM_BoardSerialNumByte0_R ("ROM_BoardSerialNumByte0_R" , 0xF084, 1 ); /// R
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const Reg ROM_VCXO_Type_R ("ROM_VCXO_Type_R" , 0xF088, 1 ); /// R
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namespace PHA {
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const Reg DataFlush_W ("DataFlush_W" , 0x103C, 2); /// W not sure
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const Reg ChannelStopAcquisition ("ChannelStopAcquisition" , 0x1040); /// R/W not sure
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const Reg RCCR2SmoothingFactor ("RCCR2SmoothingFactor" , 0x1054); /// R/W Trigger Filter smoothing, triggerSmoothingFactor
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const Reg InputRiseTime ("InputRiseTime" , 0x1058); /// R/W OK
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const Reg TrapezoidRiseTime ("TrapezoidRiseTime" , 0x105C); /// R/W OK
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const Reg TrapezoidFlatTop ("TrapezoidFlatTop" , 0x1060); /// R/W OK
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const Reg PeakingTime ("PeakingTime" , 0x1064); /// R/W OK
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const Reg DecayTime ("DecayTime" , 0x1068); /// R/W OK
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const Reg TriggerThreshold ("TriggerThreshold" , 0x106C); /// R/W OK
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const Reg RiseTimeValidationWindow ("RiseTimeValidationWindow" , 0x1070); /// R/W OK
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const Reg TriggerHoldOffWidth ("TriggerHoldOffWidth" , 0x1074); /// R/W OK
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const Reg PeakHoldOff ("PeakHoldOff" , 0x1078); /// R/W OK
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const Reg ShapedTriggerWidth ("ShapedTriggerWidth" , 0x1084); /// R/W not sure
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const Reg DPPAlgorithmControl2_G ("DPPAlgorithmControl2_G" , 0x10A0, 0, 1); /// R/W OK
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const Reg FineGain ("FineGain" , 0x10C4); /// R/W OK
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}
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namespace PSD {
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const Reg CFDSetting ("CFDSetting" , 0x103C); /// R/W
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const Reg ForcedDataFlush_W ("ForcedDataFlush_W" , 0x1040, 2); /// W
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const Reg ChargeZeroSuppressionThreshold ("ChargeZeroSuppressionThreshold" , 0x1044); /// R/W
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const Reg ShortGateWidth ("ShortGateWidth" , 0x1054); /// R/W
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const Reg LongGateWidth ("LongGateWidth" , 0x1058); /// R/W
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const Reg GateOffset ("GateOffset" , 0x105C); /// R/W
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const Reg TriggerThreshold ("TriggerThreshold" , 0x1060); /// R/W
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const Reg FixedBaseline ("FixedBaseline" , 0x1064); /// R/W
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const Reg TriggerLatency ("TriggerLatency" , 0x106C); /// R/W
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const Reg ShapedTriggerWidth ("ShapedTriggerWidth" , 0x1070); /// R/W
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const Reg TriggerHoldOffWidth ("TriggerHoldOffWidth" , 0x1074); /// R/W
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const Reg ThresholdForPSDCut ("ThresholdForPSDCut" , 0x1078); /// R/W
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const Reg PurGapThreshold ("PurGapThreshold" , 0x107C); /// R/W
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const Reg DPPAlgorithmControl2_G ("DPPAlgorithmControl2_G" , 0x1084, 0, 1); /// R/W
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const Reg EarlyBaselineFreeze ("EarlyBaselineFreeze" , 0x10D8); /// R/W
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}
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}
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};
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const std::vector<Reg> RegisterPHAList = {
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Register::DPP::PHA::DataFlush_W ,
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Register::DPP::PHA::ChannelStopAcquisition ,
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Register::DPP::PHA::RCCR2SmoothingFactor ,
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Register::DPP::PHA::InputRiseTime ,
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Register::DPP::PHA::TrapezoidRiseTime ,
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Register::DPP::PHA::TrapezoidFlatTop ,
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Register::DPP::PHA::PeakingTime ,
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Register::DPP::PHA::DecayTime ,
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Register::DPP::PHA::TriggerThreshold ,
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Register::DPP::PHA::RiseTimeValidationWindow ,
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Register::DPP::PHA::TriggerHoldOffWidth ,
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Register::DPP::PHA::PeakHoldOff ,
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Register::DPP::PHA::ShapedTriggerWidth ,
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Register::DPP::PHA::DPPAlgorithmControl2_G ,
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Register::DPP::PHA::FineGain ,
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Register::DPP::RecordLength_G ,
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Register::DPP::InputDynamicRange ,
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Register::DPP::NumberEventsPerAggregate_G ,
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Register::DPP::PreTrigger ,
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Register::DPP::TriggerThreshold ,
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Register::DPP::TriggerHoldOffWidth ,
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Register::DPP::DPPAlgorithmControl ,
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Register::DPP::ChannelStatus_R ,
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Register::DPP::AMCFirmwareRevision_R ,
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Register::DPP::ChannelDCOffset ,
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Register::DPP::ChannelADCTemperature_R ,
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Register::DPP::IndividualSoftwareTrigger_W,
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Register::DPP::VetoWidth ,
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Register::DPP::TriggerValidationMask_G
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};
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const std::vector<Reg> RegisterPSDList = {
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Register::DPP::PSD::CFDSetting ,
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Register::DPP::PSD::ForcedDataFlush_W ,
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Register::DPP::PSD::ChargeZeroSuppressionThreshold ,
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Register::DPP::PSD::ShortGateWidth ,
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Register::DPP::PSD::LongGateWidth ,
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Register::DPP::PSD::GateOffset ,
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Register::DPP::PSD::TriggerThreshold ,
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Register::DPP::PSD::FixedBaseline ,
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Register::DPP::PSD::TriggerLatency ,
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Register::DPP::PSD::ShapedTriggerWidth ,
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Register::DPP::PSD::TriggerHoldOffWidth ,
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Register::DPP::PSD::ThresholdForPSDCut ,
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Register::DPP::PSD::PurGapThreshold ,
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Register::DPP::PSD::DPPAlgorithmControl2_G ,
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Register::DPP::PSD::EarlyBaselineFreeze ,
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Register::DPP::RecordLength_G ,
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Register::DPP::InputDynamicRange ,
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Register::DPP::NumberEventsPerAggregate_G ,
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Register::DPP::PreTrigger ,
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Register::DPP::TriggerThreshold ,
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Register::DPP::TriggerHoldOffWidth ,
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Register::DPP::DPPAlgorithmControl ,
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Register::DPP::ChannelStatus_R ,
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Register::DPP::AMCFirmwareRevision_R ,
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Register::DPP::ChannelDCOffset ,
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Register::DPP::ChannelADCTemperature_R ,
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Register::DPP::IndividualSoftwareTrigger_W,
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Register::DPP::VetoWidth ,
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Register::DPP::TriggerValidationMask_G
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};
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/// Only Board Setting
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const std::vector<Reg> RegisterDPPList = {
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Register::DPP::BoardConfiguration ,
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Register::DPP::AggregateOrganization ,
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Register::DPP::ADCCalibration_W ,
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Register::DPP::ChannelShutdown_W ,
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Register::DPP::AcquisitionControl ,
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Register::DPP::AcquisitionStatus_R ,
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Register::DPP::SoftwareTrigger_W ,
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Register::DPP::GlobalTriggerMask ,
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|
Register::DPP::FrontPanelTRGOUTEnableMask ,
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Register::DPP::LVDSIOData ,
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|
Register::DPP::FrontPanelIOControl ,
|
|
Register::DPP::ChannelEnableMask ,
|
|
Register::DPP::ROCFPGAFirmwareRevision_R ,
|
|
Register::DPP::EventStored_R ,
|
|
Register::DPP::VoltageLevelModeConfig ,
|
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Register::DPP::SoftwareClockSync_W ,
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Register::DPP::BoardInfo_R ,
|
|
Register::DPP::AnalogMonitorMode ,
|
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Register::DPP::EventSize_R ,
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Register::DPP::TimeBombDowncounter_R ,
|
|
Register::DPP::FanSpeedControl ,
|
|
Register::DPP::RunStartStopDelay ,
|
|
Register::DPP::BoardFailureStatus_R ,
|
|
Register::DPP::DisableExternalTrigger ,
|
|
Register::DPP::FrontPanelLVDSIONewFeatures ,
|
|
Register::DPP::BufferOccupancyGain ,
|
|
Register::DPP::ExtendedVetoDelay ,
|
|
Register::DPP::ReadoutControl ,
|
|
Register::DPP::ReadoutStatus_R ,
|
|
Register::DPP::BoardID ,
|
|
Register::DPP::MCSTBaseAddressAndControl ,
|
|
Register::DPP::RelocationAddress ,
|
|
Register::DPP::InterruptStatusID ,
|
|
Register::DPP::InterruptEventNumber ,
|
|
Register::DPP::MaxAggregatePerBlockTransfer,
|
|
Register::DPP::Scratch ,
|
|
Register::DPP::SoftwareReset_W ,
|
|
Register::DPP::SoftwareClear_W ,
|
|
Register::DPP::ConfigurationReload_W ,
|
|
Register::DPP::ROMChecksum_R ,
|
|
Register::DPP::ROMChecksumByte2_R ,
|
|
Register::DPP::ROMChecksumByte1_R ,
|
|
Register::DPP::ROMChecksumByte0_R ,
|
|
Register::DPP::ROMConstantByte2_R ,
|
|
Register::DPP::ROMConstantByte1_R ,
|
|
Register::DPP::ROMConstantByte0_R ,
|
|
Register::DPP::ROM_C_Code_R ,
|
|
Register::DPP::ROM_R_Code_R ,
|
|
Register::DPP::ROM_IEEE_OUI_Byte2_R ,
|
|
Register::DPP::ROM_IEEE_OUI_Byte1_R ,
|
|
Register::DPP::ROM_IEEE_OUI_Byte0_R ,
|
|
Register::DPP::ROM_BoardVersion_R ,
|
|
Register::DPP::ROM_BoardFromFactor_R ,
|
|
Register::DPP::ROM_BoardIDByte1_R ,
|
|
Register::DPP::ROM_BoardIDByte0_R ,
|
|
Register::DPP::ROM_PCB_rev_Byte3_R ,
|
|
Register::DPP::ROM_PCB_rev_Byte2_R ,
|
|
Register::DPP::ROM_PCB_rev_Byte1_R ,
|
|
Register::DPP::ROM_PCB_rev_Byte0_R ,
|
|
Register::DPP::ROM_FlashType_R ,
|
|
Register::DPP::ROM_BoardSerialNumByte1_R ,
|
|
Register::DPP::ROM_BoardSerialNumByte0_R ,
|
|
Register::DPP::ROM_VCXO_Type_R
|
|
|
|
};
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|
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#endif
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