create Reg class and implement the chaneg to ClassDigitizer.h/cpp, clean up ClassDigitizer.h/cpp

2022-10-13 18:06:07 -04:00 · 2022-10-13 18:06:07 -04:00 · 12d54d2e3b
parent 31a39defe7
commit 12d54d2e3b
4 changed files with 218 additions and 557 deletions
--- a/ClassDigitizer.cpp
+++ b/ClassDigitizer.cpp
@ -193,7 +193,7 @@ int Digitizer::OpenDigitizer(int boardID, int portID, bool program, bool verbose
    ProgramBoard();
  }
-  if( isConnected ) FillAllSettings();
+  if( isConnected ) ReadAllSettingsFromBoard(); 
  return ret;
 }
@ -357,91 +357,32 @@ void Digitizer::ReadData(){
 }
 //===========================================================
-void Digitizer::WriteRegister(uint32_t registerAddress, uint32_t value, int ch ){
+void Digitizer::WriteRegister(Reg registerAddress, uint32_t value, int ch, bool isSave2MemAndFile){
  if( !isConnected ) return;
  //printf("0x%X, ch:%02d, 0x%X=%u\n", registerAddress, ch, value, value);
-  if( registerAddress == 0x8180){
+  ret = CAEN_DGTZ_WriteRegister(handle, registerAddress.ActualAddress(ch), value);
-    if( ch < 0 ){
+  if( ret == 0 && isSave2MemAndFile) {
-      for( int i = 0; i < NChannel/2; i++){
+    SetSettingToMemory(registerAddress, value, ch);
-        ret = CAEN_DGTZ_WriteRegister(handle, registerAddress + 4*i, value);
+    SaveSettingToFile(registerAddress, value, ch);
        if( ret == 0 ) {
          SetSettingToMemory(registerAddress, value, i);
          SaveSettingToFile(registerAddress, value, i);
        }
        ///ReadRegister(registerAddress, i);
      }
    }else{
      ret = CAEN_DGTZ_WriteRegister(handle, registerAddress + 4*(ch/2), value);
      if( ret == 0 ) {
        SetSettingToMemory(registerAddress, value, ch);
        SaveSettingToFile(registerAddress, value, ch);
      }
      ///ReadRegister(registerAddress, ch);      
    }
  }else if( registerAddress < 0x8000){
    if( ch < 0 ) {
      ret = CAEN_DGTZ_WriteRegister(handle, registerAddress + 0x7000, value);
      if( ret ==  0 ){
        for( int i = 0; i < NChannel; i++) {
          SetSettingToMemory(registerAddress, value, i);
          SaveSettingToFile(registerAddress, value, i);
        }
        ///for( int i = 0; i < NChannel; i++)  ReadRegister(registerAddress, i);
      }
    }else{
      ret = CAEN_DGTZ_WriteRegister(handle, registerAddress +  (ch<<8), value);
      if( ret == 0 ) {
        SetSettingToMemory(registerAddress, value, ch);
        SaveSettingToFile(registerAddress, value, ch);
      }
      ///ReadRegister(registerAddress,  ch);
    }
  }else{
    ret = CAEN_DGTZ_WriteRegister(handle, registerAddress, value);
    if( ret == 0 ) {
      SetSettingToMemory(registerAddress, value);
      SaveSettingToFile(registerAddress, value);
    }
    //ReadRegister(registerAddress);
  }
  /// for grouped address
  if( registerAddress == Register::DPP::RecordLength_G  ||
      registerAddress == Register::DPP::NumberEventsPerAggregate_G ||
      registerAddress == Register::DPP::PHA::DPPAlgorithmControl2_G ||
      registerAddress == Register::DPP::PSD::DPPAlgorithmControl2_G ||
      registerAddress == Register::DPP::TriggerValidationMask_G
  ){
    //ReadRegister(registerAddress, ch + (ch%2 == 1 ? -1 : +1)); 
    if( ret == 0 ) {
      SetSettingToMemory(registerAddress, value, ch);
      SaveSettingToFile(registerAddress, value, ch);
    }
  }
  ErrorMsg("WriteRegister:" + std::to_string(registerAddress));
 }
-uint32_t Digitizer::ReadRegister(uint32_t registerAddress, int ch, string str ){
+uint32_t Digitizer::ReadRegister(Reg registerAddress, unsigned short ch, bool isSave2MemAndFile, string str ){
  if( !isConnected )  return 0;
  uint32_t actualAddress = registerAddress ;
  if( registerAddress == 0x8180 ){
    if( ch < 0 ) ch = 0;
    actualAddress = registerAddress + 4*(ch/2);
  }
  if( registerAddress < 0x8000) {
    if( ch >= 0 ) actualAddress = registerAddress + (ch << 8);
  }
  uint32_t data[1];
-  ret = CAEN_DGTZ_ReadRegister(handle, actualAddress, data);
+  ret = CAEN_DGTZ_ReadRegister(handle, registerAddress.ActualAddress(ch), data);
-  if( ret == 0 ) SaveSettingToFile(registerAddress, data[0], ch);
+  if( ret == 0 && isSave2MemAndFile) {
    SetSettingToMemory(registerAddress, data[0], ch);
    SaveSettingToFile(registerAddress, data[0], ch);
  }
  ErrorMsg("ReadRegister:" + std::to_string(registerAddress));
-  if( str != "" ) printf("%s : 0x%04X(0x%04X) is 0x%08X \n", str.c_str(), actualAddress, registerAddress, data[0]);
+  if( str != "" ) printf("%s : 0x%04X(0x%04X) is 0x%08X \n", str.c_str(), 
                             registerAddress.ActualAddress(ch), registerAddress.GetAddress(), data[0]);
  return data[0];
 }
@ -526,49 +467,11 @@ void Digitizer::SetTriggerPolarity(bool RiseingIsZero, int ch ){
 //============================== DPP-Alpgorthm Control 
 void Digitizer::SetDPPAlgorithmControl(uint32_t bit, int ch){
  ///============= DPP algorithm control is 32 bit 
  ///   [ 0: 5] Trapazoid Rescaling. the trapazoid ADC is 48 bit. it need to bit-shift before the 0x3FFF (14 bit filter)
  ///   [ 8: 9] Decimation. 00 = disable, 01 = 2 samples, 10 = 4 samples, 11 = 8 sample
  ///   [10:11] Decimation Gain. This gain apply to the Trapazoid Rescaling and fine gain
  ///   [12:13] Peak Mean. sample for averaging the trapezoid height calculation. 00 = 1 sample, 01 = 4 samples, 10 = 16 sample, 11 = 64 sample
  ///   [16]    pulse polarity. 0 = positve, 1 = negative
  ///   [18:19] Trigger mode. 00 = normal, 01 = coincident, 10 = reserved. 11 = anti coincident
  ///   [20:22] number of samples for the baseline average calculation. 000 = baseline disable (energy not subtraced with baseline)
  ///                                                                   001 =    16 samples  
  ///                                                                   010 =    64 samples  
  ///                                                                   011 =   256 samples  
  ///                                                                   100 =  1024 samples  
  ///                                                                   101 =  4096 samples  
  ///                                                                   110 = 16384 samples  
  ///                                                                   111 = resertved.
  ///    [24]    Disable self trigger. 0 = self‐trigger used to acquire and propagated to the trigger logic;
  ///                                  1 = self‐trigger only propagated to the trigger logic.
  ///    [26]    Enable Roll-Over flag. see manual 0 = disable, 1 = enable
  ///    [27]    Enable pile-up flag.
  ///============= PHA - DPP algorithm control 2 is 32 bit 
  ///   [ 0: 1] Local Shaped Trigger mode. see manual
  ///   [ 2]    Enable Local Shaped Trigger
  ///   [ 4: 5] Local Trigger Validation mode, see manual
  ///   [ 6]    Enable Local Trigger Validation
  ///   [ 8:10] Extra 2 word option. 000 = [0:15] baseline *4 [16:31] extended time stamp
  ///                                001 = reserved
  ///                                010 = [0:15] fine time stamp [16:31] extended time stamp
  ///                                011 = reserved
  ///                                100 = [0:15] total tigger counter [16:31] Lost trigger counter
  ///                                101 = [0:15] event after the zero crosiing [16:31] event before zero crossing
  ///                                110, 111 = reserved.
  ///   [14:15] source of veto. 00 = disable, 01 veto is common to all channels, 10 = veto for coupled channels, 11 = veto comes from negative saturation
  ///   [16:17] Select the step for the trigger counter rate flag. see manual
  ///   [18]    baseline calculation is active also when the acquisition is not running. 0 = disbale, 1 = enable
  ///   [19]    Tag correlated events. see manual  0 = disbale, 1 = enable
  ///   [29]    Enable the optimization of the Baseline Restorer to avoid tails in the energy peaks.  0 = disbale, 1 = enable
  WriteRegister( Register::DPP::DPPAlgorithmControl, bit, ch);    
  if( ret != 0 ) ErrorMsg(__func__);
 }
-unsigned int Digitizer::ReadBits(uint32_t address, unsigned int bitLength, unsigned int bitSmallestPos, int ch ){
+unsigned int Digitizer::ReadBits(Reg address, unsigned int bitLength, unsigned int bitSmallestPos, int ch ){
  int tempCh = ch;
  if (ch < 0 && address < 0x8000 ) tempCh = 0; /// take ch-0 
  uint32_t bit = ReadRegister(address, tempCh);
@ -576,7 +479,7 @@ unsigned int Digitizer::ReadBits(uint32_t address, unsigned int bitLength, unsig
  return bit;
 }
-void Digitizer::SetBits(uint32_t address, unsigned int bitValue, unsigned int bitLength, unsigned int bitSmallestPos, int ch){
+void Digitizer::SetBits(Reg address, unsigned int bitValue, unsigned int bitLength, unsigned int bitSmallestPos, int ch){
  ///printf("address : 0x%X, value : 0x%X, len : %d, pos : %d, ch : %d \n", address, bitValue, bitLength, bitSmallestPos, ch);
  uint32_t bit ;
  uint32_t bitmask = (uint(pow(2, bitLength)-1) << bitSmallestPos);  
@ -690,221 +593,109 @@ int Digitizer::ProgramPHABoard(){
  printf("End of program board and channels\n");
-  isSettingFilledinMemeory = false;
+  isSettingFilledinMemeory = false; /// unlock the ReadAllSettingsFromBoard();
-  FillAllSettings();
+  ReadAllSettingsFromBoard();
  return ret;
 }
 //========================================== setting file IO
-unsigned short Digitizer::CalSettingIndex(uint32_t registerAddress, int ch){
+void Digitizer::ReadAllSettingsFromBoard(){
  if( !isConnected ) return;
  if( isSettingFilledinMemeory ) return;
-  unsigned short index;
+  /// board setting
-  uint32_t newAddress;
+  for( int p = 0; p < (int) RegisterDPPList[p]; p++){
-  
+    if( RegisterDPPList[p].GetType() == RW::WriteONLY) continue;
-  if( registerAddress == 0x8180){
+    ReadRegister(RegisterDPPList[p]); 
-    ///if( ch%2 ==1 ) return 0xFFFF;
+  }
-    newAddress = registerAddress + 4*(ch/2);
+  /// Channels Setting
-    index = (newAddress & 0x0FFF) / 4; 
+  for( int ch = 0; ch < NChannel; ch ++){
-  }else if( registerAddress < 0x8000){
+    if( DPPType == V1730_DPP_PHA_CODE ){
-    if( ch < 0 ) ch = 0;
+      for( int p = 0; p < (int) RegisterPHAList[p]; p++){
-    newAddress = registerAddress + (ch << 8);
+        if( RegisterPHAList[p].GetType() == RW::WriteONLY) continue;
-    index = newAddress / 4;
+        ReadRegister(RegisterPHAList[p], ch); 
-  }else{
+      }
-    newAddress = registerAddress;
+    }
-    if(registerAddress < 0xF000) {
+    if( DPPType == V1730_DPP_PSD_CODE ){
-      index = (newAddress & 0x0FFF) / 4; 
+      for( int p = 0; p < (int) RegisterPSDList[p]; p++){
-    }else{ 
+        if( RegisterPSDList[p].GetType() == RW::WriteONLY) continue;
-      index = ((newAddress & 0x0FFF) + 0x0200 ) / 4; 
+        ReadRegister(RegisterPSDList[p], ch); 
      }
    }
  }
-  //printf("---------address : 0x%04X = %5d = index : %6.1f (%d)\n",  newAddress, newAddress, (newAddress & 0x0FFF) / 4., index);
+  isSettingFilledinMemeory = true;
  return index;
 }
-void Digitizer::FillSetting(uint32_t registerAddress, int ch){
+void Digitizer::SetSettingFromMemory(Reg registerAddress, int ch){
-
+  WriteRegister(registerAddress, GetSettingFromMemory(registerAddress, ch), ch, false);
  unsigned short index = CalSettingIndex(registerAddress, ch);
  if( index > SETTINGSIZE ) return;
  //if( setting[index] != 0 ) printf("##############################\n");
  setting[index] = ReadRegister(registerAddress, ch); 
 }
-void Digitizer::SetSettingToMemory(uint32_t registerAddress,  unsigned int value, int ch ){
+void Digitizer::ProgramSettingsToBoard(){
-  unsigned short index = CalSettingIndex(registerAddress, ch);
+  if( !isConnected ) return;
  /// board setting
  for( int p = 0; p < (int) RegisterDPPList[p]; p++){
    if( RegisterDPPList[p].GetType() == RW::ReadONLY) continue;
    ReadRegister(RegisterDPPList[p]); 
  }
  /// Channels Setting
  for( int ch = 0; ch < NChannel; ch ++){
    if( DPPType == V1730_DPP_PHA_CODE ){
      for( int p = 0; p < (int) RegisterPHAList[p]; p++){
        if( RegisterPHAList[p].GetType() == RW::ReadONLY) continue;
        ReadRegister(RegisterPHAList[p], ch); 
      }
    }
    if( DPPType == V1730_DPP_PSD_CODE ){
      for( int p = 0; p < (int) RegisterPSDList[p]; p++){
        if( RegisterPSDList[p].GetType() == RW::ReadONLY) continue;
        ReadRegister(RegisterPSDList[p], ch); 
      }
    }
  } 
 }
 void Digitizer::SetSettingToMemory(Reg registerAddress,  unsigned int value, int ch ){
  unsigned short index = registerAddress.Index(ch);
  if( index > SETTINGSIZE ) return;
  setting[index] = value;
 }
-unsigned int Digitizer::GetSettingFromMemory(uint32_t registerAddress, int ch ){
+unsigned int Digitizer::GetSettingFromMemory(Reg registerAddress, int ch ){
-  unsigned short index = CalSettingIndex(registerAddress, ch);
+  unsigned short index = registerAddress.Index(ch);
  if( index > SETTINGSIZE ) return 0xFFFF;
  return setting[index] ;
 }
 void Digitizer::SetSettingFromMemory(uint32_t registerAddress, int ch){
  WriteRegister(registerAddress, GetSettingFromMemory(registerAddress, ch), ch);
 }
 void Digitizer::FillAllSettings(){
  /// for 1 digitizer, 16 channels, needs  0x10XX to 0x1FXX 
  /// -------------------------------------
  /// for 1 channel is 0x2000 = 8192 byte should be enough for all setting for 1 board
  if( isSettingFilledinMemeory) return;
  for( int ch = 0; ch < NChannel; ch ++){
    FillSetting(Register::DPP::RecordLength_G              , ch); /// 0x1020; /// R/W
    FillSetting(Register::DPP::InputDynamicRange           , ch); /// 0x1028; /// R/W
    FillSetting(Register::DPP::NumberEventsPerAggregate_G  , ch); /// 0x1034; /// R/W
    FillSetting(Register::DPP::PreTrigger                  , ch); /// 0x1038; /// R/W
    FillSetting(Register::DPP::DPPAlgorithmControl         , ch); /// 0x1080; /// R/W 
    FillSetting(Register::DPP::ChannelStatus_R             , ch); /// 0x1088; /// R
    FillSetting(Register::DPP::AMCFirmwareRevision_R       , ch); /// 0x108C; /// R
    FillSetting(Register::DPP::ChannelDCOffset             , ch); /// 0x1098; /// R/W
    FillSetting(Register::DPP::ChannelADCTemperature_R     , ch); /// 0x10A8; /// R
    FillSetting(Register::DPP::VetoWidth                   , ch); /// 0x10D4; /// R/W
    FillSetting(Register::DPP::TriggerValidationMask_G     , ch); /// 0x8180; /// R/W,  0x8180 + 4n
    if( DPPType == V1730_DPP_PHA_CODE ){
      FillSetting(Register::DPP::PHA::ChannelStopAcquisition  , ch); /// 0x1040; /// R/W   not sure
      FillSetting(Register::DPP::PHA::RCCR2SmoothingFactor    , ch); /// 0x1054; /// R/W   Trigger Filter smoothing, triggerSmoothingFactor
      FillSetting(Register::DPP::PHA::InputRiseTime           , ch); /// 0x1058; /// R/W   OK
      FillSetting(Register::DPP::PHA::TrapezoidRiseTime       , ch); /// 0x105C; /// R/W   OK
      FillSetting(Register::DPP::PHA::TrapezoidFlatTop        , ch); /// 0x1060; /// R/W   OK
      FillSetting(Register::DPP::PHA::PeakingTime             , ch); /// 0x1064; /// R/W   OK
      FillSetting(Register::DPP::PHA::DecayTime               , ch); /// 0x1068; /// R/W   OK
      FillSetting(Register::DPP::PHA::TriggerThreshold        , ch); /// 0x106C; /// R/W   OK
      FillSetting(Register::DPP::PHA::RiseTimeValidationWindow, ch); /// 0x1070; /// R/W   OK
      FillSetting(Register::DPP::PHA::TriggerHoldOffWidth     , ch); /// 0x1074; /// R/W   OK
      FillSetting(Register::DPP::PHA::PeakHoldOff             , ch); /// 0x1078; /// R/W   OK
      FillSetting(Register::DPP::PHA::ShapedTriggerWidth      , ch); /// 0x1084; /// R/W   not sure
      FillSetting(Register::DPP::PHA::DPPAlgorithmControl2_G  , ch); /// 0x10A0; /// R/W   OK
      FillSetting(Register::DPP::PHA::FineGain                , ch); /// 0x10C4; /// R/W   OK
    }
    if( DPPType == V1730_DPP_PSD_CODE ){
      FillSetting(Register::DPP::PSD::CFDSetting                    , ch); /// 0x103C; /// R/W
      FillSetting(Register::DPP::PSD::ChargeZeroSuppressionThreshold, ch); /// 0x1044; /// R/W
      FillSetting(Register::DPP::PSD::ShortGateWidth                , ch); /// 0x1054; /// R/W
      FillSetting(Register::DPP::PSD::LongGateWidth                 , ch); /// 0x1058; /// R/W
      FillSetting(Register::DPP::PSD::GateOffset                    , ch); /// 0x105C; /// R/W
      FillSetting(Register::DPP::PSD::TriggerThreshold              , ch); /// 0x1060; /// R/W
      FillSetting(Register::DPP::PSD::FixedBaseline                 , ch); /// 0x1064; /// R/W
      FillSetting(Register::DPP::PSD::TriggerLatency                , ch); /// 0x106C; /// R/W
      FillSetting(Register::DPP::PSD::ShapedTriggerWidth            , ch); /// 0x1070; /// R/W
      FillSetting(Register::DPP::PSD::TriggerHoldOffWidth           , ch); /// 0x1074; /// R/W
      FillSetting(Register::DPP::PSD::ThresholdForPSDCut            , ch); /// 0x1078; /// R/W
      FillSetting(Register::DPP::PSD::PurGapThreshold               , ch); /// 0x107C; /// R/W
      FillSetting(Register::DPP::PSD::DPPAlgorithmControl2_G        , ch); /// 0x1084; /// R/W 
      FillSetting(Register::DPP::PSD::EarlyBaselineFreeze           , ch); /// 0x10D8; /// R/W
    }
  }
  FillSetting(Register::DPP::BoardConfiguration          ); /// 0x8000;  /// R/W
  FillSetting(Register::DPP::AggregateOrganization       ); /// 0x800C;  /// R/W
  FillSetting(Register::DPP::AcquisitionControl          ); /// 0x8100;  /// R/W
  FillSetting(Register::DPP::AcquisitionStatus_R         ); /// 0x8104;  /// R
  FillSetting(Register::DPP::GlobalTriggerMask           ); /// 0x810C;  /// R/W
  FillSetting(Register::DPP::FrontPanelTRGOUTEnableMask  ); /// 0x8110;  /// R/W
  FillSetting(Register::DPP::LVDSIOData                  ); /// 0x8118;  /// R/W
  FillSetting(Register::DPP::FrontPanelIOControl         ); /// 0x811C;  /// R/W
  FillSetting(Register::DPP::ChannelEnableMask           ); /// 0x8120;  /// R/W
  FillSetting(Register::DPP::ROCFPGAFirmwareRevision_R   ); /// 0x8124;  /// R
  FillSetting(Register::DPP::EventStored_R               ); /// 0x812C;  /// R
  FillSetting(Register::DPP::VoltageLevelModeConfig      ); /// 0x8138;  /// R/W
  FillSetting(Register::DPP::BoardInfo_R                 ); /// 0x8140;  /// R    /// [0:7] 0x0E = 725, 0x0B = 730, [8:15] 0x01 = 640 kSample, 0x08 = 5.12 MSample, [16:23] channel number
  FillSetting(Register::DPP::AnalogMonitorMode           ); /// 0x8144;  /// R/W
  FillSetting(Register::DPP::EventSize_R                 ); /// 0x814C;  /// R
  FillSetting(Register::DPP::TimeBombDowncounter_R       ); /// 0x8158;  /// R
  FillSetting(Register::DPP::FanSpeedControl             ); /// 0x8168;  /// R/W
  FillSetting(Register::DPP::RunStartStopDelay           ); /// 0x8170;  /// R/W
  FillSetting(Register::DPP::BoardFailureStatus_R        ); /// 0x8178;  /// R
  FillSetting(Register::DPP::DisableExternalTrigger      ); /// 0x817C;  /// R/W
  FillSetting(Register::DPP::FrontPanelLVDSIONewFeatures ); /// 0x81A0;  /// R/W
  FillSetting(Register::DPP::BufferOccupancyGain         ); /// 0x81B4;  /// R/W
  FillSetting(Register::DPP::ExtendedVetoDelay           ); /// 0x81C4;  /// R/W
  FillSetting(Register::DPP::ReadoutControl              ); /// 0xEF00;  /// R/W
  FillSetting(Register::DPP::ReadoutStatus_R             ); /// 0xEF04;  /// R
  FillSetting(Register::DPP::BoardID                     ); /// 0xEF08;  /// R/W  /// Geo address on VME crate
  FillSetting(Register::DPP::MCSTBaseAddressAndControl   ); /// 0xEF0C;  /// R/W
  FillSetting(Register::DPP::RelocationAddress           ); /// 0xEF10;  /// R/W
  FillSetting(Register::DPP::InterruptStatusID           ); /// 0xEF14;  /// R/W
  FillSetting(Register::DPP::InterruptEventNumber        ); /// 0xEF18;  /// R/W
  FillSetting(Register::DPP::MaxAggregatePerBlockTransfer); /// 0xEF1C;  /// R/W
  FillSetting(Register::DPP::Scratch                     ); /// 0xEF20;  /// R/W
  FillSetting(Register::DPP::ROMChecksum_R               ); /// 0xF000;  /// R
  FillSetting(Register::DPP::ROMChecksumByte2_R          ); /// 0xF004;  /// R
  FillSetting(Register::DPP::ROMChecksumByte1_R          ); /// 0xF008;  /// R
  FillSetting(Register::DPP::ROMChecksumByte0_R          ); /// 0xF00C;  /// R
  FillSetting(Register::DPP::ROMConstantByte2_R          ); /// 0xF010;  /// R
  FillSetting(Register::DPP::ROMConstantByte1_R          ); /// 0xF014;  /// R
  FillSetting(Register::DPP::ROMConstantByte0_R          ); /// 0xF018;  /// R
  FillSetting(Register::DPP::ROM_C_Code_R                ); /// 0xF01C;  /// R
  FillSetting(Register::DPP::ROM_R_Code_R                ); /// 0xF020;  /// R
  FillSetting(Register::DPP::ROM_IEEE_OUI_Byte2_R        ); /// 0xF024;  /// R
  FillSetting(Register::DPP::ROM_IEEE_OUI_Byte1_R        ); /// 0xF028;  /// R
  FillSetting(Register::DPP::ROM_IEEE_OUI_Byte0_R        ); /// 0xF02C;  /// R
  FillSetting(Register::DPP::ROM_BoardVersion_R          ); /// 0xF030;  /// R
  FillSetting(Register::DPP::ROM_BoardFromFactor_R       ); /// 0xF034;  /// R
  FillSetting(Register::DPP::ROM_BoardIDByte1_R          ); /// 0xF038;  /// R
  FillSetting(Register::DPP::ROM_BoardIDByte0_R          ); /// 0xF03C;  /// R
  FillSetting(Register::DPP::ROM_PCB_rev_Byte3_R         ); /// 0xF040;  /// R
  FillSetting(Register::DPP::ROM_PCB_rev_Byte2_R         ); /// 0xF044;  /// R
  FillSetting(Register::DPP::ROM_PCB_rev_Byte1_R         ); /// 0xF048;  /// R
  FillSetting(Register::DPP::ROM_PCB_rev_Byte0_R         ); /// 0xF04C;  /// R
  FillSetting(Register::DPP::ROM_FlashType_R             ); /// 0xF050;  /// R
  FillSetting(Register::DPP::ROM_BoardSerialNumByte1_R   ); /// 0xF080;  /// R
  FillSetting(Register::DPP::ROM_BoardSerialNumByte0_R   ); /// 0xF084;  /// R
  FillSetting(Register::DPP::ROM_VCXO_Type_R             ); /// 0xF088;  /// R
  isSettingFilledinMemeory = true;
 }
 void Digitizer::PrintSettingFromMemory(){
  for( int i = 0; i < SETTINGSIZE; i++) printf("%4d | 0x%04X |0x%08X = %u \n", i, i*4, setting[i], setting[i]);
 }
 void Digitizer::OpenSettingBinary(string fileName){
-  delete settingFile;
+  if( settingFile != NULL ) delete settingFile;
  settingFile = fopen(fileName.c_str(), "r+");
  if( settingFile == NULL ){
-    this->settingFileName = "";
+    printf("cannot open file %s. Create one.\n", fileName.c_str());
-    printf("cannot open file %s. \n", fileName.c_str());
+
-    CreateAndSaveSettingToFile(fileName);
+    this->settingFileName = fileName;
    settingFile = fopen(settingFileName.c_str(), "w+");
    if( isSettingFilledinMemeory == false) ReadAllSettingsFromBoard();  
    fwrite(setting, SETTINGSIZE * sizeof(unsigned int), 1, settingFile);
    fseek(settingFile, 0L, SEEK_END);
    unsigned int inFileSize = ftell(settingFile);
    printf("Created file : %s. file size : %d Byte\n", settingFileName.c_str(), inFileSize);
    fclose (settingFile);
    settingFileExist = true;
  }else{
    this->settingFileName = fileName;
    settingFileExist = true;
-    printf("setting file already exist.\n");
+    printf("setting file already exist. do nothing. Should program the digitizer\n");
  }
 }
 void Digitizer::CreateAndSaveSettingToFile(string fileName){
  settingFileName = fileName;
  settingFile = fopen(settingFileName.c_str(), "w+");
  if( isSettingFilledinMemeory == false) FillAllSettings();  
  fwrite(setting, SETTINGSIZE * sizeof(unsigned int), 1, settingFile);
  fseek(settingFile, 0L, SEEK_END);
  unsigned int inFileSize = ftell(settingFile);
  printf("Created file : %s. file size : %d Byte\n", settingFileName.c_str(), inFileSize);
  fclose (settingFile);
  settingFileExist = true;
 }
 void Digitizer::LoadSettingBinary(string fileName){
@ -918,89 +709,19 @@ void Digitizer::LoadSettingBinary(string fileName){
  }else{
    settingFileExist = true;
    settingFileName = fileName;
-  
+    
    /// load binary to memoery
    size_t dummy = fread( setting, SETTINGSIZE * sizeof(unsigned int), 1, settingFile);
-    if( isConnected ) {
+    ProgramSettingsToBoard();
-      for( int ch = 0; ch < NChannel; ch ++){
+    
        SetSettingFromMemory(Register::DPP::RecordLength_G              ,  ch); /// 0x1020; /// R/W
        SetSettingFromMemory(Register::DPP::InputDynamicRange           ,  ch); /// 0x1028; /// R/W
        SetSettingFromMemory(Register::DPP::NumberEventsPerAggregate_G  ,  ch); /// 0x1034; /// R/W
        SetSettingFromMemory(Register::DPP::PreTrigger                  ,  ch); /// 0x1038; /// R/W
        SetSettingFromMemory(Register::DPP::DPPAlgorithmControl         ,  ch); /// 0x1080; /// R/W 
        SetSettingFromMemory(Register::DPP::ChannelDCOffset             ,  ch); /// 0x1098; /// R/W
        SetSettingFromMemory(Register::DPP::VetoWidth                   ,  ch); /// 0x10D4; /// R/W
        SetSettingFromMemory(Register::DPP::TriggerValidationMask_G     ,  ch); /// 0x8180; /// R/W,  0x8180 + 4n
        if( DPPType == V1730_DPP_PHA_CODE ){
          SetSettingFromMemory(Register::DPP::PHA::ChannelStopAcquisition  , ch); /// 0x1040; /// R/W   not sure
          SetSettingFromMemory(Register::DPP::PHA::RCCR2SmoothingFactor    , ch); /// 0x1054; /// R/W   Trigger Filter smoothing, triggerSmoothingFactor
          SetSettingFromMemory(Register::DPP::PHA::InputRiseTime           , ch); /// 0x1058; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::TrapezoidRiseTime       , ch); /// 0x105C; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::TrapezoidFlatTop        , ch); /// 0x1060; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::PeakingTime             , ch); /// 0x1064; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::DecayTime               , ch); /// 0x1068; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::TriggerThreshold        , ch); /// 0x106C; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::RiseTimeValidationWindow, ch); /// 0x1070; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::TriggerHoldOffWidth     , ch); /// 0x1074; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::PeakHoldOff             , ch); /// 0x1078; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::ShapedTriggerWidth      , ch); /// 0x1084; /// R/W   not sure
          SetSettingFromMemory(Register::DPP::PHA::DPPAlgorithmControl2_G  , ch); /// 0x10A0; /// R/W   OK
          SetSettingFromMemory(Register::DPP::PHA::FineGain                , ch); /// 0x10C4; /// R/W   OK
        }
        if( DPPType == V1730_DPP_PSD_CODE ){
          SetSettingFromMemory(Register::DPP::PSD::CFDSetting                    , ch); /// 0x103C; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::ChargeZeroSuppressionThreshold, ch); /// 0x1044; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::ShortGateWidth                , ch); /// 0x1054; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::LongGateWidth                 , ch); /// 0x1058; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::GateOffset                    , ch); /// 0x105C; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::TriggerThreshold              , ch); /// 0x1060; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::FixedBaseline                 , ch); /// 0x1064; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::TriggerLatency                , ch); /// 0x106C; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::ShapedTriggerWidth            , ch); /// 0x1070; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::TriggerHoldOffWidth           , ch); /// 0x1074; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::ThresholdForPSDCut            , ch); /// 0x1078; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::PurGapThreshold               , ch); /// 0x107C; /// R/W
          SetSettingFromMemory(Register::DPP::PSD::DPPAlgorithmControl2_G        , ch); /// 0x1084; /// R/W 
          SetSettingFromMemory(Register::DPP::PSD::EarlyBaselineFreeze           , ch); /// 0x10D8; /// R/W
        }
      }
      SetSettingFromMemory(Register::DPP::BoardConfiguration          ); /// 0x8000;  /// R/W
      SetSettingFromMemory(Register::DPP::AggregateOrganization       ); /// 0x800C;  /// R/W
      SetSettingFromMemory(Register::DPP::AcquisitionControl          ); /// 0x8100;  /// R/W
      SetSettingFromMemory(Register::DPP::GlobalTriggerMask           ); /// 0x810C;  /// R/W
      SetSettingFromMemory(Register::DPP::FrontPanelTRGOUTEnableMask  ); /// 0x8110;  /// R/W
      SetSettingFromMemory(Register::DPP::LVDSIOData                  ); /// 0x8118;  /// R/W
      SetSettingFromMemory(Register::DPP::FrontPanelIOControl         ); /// 0x811C;  /// R/W
      SetSettingFromMemory(Register::DPP::ChannelEnableMask           ); /// 0x8120;  /// R/W
      SetSettingFromMemory(Register::DPP::VoltageLevelModeConfig      ); /// 0x8138;  /// R/W
      SetSettingFromMemory(Register::DPP::AnalogMonitorMode           ); /// 0x8144;  /// R/W
      SetSettingFromMemory(Register::DPP::FanSpeedControl             ); /// 0x8168;  /// R/W
      SetSettingFromMemory(Register::DPP::RunStartStopDelay           ); /// 0x8170;  /// R/W
      SetSettingFromMemory(Register::DPP::DisableExternalTrigger      ); /// 0x817C;  /// R/W
      SetSettingFromMemory(Register::DPP::FrontPanelLVDSIONewFeatures ); /// 0x81A0;  /// R/W
      SetSettingFromMemory(Register::DPP::BufferOccupancyGain         ); /// 0x81B4;  /// R/W
      SetSettingFromMemory(Register::DPP::ExtendedVetoDelay           ); /// 0x81C4;  /// R/W
      SetSettingFromMemory(Register::DPP::ReadoutControl              ); /// 0xEF00;  /// R/W
      SetSettingFromMemory(Register::DPP::BoardID                     ); /// 0xEF08;  /// R/W  /// Geo address on VME crate
      SetSettingFromMemory(Register::DPP::MCSTBaseAddressAndControl   ); /// 0xEF0C;  /// R/W
      SetSettingFromMemory(Register::DPP::RelocationAddress           ); /// 0xEF10;  /// R/W
      SetSettingFromMemory(Register::DPP::InterruptStatusID           ); /// 0xEF14;  /// R/W
      SetSettingFromMemory(Register::DPP::InterruptEventNumber        ); /// 0xEF18;  /// R/W
      SetSettingFromMemory(Register::DPP::MaxAggregatePerBlockTransfer); /// 0xEF1C;  /// R/W
      SetSettingFromMemory(Register::DPP::Scratch                     ); /// 0xEF20;  /// R/W
    }
  }
 }
-unsigned int Digitizer::ReadSettingFromFile(uint32_t registerAddress, int ch){
+unsigned int Digitizer::ReadSettingFromFile(Reg registerAddress, int ch){
  if ( !settingFileExist ) return -1;
-  unsigned short index = CalSettingIndex(registerAddress, ch);
+  unsigned short index = registerAddress.Index(ch);
  settingFile = fopen (settingFileName.c_str(),"r");
  ///fseek( settingFile, address, SEEK_SET); 
@ -1014,10 +735,10 @@ unsigned int Digitizer::ReadSettingFromFile(uint32_t registerAddress, int ch){
 }
-void Digitizer::SaveSettingToFile(uint32_t registerAddress, unsigned int value, int ch){
+void Digitizer::SaveSettingToFile(Reg registerAddress, unsigned int value, int ch){
  if ( !settingFileExist ) return ;
-  unsigned short index = CalSettingIndex(registerAddress, ch);
+  unsigned short index = registerAddress,Index(ch);
  setting[index] = value;
  settingFile = fopen (settingFileName.c_str(),"r+");
@ -1038,173 +759,35 @@ void Digitizer::SaveSettingAsText(string fileName){
    return;
  }
-  uint32_t address = 0;  /// this is the actual address
+  Reg * haha = new Reg();
-  uint32_t registerAddress = 0;  /// this is the register address from RegisterAddress.h
+  
-  string name = "";
+  for( unsigned int i = 0; i < SETTINGSIZE ; i++){
-
+    haha->SetName("");
-  for( int i = 0; i < SETTINGSIZE ; i++){
+    uint32_t actualAddress = haha->CalAddress(i);
-    name = "";
+    ///printf("%7d--- 0x%04X,  0x%04X\n", i, haha->GetAddress(), haha->ActualAddress());
    registerAddress = i * 4;
-    if( i < 0x0200 /4 )   {address = i * 4 + 0x8000;  registerAddress = address; }
+    /// board setting
-    if( 0x0200 / 4 <= i && i < 0x0300 /4 )  {address = i * 4 + 0xEE00; registerAddress = address; }/// EE00 == F000 - 0200
+    for( int p = 0; p < (int) RegisterDPPList.size(); p++){
-    if( 0x0300 / 4 <= i && i < 0x0F00 /4 )  continue;
+      if( haha->GetAddress() == (uint32_t) RegisterDPPList[p] ) haha->SetName(RegisterDPPList[p].GetName() );
    if( 0x0F00 / 4 <= i && i < 0x1000 /4 )  {address = i * 4 + 0xE000; registerAddress = address; }
    if( 0x1000 / 4 <= i ) { address = i * 4; registerAddress = address & 0xF0FF ; }
    ///for TriggerValidationMask
    if( i == ((0x8180 +  4) & 0x0FFF) / 4 ) {address = 0x8180 +  4; registerAddress = 0x8180;} /// 1
    if( i == ((0x8180 +  8) & 0x0FFF) / 4 ) {address = 0x8180 +  8; registerAddress = 0x8180;} /// 2
    if( i == ((0x8180 + 12) & 0x0FFF) / 4 ) {address = 0x8180 + 12; registerAddress = 0x8180;} /// 3
    if( i == ((0x8180 + 16) & 0x0FFF) / 4 ) {address = 0x8180 + 16; registerAddress = 0x8180;} /// 4
    if( i == ((0x8180 + 20) & 0x0FFF) / 4 ) {address = 0x8180 + 20; registerAddress = 0x8180;} /// 5
    if( i == ((0x8180 + 24) & 0x0FFF) / 4 ) {address = 0x8180 + 24; registerAddress = 0x8180;} /// 6
    if( i == ((0x8180 + 28) & 0x0FFF) / 4 ) {address = 0x8180 + 28; registerAddress = 0x8180;} /// 7
    printf("==============%4d, 0x%04X , 0x%04X,  0x%04X \n", i, i*4, address, registerAddress);
    if( DPPType == V1730_DPP_PSD_CODE || DPPType == V1730_DPP_PHA_CODE) {
      for( int p = 0; p < (int) RegisterDPPList.size(); p++){
        if( registerAddress == (uint32_t) RegisterDPPList[p] ) {
          printf("0x%04X, 0x%04X, 0x%04X \n", i, registerAddress, (uint32_t) RegisterDPPList[p]);
          name = RegisterDPPList[p].GetName();
        }
      }
    }
    if( DPPType == V1730_DPP_PHA_CODE) {
      for( int p = 0; p < (int) RegisterPHAList.size(); p++){
-        if( registerAddress == (uint32_t) RegisterPHAList[p] ) name = RegisterPHAList[p].GetName();
+        if( haha->GetAddress() == (uint32_t) RegisterPHAList[p] ) haha->SetName(RegisterPHAList[p].GetName() );
      }
    }
    if( DPPType == V1730_DPP_PSD_CODE) {
      for( int p = 0; p < (int) RegisterPSDList.size(); p++){
-        if( registerAddress == (uint32_t) RegisterPSDList[p] ) name = RegisterPSDList[p].GetName();
+        if( haha->GetAddress() == (uint32_t) RegisterPSDList[p] ) haha->SetName(RegisterPSDList[p].GetName() );
      }
    }
-    if( name != "" )  fprintf( txtFile, "0x%04X %35s   0x%08X  %d\n", address, name.c_str(), setting[i], setting[i]);
+    if( haha->GetName() != "" )  fprintf( txtFile, "0x%04X %35s   0x%08X  %d\n", actualAddress, haha->GetNameChar(), setting[i], setting[i]);
    /****
    if( DPPType == V1730_DPP_PSD_CODE || DPPType == V1730_DPP_PHA_CODE) {
      switch( registerAddress ){
        case Register::DPP::RecordLength_G                      : name = "DPP::RecordLength_G                      "; break;
        case Register::DPP::InputDynamicRange                   : name = "DPP::InputDynamicRange                   "; break;
        case Register::DPP::NumberEventsPerAggregate_G          : name = "DPP::NumberEventsPerAggregate_G          "; break;
        case Register::DPP::PreTrigger                          : name = "DPP::PreTrigger                          "; break;
        case Register::DPP::TriggerThreshold                    : name = "DPP::TriggerThreshold                    "; break;
        case Register::DPP::TriggerHoldOffWidth                 : name = "DPP::TriggerHoldOffWidth                 "; break;
        case Register::DPP::DPPAlgorithmControl                 : name = "DPP::DPPAlgorithmControl                 "; break;
        case Register::DPP::ChannelStatus_R                     : name = "DPP::ChannelStatus_R                     "; break;
        case Register::DPP::AMCFirmwareRevision_R               : name = "DPP::AMCFirmwareRevision_R               "; break;
        case Register::DPP::ChannelDCOffset                     : name = "DPP::ChannelDCOffset                     "; break;
        case Register::DPP::ChannelADCTemperature_R             : name = "DPP::ChannelADCTemperature_R             "; break;
        case Register::DPP::VetoWidth                           : name = "DPP::VetoWidth                           "; break;
        case Register::DPP::BoardConfiguration                  : name = "DPP::BoardConfiguration                  "; break;
        case Register::DPP::AggregateOrganization               : name = "DPP::AggregateOrganization               "; break;
        case Register::DPP::AcquisitionControl                  : name = "DPP::AcquisitionControl                  "; break;
        case Register::DPP::AcquisitionStatus_R                 : name = "DPP::AcquisitionStatus_R                 "; break;
        case Register::DPP::GlobalTriggerMask                   : name = "DPP::GlobalTriggerMask                   "; break;
        case Register::DPP::FrontPanelTRGOUTEnableMask          : name = "DPP::FrontPanelTRGOUTEnableMask          "; break;
        case Register::DPP::LVDSIOData                          : name = "DPP::LVDSIOData                          "; break;
        case Register::DPP::FrontPanelIOControl                 : name = "DPP::FrontPanelIOControl                 "; break;
        case Register::DPP::ChannelEnableMask                   : name = "DPP::ChannelEnableMask                   "; break;
        case Register::DPP::ROCFPGAFirmwareRevision_R           : name = "DPP::ROCFPGAFirmwareRevision_R           "; break;
        case Register::DPP::EventStored_R                       : name = "DPP::EventStored_R                       "; break;
        case Register::DPP::VoltageLevelModeConfig              : name = "DPP::VoltageLevelModeConfig              "; break;
        case Register::DPP::BoardInfo_R                         : name = "DPP::BoardInfo_R                         "; break; 
        case Register::DPP::AnalogMonitorMode                   : name = "DPP::AnalogMonitorMode                   "; break;
        case Register::DPP::EventSize_R                         : name = "DPP::EventSize_R                         "; break;
        case Register::DPP::TimeBombDowncounter_R               : name = "DPP::TimeBombDowncounter_R               "; break;
        case Register::DPP::FanSpeedControl                     : name = "DPP::FanSpeedControl                     "; break;
        case Register::DPP::RunStartStopDelay                   : name = "DPP::RunStartStopDelay                   "; break;
        case Register::DPP::BoardFailureStatus_R                : name = "DPP::BoardFailureStatus_R                "; break;
        case Register::DPP::DisableExternalTrigger              : name = "DPP::DisableExternalTrigger              "; break;
        case Register::DPP::TriggerValidationMask_G             : name = "DPP::TriggerValidationMask_G             "; break;
        case Register::DPP::FrontPanelLVDSIONewFeatures         : name = "DPP::FrontPanelLVDSIONewFeatures         "; break;
        case Register::DPP::BufferOccupancyGain                 : name = "DPP::BufferOccupancyGain                 "; break;
        case Register::DPP::ExtendedVetoDelay                   : name = "DPP::ExtendedVetoDelay                   "; break;
        case Register::DPP::ReadoutControl                      : name = "DPP::ReadoutControl                      "; break;
        case Register::DPP::ReadoutStatus_R                     : name = "DPP::ReadoutStatus_R                     "; break;
        case Register::DPP::BoardID                             : name = "DPP::BoardID                             "; break; 
        case Register::DPP::MCSTBaseAddressAndControl           : name = "DPP::MCSTBaseAddressAndControl           "; break;
        case Register::DPP::RelocationAddress                   : name = "DPP::RelocationAddress                   "; break;
        case Register::DPP::InterruptStatusID                   : name = "DPP::InterruptStatusID                   "; break;
        case Register::DPP::InterruptEventNumber                : name = "DPP::InterruptEventNumber                "; break;
        case Register::DPP::MaxAggregatePerBlockTransfer        : name = "DPP::MaxAggregatePerBlockTransfer        "; break;
        case Register::DPP::Scratch                             : name = "DPP::Scratch                             "; break;
        case Register::DPP::ROMChecksum_R                       : name = "DPP::ROMChecksum_R                       "; break;
        case Register::DPP::ROMChecksumByte2_R                  : name = "DPP::ROMChecksumByte2_R                  "; break;
        case Register::DPP::ROMChecksumByte1_R                  : name = "DPP::ROMChecksumByte1_R                  "; break;
        case Register::DPP::ROMChecksumByte0_R                  : name = "DPP::ROMChecksumByte0_R                  "; break;
        case Register::DPP::ROMConstantByte2_R                  : name = "DPP::ROMConstantByte2_R                  "; break;
        case Register::DPP::ROMConstantByte1_R                  : name = "DPP::ROMConstantByte1_R                  "; break;
        case Register::DPP::ROMConstantByte0_R                  : name = "DPP::ROMConstantByte0_R                  "; break;
        case Register::DPP::ROM_C_Code_R                        : name = "DPP::ROM_C_Code_R                        "; break;
        case Register::DPP::ROM_R_Code_R                        : name = "DPP::ROM_R_Code_R                        "; break;
        case Register::DPP::ROM_IEEE_OUI_Byte2_R                : name = "DPP::ROM_IEEE_OUI_Byte2_R                "; break;
        case Register::DPP::ROM_IEEE_OUI_Byte1_R                : name = "DPP::ROM_IEEE_OUI_Byte1_R                "; break;
        case Register::DPP::ROM_IEEE_OUI_Byte0_R                : name = "DPP::ROM_IEEE_OUI_Byte0_R                "; break;
        case Register::DPP::ROM_BoardVersion_R                  : name = "DPP::ROM_BoardVersion_R                  "; break;
        case Register::DPP::ROM_BoardFromFactor_R               : name = "DPP::ROM_BoardFromFactor_R               "; break;
        case Register::DPP::ROM_BoardIDByte1_R                  : name = "DPP::ROM_BoardIDByte1_R                  "; break;
        case Register::DPP::ROM_BoardIDByte0_R                  : name = "DPP::ROM_BoardIDByte0_R                  "; break;
        case Register::DPP::ROM_PCB_rev_Byte3_R                 : name = "DPP::ROM_PCB_rev_Byte3_R                 "; break;
        case Register::DPP::ROM_PCB_rev_Byte2_R                 : name = "DPP::ROM_PCB_rev_Byte2_R                 "; break;
        case Register::DPP::ROM_PCB_rev_Byte1_R                 : name = "DPP::ROM_PCB_rev_Byte1_R                 "; break;
        case Register::DPP::ROM_PCB_rev_Byte0_R                 : name = "DPP::ROM_PCB_rev_Byte0_R                 "; break;
        case Register::DPP::ROM_FlashType_R                     : name = "DPP::ROM_FlashType_R                     "; break;
        case Register::DPP::ROM_BoardSerialNumByte1_R           : name = "DPP::ROM_BoardSerialNumByte1_R           "; break;
        case Register::DPP::ROM_BoardSerialNumByte0_R           : name = "DPP::ROM_BoardSerialNumByte0_R           "; break;
        case Register::DPP::ROM_VCXO_Type_R                     : name = "DPP::ROM_VCXO_Type_R                     "; break;
      }
    }
    if( DPPType == V1730_DPP_PSD_CODE ) {
      switch (registerAddress) {
        case Register::DPP::PSD::CFDSetting                     : name = "DPP::PSD::CFDSetting                     "; break;
        case Register::DPP::PSD::ChargeZeroSuppressionThreshold : name = "DPP::PSD::ChargeZeroSuppressionThreshold "; break;
        case Register::DPP::PSD::ShortGateWidth                 : name = "DPP::PSD::ShortGateWidth                 "; break;
        case Register::DPP::PSD::LongGateWidth                  : name = "DPP::PSD::LongGateWidth                  "; break;
        case Register::DPP::PSD::GateOffset                     : name = "DPP::PSD::GateOffset                     "; break;
        case Register::DPP::PSD::TriggerThreshold               : name = "DPP::PSD::TriggerThreshold               "; break;
        case Register::DPP::PSD::FixedBaseline                  : name = "DPP::PSD::FixedBaseline                  "; break;
        case Register::DPP::PSD::TriggerLatency                 : name = "DPP::PSD::TriggerLatency                 "; break;
        case Register::DPP::PSD::ShapedTriggerWidth             : name = "DPP::PSD::ShapedTriggerWidth             "; break;
        case Register::DPP::PSD::TriggerHoldOffWidth            : name = "DPP::PSD::TriggerHoldOffWidth            "; break;
        case Register::DPP::PSD::ThresholdForPSDCut             : name = "DPP::PSD::ThresholdForPSDCut             "; break;
        case Register::DPP::PSD::PurGapThreshold                : name = "DPP::PSD::PurGapThreshold                "; break;
        case Register::DPP::PSD::DPPAlgorithmControl2_G         : name = "DPP::PSD::DPPAlgorithmControl2_G         "; break; 
        case Register::DPP::PSD::EarlyBaselineFreeze            : name = "DPP::PSD::EarlyBaselineFreeze            "; break;
      }
    } 
    if( DPPType == V1730_DPP_PHA_CODE ) {
      switch (registerAddress) {
        case Register::DPP::PHA::ChannelStopAcquisition         : name = "DPP::PHA::ChannelStopAcquisition         "; break;
        case Register::DPP::PHA::RCCR2SmoothingFactor           : name = "DPP::PHA::RCCR2SmoothingFactor           "; break;
        case Register::DPP::PHA::InputRiseTime                  : name = "DPP::PHA::InputRiseTime                  "; break;
        case Register::DPP::PHA::TrapezoidRiseTime              : name = "DPP::PHA::TrapezoidRiseTime              "; break;
        case Register::DPP::PHA::TrapezoidFlatTop               : name = "DPP::PHA::TrapezoidFlatTop               "; break;
        case Register::DPP::PHA::PeakingTime                    : name = "DPP::PHA::PeakingTime                    "; break;
        case Register::DPP::PHA::DecayTime                      : name = "DPP::PHA::DecayTime                      "; break;
        case Register::DPP::PHA::TriggerThreshold               : name = "DPP::PHA::TriggerThreshold               "; break;
        case Register::DPP::PHA::RiseTimeValidationWindow       : name = "DPP::PHA::RiseTimeValidationWindow       "; break;
        case Register::DPP::PHA::TriggerHoldOffWidth            : name = "DPP::PHA::TriggerHoldOffWidth            "; break;
        case Register::DPP::PHA::PeakHoldOff                    : name = "DPP::PHA::PeakHoldOff                    "; break;
        case Register::DPP::PHA::ShapedTriggerWidth             : name = "DPP::PHA::ShapedTriggerWidth             "; break;
        case Register::DPP::PHA::DPPAlgorithmControl2_G         : name = "DPP::PHA::DPPAlgorithmControl2_G         "; break;
        case Register::DPP::PHA::FineGain                       : name = "DPP::PHA::FineGain                       "; break;
      }
    }
    ***********/
  }
  delete haha;
 }
--- a/ClassDigitizer.h
+++ b/ClassDigitizer.h
@ -33,10 +33,11 @@ class Digitizer{
    ///=================Settings
    /// write value to digitizer, memory, and settingFile (if exist)
-    void WriteRegister(uint32_t registerAddress, uint32_t value, int ch = -1); 
+    void WriteRegister(Reg registerAddress, uint32_t value, int ch = -1, bool isSave2MemAndFile = true); 
-    /// read value from digitizer and memory, and settingFile(if exist), 
+    /// read value from digitizer and memory, and save to memory, and settingFile(if exist), 
-    ///    when ch == -1 for register < 0x8000, read ch = 0;
+    ///    ch must be >= 0, 
-    uint32_t ReadRegister(uint32_t registerAddress, int ch = -1, string str = ""); 
+    /// for board setting, ignore ch
    uint32_t ReadRegister(Reg registerAddress, unsigned short ch = 0, bool isSave2MemAndFile = true, string str = "" ); 
    ///common for PHA and PSD digitizers
    void SetDPPType            (int type) { this->DPPType = type;} /// for manual override, or, digitizer does not open
@ -53,7 +54,7 @@ class Digitizer{
    void SetAggregateOrganization         (unsigned int bit);
    void SetMaxAggregatePerBlockTransfer  (unsigned int numEvent);
-    void SetBits(uint32_t address, unsigned int bitValue, unsigned int bitLength, unsigned int bitSmallestPos, int ch = -1);
+    void SetBits(Reg address, unsigned int bitValue, unsigned int bitLength, unsigned int bitSmallestPos, int ch = -1);
    void SetDPPAlgorithmControl(uint32_t bit, int ch = -1);
    void SetACQControl(uint32_t bit);
@ -92,7 +93,7 @@ class Digitizer{
    unsigned int GetAggregateOrganization()                {return ReadRegister(Register::DPP::AggregateOrganization);}
    unsigned int GetMaxNumberOfAggregatePerBlockTransfer() {return ReadRegister(Register::DPP::MaxAggregatePerBlockTransfer);}
-    unsigned int ReadBits(uint32_t address, unsigned int bitLength, unsigned int bitSmallestPos, int ch = -1 );
+    unsigned int ReadBits(Reg address, unsigned int bitLength, unsigned int bitSmallestPos, int ch = -1 );
    unsigned int GetDPPAlgorithmControl(int ch = -1) {return ReadRegister(Register::DPP::DPPAlgorithmControl, ch);}
    bool IsRunning() {return AcqRun;}
@ -114,24 +115,26 @@ class Digitizer{
    int ProgramPHABoard();
    ///================ Setting 
-    unsigned short CalSettingIndex         (uint32_t registerAddress, int ch = -1); /// real address is CalSettingIndex() * 4
+    //unsigned short CalSettingIndex         (uint32_t registerAddress, int ch = -1); /// real address is CalSettingIndex() * 4
-    void           FillSetting             (uint32_t registerAddress, int ch = -1);
+    //void           FillSetting             (Reg registerAddress, int ch = -1);  /// Read DIgitizer Setting and save to memory and binary
-    void           SetSettingToMemory      (uint32_t registerAddress, unsigned int value, int ch = -1);
+    /// board <--> memory functions
-    unsigned int   GetSettingFromMemory    (uint32_t registerAddress, int ch = -1);
+    void           ReadAllSettingsFromBoard  ();
-    void           FillAllSettings         ();
+    void           SetSettingFromMemory      (Reg registerAddress, int ch = -1); /// write to digitizer
    void           ProgramSettingsToBoard    ();
    /// simply read settings from memory
    void           SetSettingToMemory      (Reg registerAddress, unsigned int value, int ch = -1);
    unsigned int   GetSettingFromMemory    (Reg registerAddress, int ch = -1);
    void           PrintSettingFromMemory  ();
    unsigned int * GetSetting() {return setting;};    
    void          SetSettingFromMemory  (uint32_t registerAddress, int ch = -1);
    /// memory <--> file
    void         OpenSettingBinary           (string fileName); /// Open setting file, if file not exist, call CreateAndSaveSetiingFile, if file exit simple set the settignFileName
    void         LoadSettingBinary           (string fileName); /// load settign file to memory, if digitizer connected, program digitizer
-    void         CreateAndSaveSettingToFile  (string fileName);
+    void         SaveSettingToFile           (Reg registerAddress, unsigned int value,  int ch = -1);
-    void         SaveSettingToFile           (uint32_t registerAddress, unsigned int value,  int ch = -1);
+    unsigned int ReadSettingFromFile         (Reg registerAddress, int ch = -1); /// read from setting binary
    unsigned int ReadSettingFromFile         (uint32_t registerAddress, int ch = -1); /// read from setting binary
    void         SaveSettingAsText           (string fileName);
    ///void         TranslateSettingBin2Text    (string binFileName, int DPPType, string txtFileName);
    unsigned int * GetSetting() {return setting;};    
    string   GetSettingFileName() {return settingFileName;}
--- a/RegisterAddress.h
+++ b/RegisterAddress.h
@ -17,8 +17,16 @@
 /// Reg haha("haha", 0x1234);
 /// uint32_t papa = haha; /// papa = 0x1234
 enum RW { ReadWrite = 0, ReadONLY = 1, WriteONLY = 2};
 class Reg{
  public:
    Reg(){
      this->name = "";
      this->address = 0;
      this->type = 0;
      this->group = 0;
    }
    Reg(std::string name, uint32_t address, char type = 0, bool group = 0 ){
      this->name = name;
      this->address = address;
@ -30,19 +38,69 @@ class Reg{
    operator uint32_t () const {return this->address;}  /// this allows Reg kaka("kaka", 0x1234) uint32_t haha = kaka;
-    std::string  GetName()      const {return this->name;}
+    std::string  GetName()         const {return this->name;}
-    const char * GetNameChar()  const {return this->name.c_str();}
+    const char * GetNameChar()     const {return this->name.c_str();}
-    uint32_t     GetAddress()   const {return this->address; }
+    uint32_t     GetAddress()      const {return this->address; }
-    char         GetType()      const {return this->type;}
+    char         GetType()         const {return this->type;}
-    bool         GetGroup()     const {return this->group;}
+    bool         GetGroup()        const {return this->group;}
    uint32_t  ActualAddress(int ch = -1){
      if( address == 0x8180 ) return  (ch < 0 ? address : (address + 4*(ch/2)));
      if( address <  0x8000 ) return  (ch < 0 ? (address + 0x7000) : (address + (ch << 8)) );
      if( address >= 0x8000 ) return  address;
      return 0;
    }
    unsigned short Index (unsigned short ch);
    uint32_t CalAddress(unsigned int index); /// output actual address, also write the registerAddress
    void SetName(std::string str) {this->name = str;}
  private:
-    uint32_t address;
+    uint32_t address; /// This is the table of register, the actual address should call ActualAddress();
    std::string name;
    char type; /// read/write = 0; read = 1; write = 2
    bool group;
 };
 inline  unsigned short Reg::Index (unsigned short ch){
  unsigned short index;
  if( address == 0x8180){
    index = ((address + 4*(ch/2)) & 0x0FFF) / 4;
  }else if( address < 0x8000){
    index = (address + (ch << 8)) / 4;
  }else{
    if(address < 0xF000) {
      index = (address & 0x0FFF) / 4; 
    }else{ 
      index = ((address & 0x0FFF) + 0x0200 ) / 4; 
    }
  }
  return index;
 }
 inline uint32_t Reg::CalAddress(unsigned int index){
  uint32_t actualAddress = 0xFFFF;
  this->address = 0xFFFF;
  if(                        index < 0x0200 /4 )  {actualAddress = index * 4 + 0x8000; this->address =  index * 4 + 0x8000; }
  if( 0x0200 / 4 <= index && index < 0x0300 /4 )  {actualAddress = index * 4 + 0xEE00; this->address =  index * 4 + 0xEE00; }/// EE00 == F000 - 0200
  if( 0x0F00 / 4 <= index && index < 0x1000 /4 )  {actualAddress = index * 4 + 0xE000; this->address =  index * 4 + 0xE000; }
  if( 0x1000 / 4 <= index )                       {actualAddress = index * 4;          this->address = (index * 4) & 0xF0FF; }
  ///for TriggerValidationMask
  if( index == ((0x8180 +  4) & 0x0FFF) / 4 ) {actualAddress = 0x8180 +  4; address = 0x8180;} /// 1
  if( index == ((0x8180 +  8) & 0x0FFF) / 4 ) {actualAddress = 0x8180 +  8; address = 0x8180;} /// 2
  if( index == ((0x8180 + 12) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 12; address = 0x8180;} /// 3
  if( index == ((0x8180 + 16) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 16; address = 0x8180;} /// 4
  if( index == ((0x8180 + 20) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 20; address = 0x8180;} /// 5
  if( index == ((0x8180 + 24) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 24; address = 0x8180;} /// 6
  if( index == ((0x8180 + 28) & 0x0FFF) / 4 ) {actualAddress = 0x8180 + 28; address = 0x8180;} /// 7
  return actualAddress;
 }
 namespace Register {  
@ -238,7 +296,23 @@ const std::vector<Reg> RegisterPHAList = {
  Register::DPP::PHA::PeakHoldOff               ,
  Register::DPP::PHA::ShapedTriggerWidth        ,
  Register::DPP::PHA::DPPAlgorithmControl2_G    ,
-  Register::DPP::PHA::FineGain                  
+  Register::DPP::PHA::FineGain                  ,
  Register::DPP::RecordLength_G             ,
  Register::DPP::InputDynamicRange          ,
  Register::DPP::NumberEventsPerAggregate_G ,
  Register::DPP::PreTrigger                 ,
  Register::DPP::TriggerThreshold           ,
  Register::DPP::TriggerHoldOffWidth        ,
  Register::DPP::DPPAlgorithmControl        ,
  Register::DPP::ChannelStatus_R            ,
  Register::DPP::AMCFirmwareRevision_R      ,
  Register::DPP::ChannelDCOffset            ,
  Register::DPP::ChannelADCTemperature_R    ,
  Register::DPP::IndividualSoftwareTrigger_W,
  Register::DPP::VetoWidth                  ,
  Register::DPP::TriggerValidationMask_G   
 };
 const std::vector<Reg> RegisterPSDList = {
@ -256,10 +330,7 @@ const std::vector<Reg> RegisterPSDList = {
  Register::DPP::PSD::ThresholdForPSDCut             ,
  Register::DPP::PSD::PurGapThreshold                ,
  Register::DPP::PSD::DPPAlgorithmControl2_G         ,
-  Register::DPP::PSD::EarlyBaselineFreeze            
+  Register::DPP::PSD::EarlyBaselineFreeze            ,
 };
 const std::vector<Reg> RegisterDPPList = {
  Register::DPP::RecordLength_G             ,
  Register::DPP::InputDynamicRange          ,
@ -275,6 +346,12 @@ const std::vector<Reg> RegisterDPPList = {
  Register::DPP::IndividualSoftwareTrigger_W,
  Register::DPP::VetoWidth                  ,
  Register::DPP::TriggerValidationMask_G   
 };
 /// Only Board Setting 
 const std::vector<Reg> RegisterDPPList = {
  Register::DPP::BoardConfiguration          ,
  Register::DPP::AggregateOrganization       ,
  Register::DPP::ADCCalibration_W            ,
@ -299,7 +376,6 @@ const std::vector<Reg> RegisterDPPList = {
  Register::DPP::RunStartStopDelay           ,
  Register::DPP::BoardFailureStatus_R        ,
  Register::DPP::DisableExternalTrigger      ,
  Register::DPP::TriggerValidationMask_G     ,
  Register::DPP::FrontPanelLVDSIONewFeatures ,
  Register::DPP::BufferOccupancyGain         ,
  Register::DPP::ExtendedVetoDelay           ,
--- a/test.cpp
+++ b/test.cpp
@ -103,7 +103,6 @@ int main(int argc, char* argv[]){
    int board = i % 3;
    int port = i/3;
    dig[i] = new Digitizer(board, port, false, true);
    dig[i]->CreateAndSaveSettingToFile("setting_" + to_string(dig[i]->GetSerialNumber()) + ".bin");
    //dig[i]->OpenSettingBinary("setting_" + to_string(dig[i]->GetSerialNumber()) + ".bin");
  }