#include #include #include #include #include #include #include #include #include #include "channelSettingPSD.h" extern Pixel_t red, blue, green; extern unsigned short nDigi; extern Digitizer ** digi; ChannelSettingPSD::ChannelSettingPSD(const TGWindow *p, UInt_t w, UInt_t h, int boardID){ fMain = new TGMainFrame(p,w,h); fMain->SetWindowName("Channel Settings PSD"); fMain->Connect("CloseWindow()", "ChannelSettingPSD", this, "CloseWindow()"); TGLayoutHints * layoutHintsR = new TGLayoutHints(kLHintsRight, 5,5,3,2); /// left, right, top, bottom TGLayoutHints * layoutHints = new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5,5,0,0); /// left, right, top, bottom TGVerticalFrame * vframe = new TGVerticalFrame(fMain); fMain->AddFrame(vframe, new TGLayoutHints(kLHintsCenterX, 2,2,2,2)); TGHorizontalFrame *hframe0 = new TGHorizontalFrame(vframe, w, 50 ); vframe->AddFrame(hframe0, new TGLayoutHints(kLHintsCenterX, 2,2,2,2)); ///==========Board choose TGLabel * lb0 = new TGLabel(hframe0, "Module ID :"); hframe0->AddFrame(lb0, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); boardIDEntry = new TGNumberEntry(hframe0, boardID, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); hframe0->AddFrame(boardIDEntry, new TGLayoutHints(kLHintsCenterX , 5, 5, 3, 4)); boardIDEntry->SetWidth(50); boardIDEntry->SetLimits(TGNumberFormat::kNELLimitMinMax, 0, nDigi); boardIDEntry->Connect("Modified()", "ChannelSettingPSD", this, "ChangeBoard()"); if( nDigi <= 1 ) boardIDEntry->SetState(false); this->presentBoardID = boardID; NChannel = 16 ; if( digi != NULL ) NChannel = digi[boardID]->GetNChannel(); TGLabel * lba = new TGLabel(hframe0, Form("Serial : %03d", digi == NULL ? -1 : digi[boardID]->GetSerialNumber())); hframe0->AddFrame(lba, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); TGLabel * lb1 = new TGLabel(hframe0, "Channel :"); hframe0->AddFrame(lb1, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); chIDEntry = new TGNumberEntry(hframe0, 0, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEAAnyNumber); chIDEntry->SetWidth(50); chIDEntry->SetLimits(TGNumberFormat::kNELLimitMinMax, -1, NChannel-1); chIDEntry->SetNumber(0, false); chIDEntry->Connect("Modified()", "ChannelSettingPSD", this, "ChangeCh()"); hframe0->AddFrame(chIDEntry, new TGLayoutHints(kLHintsCenterX , 5, 5, 3, 4)); TGTextButton* bSetAllChannels = new TGTextButton(hframe0, "Set All Channels", 1); hframe0->AddFrame(bSetAllChannels, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); bSetAllChannels->SetState(kButtonUp); bSetAllChannels->Connect("Clicked()", "ChannelSettingPSD", this, "SetAllChannels()"); ///const uint32_t ChannelADCTemperature = 0x10A8; /// R TGLabel * lbTemp = new TGLabel(hframe0, "Temperature [C] :"); hframe0->AddFrame(lbTemp, new TGLayoutHints(kLHintsCenterX | kLHintsCenterY, 5, 5, 3, 4)); eTemp = new TGTextEntry(hframe0, new TGTextBuffer(1)); hframe0->AddFrame(eTemp, new TGLayoutHints(kLHintsRight, 5,5,3,4)); eTemp->SetEnabled(false); eTemp->Resize(50,20); int ch = chIDEntry->GetNumber(); int width = 80; TGHorizontalFrame *hframe1 = new TGHorizontalFrame(vframe, w, 50 ); vframe->AddFrame(hframe1, new TGLayoutHints(kLHintsCenterX, 2,2,2,2)); {///================== Input Setting TGGroupFrame * gfInput = new TGGroupFrame(hframe1, "Input / Misc.", kHorizontalFrame); hframe1->AddFrame(gfInput, new TGLayoutHints(kLHintsExpandY)); TGHorizontalFrame * hfInput = new TGHorizontalFrame(gfInput); gfInput->AddFrame(hfInput); TGVerticalFrame * vfInput1 = new TGVerticalFrame(hfInput); hfInput->AddFrame(vfInput1); TGVerticalFrame * vfInput2 = new TGVerticalFrame(hfInput); hfInput->AddFrame(vfInput2); ///----------- on/off TGLabel * lbOnOff = new TGLabel(vfInput1, "On/Off"); vfInput1->AddFrame(lbOnOff, layoutHintsR); cbOnOff = new TGComboBox(vfInput2); vfInput2->AddFrame(cbOnOff, layoutHints); cbOnOff->AddEntry("ON", 1); cbOnOff->AddEntry("off", 0); cbOnOff->Resize(width, 20); cbOnOff->Connect("Selected(Int_t, Int_t)", "ChannelSettingPSD", this, "SetChannelMask()"); ///----------- Polarity TGLabel * lbPol = new TGLabel(vfInput1, "Polarity");vfInput1->AddFrame(lbPol, layoutHintsR); cbPolarity = new TGComboBox(vfInput2); vfInput2->AddFrame(cbPolarity, layoutHints); cbPolarity->AddEntry("Positive +", 1); cbPolarity->AddEntry("Negative -", 0); cbPolarity->Resize(width, 20); cbPolarity->Connect("Selected(Int_t, Int_t)", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); ///---------- Input Dynamic Range TGLabel * lbInputDynamicRange = new TGLabel(vfInput1, "Input Range");vfInput1->AddFrame(lbInputDynamicRange, layoutHintsR); cbInputDynamicRange = new TGComboBox(vfInput2); vfInput2->AddFrame(cbInputDynamicRange, layoutHints); cbInputDynamicRange->AddEntry("2.0 Vpp", 0); cbInputDynamicRange->AddEntry("0.5 Vpp", 1); cbInputDynamicRange->Resize(width, 20); cbInputDynamicRange->Connect("Selected(Int_t, Int_t)", "ChannelSettingPSD", this, "SetInputDynamicRange()"); ///---------- Record Length TGLabel * lbRecordLength = new TGLabel(vfInput1, "Record Length [ns]"); vfInput1->AddFrame(lbRecordLength, layoutHintsR); numRecordLength = new TGNumberEntry(vfInput2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numRecordLength, layoutHints); numRecordLength->Resize(width, 20); numRecordLength->Connect("Modified()", "ChannelSettingPSD", this, "SetRecordLength()"); ///const uint32_t PreTrigger = 0x1038; /// R/W TGLabel * lbPreTrigger = new TGLabel(vfInput1, "Pre trigger [ns]"); vfInput1->AddFrame(lbPreTrigger, layoutHintsR); numPreTrigger = new TGNumberEntry(vfInput2, 2000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numPreTrigger, layoutHints); numPreTrigger->Resize(width, 20); numPreTrigger->Connect("Modified()", "ChannelSettingPSD", this, "SetPreTrigger()"); ///const uint32_t NumberEventsPerAggregate_G = 0x1034; /// R/W, TGLabel * lbEventAgg = new TGLabel(vfInput1, "Events / Aggregate"); vfInput1->AddFrame(lbEventAgg, layoutHintsR); numEventAgg = new TGNumberEntry(vfInput2, 512, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numEventAgg, layoutHints); numEventAgg->Resize(width, 20); numEventAgg->Connect("Modified()", "ChannelSettingPSD", this, "SetEventAggregate()"); ///const uint32_t ShapedTriggerWidth = 0x1084; /// R/W not sure ///const uint32_t VetoWidth = 0x10D4; /// R/W ///const uint32_t FineGain = 0x10C4; /// R/W OK ///const uint32_t ChannelDCOffset = 0x1098; /// R/W TGLabel * lbDCOffset = new TGLabel(vfInput1, "DC offset [%]"); vfInput1->AddFrame(lbDCOffset, layoutHintsR); numDCOffset = new TGNumberEntry(vfInput2, 20, 0, 0, TGNumberFormat::kNESRealTwo, TGNumberFormat::kNEANonNegative); vfInput2->AddFrame(numDCOffset, layoutHints); numDCOffset->Resize(width, 20); numDCOffset->Connect("Modified()", "ChannelSettingPSD", this, "SetDCOffset()"); } {///================== Trigger Settings TGGroupFrame * gfTrigger = new TGGroupFrame(hframe1, "Trigger / Threshold", kHorizontalFrame); hframe1->AddFrame(gfTrigger, new TGLayoutHints(kLHintsExpandY)); TGHorizontalFrame * hfTrigger = new TGHorizontalFrame(gfTrigger); gfTrigger->AddFrame(hfTrigger); TGVerticalFrame * vfTrigger1 = new TGVerticalFrame(hfTrigger); hfTrigger->AddFrame(vfTrigger1); TGVerticalFrame * vfTrigger2 = new TGVerticalFrame(hfTrigger); hfTrigger->AddFrame(vfTrigger2); ///const uint32_t TriggerThreshold = 0x1060; /// R/W TGLabel * lbTriggerThreshold = new TGLabel(vfTrigger1, "Trigger Threshold [LSB]"); vfTrigger1->AddFrame(lbTriggerThreshold, layoutHintsR); numTriggerThreshold = new TGNumberEntry(vfTrigger2, 100, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerThreshold, layoutHints); numTriggerThreshold->Resize(width, 20); numTriggerThreshold->Connect("Modified()", "ChannelSettingPSD", this, "SetTriggerThreshold()"); ///const uint32_t TriggerHoldOffWidth = 0x1074; /// R/W TGLabel * lbTriggerHoldOff = new TGLabel(vfTrigger1, "Trigger Holdoff [ns]"); vfTrigger1->AddFrame(lbTriggerHoldOff, layoutHintsR); numTriggerHoldOff = new TGNumberEntry(vfTrigger2, 20000, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTriggerHoldOff, layoutHints); numTriggerHoldOff->Resize(width, 20); numTriggerHoldOff->Connect("Modified()", "ChannelSettingPSD", this, "SetTriggerHoldOff()"); ///const uint32_t ChargeZeroSuppressionThreshold = 0x1044; /// R/W TGLabel * lbChargeZeroSupThreshold = new TGLabel(vfTrigger1, "Charge Zero Suppress Th. [LSB]"); vfTrigger1->AddFrame(lbChargeZeroSupThreshold, layoutHintsR); numlbChargeZeroSupThreshold = new TGNumberEntry(vfTrigger2, 100, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numlbChargeZeroSupThreshold, layoutHints); numlbChargeZeroSupThreshold->Resize(width, 20); //numlbChargeZeroSupThreshold->Connect("Modified()", "ChannelSettingPSD", this, "SetTriggerHoldOff()"); ///const uint32_t TriggerLatency = 0x106C; /// R/W TGLabel * lbTrigLatency = new TGLabel(vfTrigger1, "Trigger Latency [ns]"); vfTrigger1->AddFrame(lbTrigLatency, layoutHintsR); numTrigLatency = new TGNumberEntry(vfTrigger2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numTrigLatency, layoutHints); numTrigLatency->Resize(width, 20); //numTrigLatency->Connect("Modified()", "ChannelSettingPSD", this, "SetDCOffset()"); ///const uint32_t ThresholdForPSDCut = 0x1078; /// R/W TGLabel * lbThresholdPSDCut = new TGLabel(vfTrigger1, "PSD Cut Threshold [%]"); vfTrigger1->AddFrame(lbThresholdPSDCut, layoutHintsR); numThresholdPSDCut = new TGNumberEntry(vfTrigger2, 20, 0, 0, TGNumberFormat::kNESRealTwo, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numThresholdPSDCut, layoutHints); numThresholdPSDCut->Resize(width, 20); //numThresholdPSDCut->Connect("Modified()", "ChannelSettingPSD", this, "SetDCOffset()"); ///const uint32_t PurGapThreshold = 0x107C; /// R/W TGLabel * lbPURGAPThreshold = new TGLabel(vfTrigger1, "PUR-GAP Threshold [LSB]"); vfTrigger1->AddFrame(lbPURGAPThreshold, layoutHintsR); numPURGAPThreshold = new TGNumberEntry(vfTrigger2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrigger2->AddFrame(numPURGAPThreshold, layoutHints); numPURGAPThreshold->Resize(width, 20); /// DPP1 bit[19:18] TGLabel * lbTriggerMode = new TGLabel(vfTrigger1, "Trigger Mode"); vfTrigger1->AddFrame(lbTriggerMode, layoutHintsR); cbTriggerMode = new TGComboBox(vfTrigger2); vfTrigger2->AddFrame(cbTriggerMode, layoutHints); cbTriggerMode->AddEntry("Normal", 0); cbTriggerMode->AddEntry("Coin.", 1); cbTriggerMode->AddEntry("Anti-Coin.", 3); cbTriggerMode->Resize(width, 20); cbTriggerMode->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); } {///================== PSD Settings TGGroupFrame * gfTrap = new TGGroupFrame(hframe1, "PSD Settings", kHorizontalFrame); hframe1->AddFrame(gfTrap, new TGLayoutHints(kLHintsExpandY)); TGHorizontalFrame * hfTrap = new TGHorizontalFrame(gfTrap); gfTrap->AddFrame(hfTrap); TGVerticalFrame * vfTrap1 = new TGVerticalFrame(hfTrap); hfTrap->AddFrame(vfTrap1); TGVerticalFrame * vfTrap2 = new TGVerticalFrame(hfTrap); hfTrap->AddFrame(vfTrap2); ///const uint32_t CFDSetting = 0x103C; /// R/W TGLabel * lbCFDDelay = new TGLabel(vfTrap1, "CFD Delay [ns]"); vfTrap1->AddFrame(lbCFDDelay, layoutHintsR); numCFDDelay = new TGNumberEntry(vfTrap2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numCFDDelay, layoutHints); numCFDDelay->Resize(width, 20); TGLabel * lbCFDFraction = new TGLabel(vfTrap1, "CFD Fraction"); vfTrap1->AddFrame(lbCFDFraction, layoutHintsR); cbCFDFraction = new TGComboBox(vfTrap2); vfTrap2->AddFrame(cbCFDFraction, layoutHints); cbCFDFraction->AddEntry("25%", 0); cbCFDFraction->AddEntry("50%", 1); cbCFDFraction->AddEntry("75%", 2); cbCFDFraction->AddEntry("100%", 3); cbCFDFraction->Resize(width, 20); TGLabel * lbCFDInterPt = new TGLabel(vfTrap1, "CFD Interpolation Pt."); vfTrap1->AddFrame(lbCFDInterPt, layoutHintsR); cbCFDInterPt = new TGComboBox(vfTrap2); vfTrap2->AddFrame(cbCFDInterPt, layoutHints); cbCFDInterPt->AddEntry("same", 0); cbCFDInterPt->AddEntry("2nd", 1); cbCFDInterPt->AddEntry("3rd", 2); cbCFDInterPt->AddEntry("4th", 3); cbCFDInterPt->Resize(width, 20); ///const uint32_t ShortGateWidth = 0x1054; /// R/W TGLabel * lbShortGateWidth = new TGLabel(vfTrap1, "Short Gate Width [ns]"); vfTrap1->AddFrame(lbShortGateWidth, layoutHintsR); numShortGateWidth = new TGNumberEntry(vfTrap2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numShortGateWidth, layoutHints); numShortGateWidth->Resize(width, 20); ///const uint32_t LongGateWidth = 0x1058; /// R/W TGLabel * lbLongGateWidth = new TGLabel(vfTrap1, "Long Gate Width [ns]"); vfTrap1->AddFrame(lbLongGateWidth, layoutHintsR); numLongGateWidth = new TGNumberEntry(vfTrap2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numLongGateWidth, layoutHints); numLongGateWidth->Resize(width, 20); ///const uint32_t GateOffset = 0x105C; /// R/W TGLabel * lbGateOffset = new TGLabel(vfTrap1, "Gate Offset [ns]"); vfTrap1->AddFrame(lbGateOffset, layoutHintsR); numGateOffset = new TGNumberEntry(vfTrap2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numGateOffset, layoutHints); numGateOffset->Resize(width, 20); ///const uint32_t FixedBaseline = 0x1064; /// R/W TGLabel * lbFixBaseline = new TGLabel(vfTrap1, "Fix Baseline [LSB]"); vfTrap1->AddFrame(lbFixBaseline, layoutHintsR); numFixBaseline = new TGNumberEntry(vfTrap2, 16, 0, 0, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative); vfTrap2->AddFrame(numFixBaseline, layoutHints); numFixBaseline->Resize(width, 20); } {///================== const uint32_t DPPAlgorithmControl = 0x1080; /// R/W TGGroupFrame * gfDPPCtrl = new TGGroupFrame(vframe, "DPP Algorithm Control 1 & 2", kHorizontalFrame); vframe->AddFrame(gfDPPCtrl, new TGLayoutHints(kLHintsExpandX)); TGVerticalFrame * vfDPPCtrl = new TGVerticalFrame(gfDPPCtrl); gfDPPCtrl->AddFrame(vfDPPCtrl, new TGLayoutHints(kLHintsExpandX)); TGHorizontalFrame * hfDPPCtrl1 = new TGHorizontalFrame(vfDPPCtrl); vfDPPCtrl->AddFrame(hfDPPCtrl1, new TGLayoutHints(kLHintsExpandX, 5, 5, 10, 0)); TGVerticalFrame * vfDPPCtrl11 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl11, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0)); TGVerticalFrame * vfDPPCtrl12 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl12); TGLayoutHints * haha = new TGLayoutHints(kLHintsRight, 5, 5, 3, 2); /// DPP [2:0] TGLabel * lbChargeSensitivity = new TGLabel(vfDPPCtrl11, "Charge Sensitivity :"); vfDPPCtrl11->AddFrame(lbChargeSensitivity, haha); cbChargeSensitivity = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbChargeSensitivity); cbChargeSensitivity->AddEntry("5 fC", 0); cbChargeSensitivity->AddEntry("20 fC", 1); cbChargeSensitivity->AddEntry("80 fC", 2); cbChargeSensitivity->AddEntry("320 fC", 3); cbChargeSensitivity->AddEntry("1.28 pC", 4); cbChargeSensitivity->AddEntry("5.12 pC", 5); cbChargeSensitivity->Resize(width, 20); cbChargeSensitivity->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbChargePedestal = new TGLabel(vfDPPCtrl11, "Charge Pedestal :"); vfDPPCtrl11->AddFrame(lbChargePedestal, haha); cbChargePedestal = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbChargePedestal); cbChargePedestal->AddEntry("Disable", 0); cbChargePedestal->AddEntry("added 1024", 1); cbChargePedestal->Resize(width, 20); cbChargePedestal->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbTriggerCount = new TGLabel(vfDPPCtrl11, "Trigger Count :"); vfDPPCtrl11->AddFrame(lbTriggerCount, haha); cbTriggerCount = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbTriggerCount); cbTriggerCount->AddEntry("only saved to memory", 0); cbTriggerCount->AddEntry("included rejected events", 1); cbTriggerCount->Resize(width, 20); cbTriggerCount->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbDiscrimationMode = new TGLabel(vfDPPCtrl11, "Discri. Mode :"); vfDPPCtrl11->AddFrame(lbDiscrimationMode, haha); cbDiscrimationMode = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbDiscrimationMode); cbDiscrimationMode->AddEntry("Leading edge", 0); cbDiscrimationMode->AddEntry("Digitial CFD", 1); cbDiscrimationMode->Resize(width, 20); cbDiscrimationMode->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbPileUpGate = new TGLabel(vfDPPCtrl11, "Pile-Up within gate :"); vfDPPCtrl11->AddFrame(lbPileUpGate, haha); cbPileUpGate = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbPileUpGate); cbPileUpGate->AddEntry("Disabled", 0); cbPileUpGate->AddEntry("Enabled", 1); cbPileUpGate->Resize(width, 20); cbPileUpGate->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbPileUp = new TGLabel(vfDPPCtrl11, "Pile-Up Rejection :"); vfDPPCtrl11->AddFrame(lbPileUp, haha); cbPileUp = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbPileUp); cbPileUp->AddEntry("Disabled", 0); cbPileUp->AddEntry("Enabled", 1); cbPileUp->Resize(width, 20); cbPileUp->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbTestPulseRate = new TGLabel(vfDPPCtrl11, "Test Pulse Rate :"); vfDPPCtrl11->AddFrame(lbTestPulseRate, haha); cbTestPulseRate = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbTestPulseRate); cbTestPulseRate->AddEntry("1 kHz", 0); cbTestPulseRate->AddEntry("10 kHz", 1); cbTestPulseRate->AddEntry("100 kHz", 2); cbTestPulseRate->AddEntry("1 MHz", 3); cbTestPulseRate->Resize(width, 20); cbTestPulseRate->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbBaselineLongGate = new TGLabel(vfDPPCtrl11, "Baseline Cal. after Long Gate :"); vfDPPCtrl11->AddFrame(lbBaselineLongGate, haha); cbBaselineLongGate = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbBaselineLongGate); cbBaselineLongGate->AddEntry("Disabled", 0); cbBaselineLongGate->AddEntry("Enabled", 1); cbBaselineLongGate->Resize(width, 20); cbBaselineLongGate->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); /// DPP1 bit[22:20] TGLabel * lbBaseLineAvg = new TGLabel(vfDPPCtrl11, "Baseline avg. :"); vfDPPCtrl11->AddFrame(lbBaseLineAvg, haha); cbBaseLineAvg = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbBaseLineAvg); cbBaseLineAvg->AddEntry("no baseline", 0); cbBaseLineAvg->AddEntry("16 sp.", 1); cbBaseLineAvg->AddEntry("64 sp.", 2); cbBaseLineAvg->AddEntry("256 sp.", 3); cbBaseLineAvg->AddEntry("1024 sp.", 4); cbBaseLineAvg->AddEntry("4096 sp.", 5); cbBaseLineAvg->AddEntry("16384 sp.", 6); cbBaseLineAvg->Resize(width, 20); cbBaseLineAvg->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbDiscardQlongQthr = new TGLabel(vfDPPCtrl11, "Q(Long) < Q(thr.) :"); vfDPPCtrl11->AddFrame(lbDiscardQlongQthr, haha); cbDiscardQlongQthr = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbDiscardQlongQthr); cbDiscardQlongQthr->AddEntry("Accept", 0); cbDiscardQlongQthr->AddEntry("Discard", 1); cbDiscardQlongQthr->Resize(width, 20); cbDiscardQlongQthr->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbOverRange = new TGLabel(vfDPPCtrl11, "ADC Over/under range :"); vfDPPCtrl11->AddFrame(lbOverRange, haha); cbOverRange = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbOverRange); cbOverRange->AddEntry("Accept", 0); cbOverRange->AddEntry("Reject.", 1); cbOverRange->Resize(width, 20); cbOverRange->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbTrigHysteresis = new TGLabel(vfDPPCtrl11, "Trigger Hysteresis :"); vfDPPCtrl11->AddFrame(lbTrigHysteresis, haha); cbTrigHysteresis = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbTrigHysteresis); cbTrigHysteresis->AddEntry("Enabled", 0); cbTrigHysteresis->AddEntry("Disabled", 1); cbTrigHysteresis->Resize(width, 20); cbTrigHysteresis->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbInhibitOppostieParity = new TGLabel(vfDPPCtrl11, "Inhibit Opposite Parity Zero-Crossing :"); vfDPPCtrl11->AddFrame(lbInhibitOppostieParity, haha); cbInhibitOppostieParity = new TGComboBox(vfDPPCtrl12); vfDPPCtrl12->AddFrame(cbInhibitOppostieParity); cbInhibitOppostieParity->AddEntry("Enabled", 0); cbInhibitOppostieParity->AddEntry("Disabled", 1); cbInhibitOppostieParity->Resize(width, 20); cbInhibitOppostieParity->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGVerticalFrame * vfDPPCtrl21 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl21, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0)); TGVerticalFrame * vfDPPCtrl22 = new TGVerticalFrame(hfDPPCtrl1); hfDPPCtrl1->AddFrame(vfDPPCtrl22, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0)); TGLabel * lbLocalShapedTrigger = new TGLabel(vfDPPCtrl21, "Local Shaped Trigger :"); vfDPPCtrl21->AddFrame(lbLocalShapedTrigger, haha); cbLocalShapedTrigger = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbLocalShapedTrigger); cbLocalShapedTrigger->AddEntry("Disabled", -3); cbLocalShapedTrigger->AddEntry("AND", 0); cbLocalShapedTrigger->AddEntry("Even Channel", 1); cbLocalShapedTrigger->AddEntry("Odd Channel", 2); cbLocalShapedTrigger->AddEntry("OR", 3); cbLocalShapedTrigger->Resize(100, 20); cbLocalShapedTrigger->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbLocalTriggerValid = new TGLabel(vfDPPCtrl21, "Local Trigger Valid. :"); vfDPPCtrl21->AddFrame(lbLocalTriggerValid, haha); cbLocalTriggerValid = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbLocalTriggerValid); cbLocalTriggerValid->AddEntry("Disabled", -3); cbLocalTriggerValid->AddEntry("Enable Add.", 0); cbLocalTriggerValid->AddEntry("val0 = val1 from mother-board mask", 1); cbLocalTriggerValid->AddEntry("AND", 3); cbLocalTriggerValid->AddEntry("OR", 4); cbLocalTriggerValid->Resize(200, 20); cbLocalTriggerValid->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbAddLocalTriggerValid = new TGLabel(vfDPPCtrl21, "Add. Local Trigger Valid. :"); vfDPPCtrl21->AddFrame(lbAddLocalTriggerValid, haha); cbAddLocalTriggerValid = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbAddLocalTriggerValid); cbAddLocalTriggerValid->AddEntry("Disabled", 0); cbAddLocalTriggerValid->AddEntry("valid from paired Ch. AND mother board", 1); cbAddLocalTriggerValid->AddEntry("valid from paired Ch. OR mother board", 2); cbAddLocalTriggerValid->Resize(200, 20); cbAddLocalTriggerValid->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbVetoSource = new TGLabel(vfDPPCtrl21, "Veto Source :"); vfDPPCtrl21->AddFrame(lbVetoSource, haha); cbVetoSource = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbVetoSource); cbVetoSource->AddEntry("Disabled", 0); cbVetoSource->AddEntry("common to all channels", 1); cbVetoSource->AddEntry("individually set for paired channel", 2); cbVetoSource->AddEntry("negative saturation", 3); cbVetoSource->Resize(150, 20); cbVetoSource->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbInputSmoothingFactor = new TGLabel(vfDPPCtrl21, "Input Smoothing :"); vfDPPCtrl21->AddFrame(lbInputSmoothingFactor, haha); cbInputSmoothinFactor = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbInputSmoothinFactor); cbInputSmoothinFactor->AddEntry("Disabled", 0); cbInputSmoothinFactor->AddEntry("2 samples", 1); cbInputSmoothinFactor->AddEntry("4 samples", 2); cbInputSmoothinFactor->AddEntry("8 samples", 3); cbInputSmoothinFactor->AddEntry("16 samples", 4); cbInputSmoothinFactor->Resize(width, 20); cbInputSmoothinFactor->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbTriggerCounterRate = new TGLabel(vfDPPCtrl21, "Trigger Counter Rate (N) :"); vfDPPCtrl21->AddFrame(lbTriggerCounterRate, haha); cbTriggerCounterRate = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbTriggerCounterRate); cbTriggerCounterRate->AddEntry("1024", 0); cbTriggerCounterRate->AddEntry(" 128", 1); cbTriggerCounterRate->AddEntry("8192", 2); cbTriggerCounterRate->Resize(width, 20); cbTriggerCounterRate->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbMarkSaturatedPulse = new TGLabel(vfDPPCtrl21, "Mark Saturated Pulse :"); vfDPPCtrl21->AddFrame(lbMarkSaturatedPulse, haha); cbMarkSaturatedPulse = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbMarkSaturatedPulse); cbMarkSaturatedPulse->AddEntry("Enabled", 0); cbMarkSaturatedPulse->AddEntry("Disabled", 1); cbMarkSaturatedPulse->Resize(width, 20); cbMarkSaturatedPulse->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbResetTimeStamp = new TGLabel(vfDPPCtrl21, "Reset Timestamp from external Veto :"); vfDPPCtrl21->AddFrame(lbResetTimeStamp, haha); cbResetTimeStamp = new TGComboBox(vfDPPCtrl22); vfDPPCtrl22->AddFrame(cbResetTimeStamp); cbResetTimeStamp->AddEntry("Disbaled", 0); cbResetTimeStamp->AddEntry("Enabled", 1); cbResetTimeStamp->Resize(width, 20); cbResetTimeStamp->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGHorizontalFrame * hfDPPCtrl2 = new TGHorizontalFrame(vfDPPCtrl); vfDPPCtrl->AddFrame(hfDPPCtrl2, new TGLayoutHints(kLHintsExpandX, 5, 5, 10, 0)); TGVerticalFrame * vfDPPCtrl_a = new TGVerticalFrame(hfDPPCtrl2); hfDPPCtrl2->AddFrame(vfDPPCtrl_a); TGVerticalFrame * vfDPPCtrl_b = new TGVerticalFrame(hfDPPCtrl2); hfDPPCtrl2->AddFrame(vfDPPCtrl_b, new TGLayoutHints(kLHintsExpandX, 5, 5, 0, 0)); TGLabel * lbVetoSignalMode = new TGLabel(vfDPPCtrl_a, "Veto Mode :"); vfDPPCtrl_a->AddFrame(lbVetoSignalMode, haha); cbVetoMode = new TGComboBox(vfDPPCtrl_b); vfDPPCtrl_b->AddFrame(cbVetoMode); cbVetoMode->AddEntry("is used after charge integration", 0); cbVetoMode->AddEntry("to inhibit self-trigger", 1); cbVetoMode->Resize(300, 20); cbVetoMode->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbDisableSelfTrigger = new TGLabel(vfDPPCtrl_a, "Self Trigger :"); vfDPPCtrl_a->AddFrame(lbDisableSelfTrigger, haha); cbDisableSelfTrigger = new TGComboBox(vfDPPCtrl_b); vfDPPCtrl_b->AddFrame(cbDisableSelfTrigger); cbDisableSelfTrigger->AddEntry("used to acquire and propagate to trigger logic", 0); cbDisableSelfTrigger->AddEntry("only propagate to trigger logic", 1); cbDisableSelfTrigger->Resize(300, 20); cbLocalShapedTrigger->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm1()"); TGLabel * lbExtraWordOption = new TGLabel(vfDPPCtrl_a, "Extras Word Option :"); vfDPPCtrl_a->AddFrame(lbExtraWordOption, haha); cbExtraWordOption = new TGComboBox(vfDPPCtrl_b); vfDPPCtrl_b->AddFrame(cbExtraWordOption); cbExtraWordOption->AddEntry("[31:16] Extended Time Stamp [15:0] Baseline * 4", 0); cbExtraWordOption->AddEntry("[31:16] Extended Time Stamp [15] Flags", 1); cbExtraWordOption->AddEntry("[31:16] Extended Time Stamp [15] Flags [9:0] Fine Tiem Stamp", 2); cbExtraWordOption->AddEntry("[31:16] Lost Trigger Counter [15:10] Total Trigger COunter", 4); cbExtraWordOption->AddEntry("[31:16] Positive Zero Crossing [15:0] Negative Zero Crossing", 5); cbExtraWordOption->AddEntry("0x12345678", 7); cbExtraWordOption->Resize(400, 20); cbExtraWordOption->Connect("Changed()", "ChannelSettingPSD", this, "SetDPPAlgorithm2()"); TGLabel * lbExtraWordOptionFlag = new TGLabel(vfDPPCtrl_b, "Flags = [15] Triggr lost [14] Over-range [13] 1024 trigger counted [12] N lost trigger count"); vfDPPCtrl_b->AddFrame(lbExtraWordOptionFlag); } fMain->MapSubwindows(); fMain->Resize(fMain->GetDefaultSize()); fMain->MapWindow(); ch2ns = 4; isOpened = true; } ChannelSettingPSD::~ChannelSettingPSD(){ printf("close ChannelSettingPSD window\n"); isOpened = false; delete boardIDEntry; delete cbOnOff; delete cbInputDynamicRange; delete cbPolarity; /// fMain must be delete last; fMain->Cleanup(); delete fMain; } void ChannelSettingPSD::LogMsg(TString msg){ Emit("LogMsg(char*)", msg.Data()); } void ChannelSettingPSD::ChangeBoard(){ if ( digi == NULL ) return; int boardID = boardIDEntry->GetNumber(); if( digi[boardID]->GetDPPType() != V1730_DPP_PHA_CODE){ if( boardID > presentBoardID ) { for( int i = boardID +1 ; i < nDigi; i++){ if( digi[i]->GetDPPType() == V1730_DPP_PHA_CODE ){ boardID = i; boardIDEntry->SetNumber(i, false); break; } if( i = nDigi -1 ) return; } }else{ for( int i = boardID - 1 ; i >= 0; i--){ if( digi[i]->GetDPPType() == V1730_DPP_PHA_CODE ){ boardID = i; boardIDEntry->SetNumber(i, false); break; } if( i = nDigi -1 ) return; } } } ch2ns = (unsigned short) digi[boardID]->GetCh2ns(); ChangeCh(); } void ChannelSettingPSD::ChangeCh(){ LogMsg(Form("========== Change to Channel %d", (int)chIDEntry->GetNumber())); if ( digi == NULL ) return; int boardID = boardIDEntry->GetNumber(); int ch = chIDEntry->GetNumber(); if( ch < 0 ) { printf("All channels mode.\n"); return; } cbOnOff->Select( (digi[boardID]->GetChannelMask() >> ch) & 0x1, false); /// don't emit signal cbInputDynamicRange->Select( digi[boardID]->ReadRegister(Register::DPP::InputDynamicRange, ch), false); numRecordLength->SetNumber( digi[boardID]->ReadRegister(Register::DPP::RecordLength_G, ch) * 8 * ch2ns, false); numPreTrigger->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PreTrigger, ch) * 4 * ch2ns, false); numEventAgg->SetNumber( digi[boardID]->ReadRegister(Register::DPP::NumberEventsPerAggregate_G, ch), false); uint32_t temp = digi[boardID]->ReadRegister(Register::DPP::ChannelDCOffset, ch); numDCOffset->SetNumber( 1.0 - temp * 1.0/0xFFFF , false); eTemp->SetText(Form("%d C", digi[boardID]->ReadRegister(Register::DPP::ChannelADCTemperature_R, ch)), false); numTriggerThreshold->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::TriggerThreshold, ch), false); numTriggerHoldOff ->SetNumber( digi[boardID]->ReadRegister(Register::DPP::PHA::TriggerHoldOffWidth, ch) * 4 * ch2ns, false); temp = digi[boardID]->ReadRegister(Register::DPP::DPPAlgorithmControl, ch); cbPolarity->Select( ( (temp >> 16) & 0x1), false); cbTriggerMode->Select( ( (temp >> 18) & 0x3), false); cbBaseLineAvg->Select( ( (temp >> 20) & 0x7), false); cbDisableSelfTrigger->Select( ( (temp >> 24) & 0x1), false); cbPileUp->Select( ( (temp >> 27) & 0x1), false); temp = digi[boardID]->ReadRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, ch); if( (((temp >> 2)) & 0x1 ) == 1 ){ cbLocalShapedTrigger->Select( ( (temp >> 0) & 0x3), false); }else{ cbLocalShapedTrigger->Select( -3, false); } if( (((temp >> 6)) & 0x1 ) == 1 ){ cbLocalTriggerValid->Select( ( (temp >> 4) & 0x3), false); }else{ cbLocalTriggerValid->Select( -3, false); } cbVetoSource->Select( ( (temp >> 14) & 0x3), false); cbTriggerCounterRate->Select( ( (temp >> 16) & 0x3), false); cbExtraWordOption->Select( ( (temp >> 8) & 0x7), false); } void ChannelSettingPSD::SetAllChannels(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); uint32_t bit = 0; bit += ((cbPolarity->GetSelected() << 16) & 0x3); bit += ((cbTriggerMode->GetSelected() << 18) & 0x3); bit += ((cbBaseLineAvg->GetSelected() << 20) & 0x7); bit += ((cbDisableSelfTrigger->GetSelected() << 24) & 0x1); bit += ((cbPileUp->GetSelected() << 27) & 0x1); printf(" DPP1 bit: 0x%x\n", bit); digi[boardID]->WriteRegister(Register::DPP::DPPAlgorithmControl, bit, -1); if( cbLocalShapedTrigger->GetSelected() >= 0 ){ bit += cbLocalShapedTrigger->GetSelected(); bit += ( 1 << 2); } if( cbLocalTriggerValid->GetSelected() >= 0 ){ bit += ((cbLocalTriggerValid->GetSelected() << 4) & 0x3); bit += ( 1 << 6); } bit += ((cbExtraWordOption->GetSelected() << 8 ) & 0x7); bit += ((cbVetoSource->GetSelected() << 14 ) & 0x3); bit += ((cbTriggerCounterRate->GetSelected() << 16 ) & 0x3); printf(" DPP2 bit: 0x%x\n", bit); digi[boardID]->WriteRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, bit, -1); } void ChannelSettingPSD::SetChannelMask(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); unsigned short val = cbOnOff->GetSelected(); uint32_t chMask = ((digi[boardID]->GetChannelMask()) & ( val << ch) ); printf("mask : 0x%x \n", chMask); digi[boardID]->SetChannelMask(chMask); } void ChannelSettingPSD::SetDPPAlgorithm1(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); unsigned short ch2ns = digi[boardID]->GetCh2ns(); digi[boardID]->WriteRegister(Register::DPP::InputDynamicRange, cbInputDynamicRange->GetSelected(), -1); unsigned short temp = ((unsigned short)(numRecordLength->GetNumber())) / 8 / ch2ns; digi[boardID]->WriteRegister(Register::DPP::RecordLength_G, temp , ch); uint32_t bit = 0; bit += ((cbPolarity->GetSelected() << 16) & 0x3); bit += ((cbTriggerMode->GetSelected() << 18) & 0x3); bit += ((cbBaseLineAvg->GetSelected() << 20) & 0x7); bit += ((cbDisableSelfTrigger->GetSelected() << 24) & 0x1); bit += ((cbPileUp->GetSelected() << 27) & 0x1); printf(" DPP1 bit: 0x%x\n", bit); digi[boardID]->WriteRegister(Register::DPP::DPPAlgorithmControl, bit, ch); } void ChannelSettingPSD::SetDPPAlgorithm2(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); uint32_t bit = 0; if( cbLocalShapedTrigger->GetSelected() >= 0 ){ bit += cbLocalShapedTrigger->GetSelected(); bit += ( 1 << 2); } if( cbLocalTriggerValid->GetSelected() >= 0 ){ bit += ((cbLocalTriggerValid->GetSelected() << 4) & 0x3); bit += ( 1 << 6); } bit += ((cbExtraWordOption->GetSelected() << 8 ) & 0x7); bit += ((cbVetoSource->GetSelected() << 14 ) & 0x3); bit += ((cbTriggerCounterRate->GetSelected() << 16 ) & 0x3); printf(" DPP2 bit: 0x%x\n", bit); digi[boardID]->WriteRegister(Register::DPP::PHA::DPPAlgorithmControl2_G, bit, ch); } void ChannelSettingPSD::SetInputDynamicRange(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); digi[boardID]->WriteRegister(Register::DPP::InputDynamicRange, cbInputDynamicRange->GetSelected(), ch); } void ChannelSettingPSD::ChangeAStep(TGNumberEntry * numEntry, unsigned short stepSize, uint32_t address){ unsigned int temp = numEntry->GetNumber(); unsigned int res = temp % (stepSize * ch2ns); temp = temp - res + ( ( res < (stepSize * ch2ns/2) ) ? (stepSize * ch2ns ) : 0 ); numEntry->SetNumber(temp, false); short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); if( digi != NULL ) { Reg tempReg = digi[boardID]->FindRegister(address); digi[boardID]->WriteRegister(tempReg, temp / stepSize / ch2ns , ch); } } void ChannelSettingPSD::SetRecordLength() {printf("=== %s\n", __func__); ChangeAStep(numRecordLength, 8, Register::DPP::RecordLength_G); } void ChannelSettingPSD::SetPreTrigger() {printf("=== %s\n", __func__); ChangeAStep(numPreTrigger, 4, Register::DPP::PreTrigger);} void ChannelSettingPSD::SetEventAggregate() {printf("=== %s\n", __func__); ChangeAStep(numEventAgg, 1, Register::DPP::NumberEventsPerAggregate_G);} void ChannelSettingPSD::SetTriggerThreshold(){printf("=== %s\n", __func__); ChangeAStep(numTriggerThreshold, 1, Register::DPP::PSD::TriggerThreshold); } void ChannelSettingPSD::SetTriggerHoldOff() {printf("=== %s\n", __func__); ChangeAStep(numTriggerHoldOff, 4, Register::DPP::PSD::TriggerHoldOffWidth);} void ChannelSettingPSD::SetDCOffset(){ printf("=== %s\n", __func__); if ( digi == NULL ) return; short boardID = boardIDEntry->GetNumber(); short ch = chIDEntry->GetNumber(); double temp = numDCOffset->GetNumber(); uint32_t bit = uint32_t((1.0 - temp) * 0xFFFF); printf("%.2f = 0x%x \n", temp, bit); if( digi != NULL ) digi[boardID]->WriteRegister(Register::DPP::ChannelDCOffset, bit , ch); }