SOLARIS_QT6_DAQ/ClassDigitizer2Gen.cpp

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#include "ClassDigitizer2Gen.h"
Digitizer2Gen::Digitizer2Gen(){
printf("======== %s \n",__func__);
Initialization();
}
Digitizer2Gen::~Digitizer2Gen(){
printf("======== %s \n",__func__);
if(isConnected ) CloseDigitizer();
}
void Digitizer2Gen::Initialization(){
printf("======== %s \n",__func__);
handle = 0;
ret = 0;
isConnected = false;
isDummy = false;
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modelName = "";
cupVersion = "";
DPPVersion = "";
DPPType = "";
serialNumber = 0;
adcBits = 0;
nChannels = 0;
adcRate = 0;
ch2ns = 0;
IPAddress = "";
netMask = "";
gateway = "";
outFileIndex = 0;
dataStartIndetifier = 0xAAA0;
outFile = NULL;
outFileSize = 0;
evt = NULL;
acqON = false;
}
void Digitizer2Gen::SetDummy(){
isDummy = true;
nChannels = 64;
}
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//########################################### Handles functions
uint64_t Digitizer2Gen::GetHandle(const char * parameter){
uint64_t par_handle;
ret = CAEN_FELib_GetHandle(handle, parameter, &par_handle);
if(ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return 0;
}
return par_handle;
}
uint64_t Digitizer2Gen::GetParentHandle(uint64_t handle){
uint64_t par_handle;
ret = CAEN_FELib_GetParentHandle(handle, NULL, &par_handle);
if(ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return 0;
}
return par_handle;
}
std::string Digitizer2Gen::GetPath(uint64_t handle){
char path[256];
ret = CAEN_FELib_GetPath(handle, path);
if(ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return "Error";
}
return path;
}
//########################################### Read Write
std::string Digitizer2Gen::ReadValue(const char * parameter, bool verbose){
if( !isConnected ) return "not connected";
//printf(" %s|%s \n", __func__, parameter);
ret = CAEN_FELib_GetValue(handle, parameter, retValue);
if (ret != CAEN_FELib_Success) {
return ErrorMsg(__func__);
}else{
if( verbose ) printf("%-45s : %s\n", parameter, retValue);
}
return retValue;
}
void Digitizer2Gen::WriteValue(const char * parameter, std::string value){
if( !isConnected ) return;
printf(" %s| %-45s : %s\n", __func__, parameter, value.c_str());
ret = CAEN_FELib_SetValue(handle, parameter, value.c_str());
if (ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return;
}
}
void Digitizer2Gen::SendCommand(const char * parameter){
if( !isConnected ) return;
printf("Send Command : %s \n", parameter);
ret = CAEN_FELib_SendCommand(handle, parameter);
if (ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return;
}
}
//########################################### Open digitizer
int Digitizer2Gen::OpenDigitizer(const char * url){
printf("======== %s \n",__func__);
ret = CAEN_FELib_Open(url, &handle);
printf("=== ret : %d | %d \n", ret, CAEN_FELib_Success);
if (ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return -1;
}
isConnected = true;
modelName = ReadValue("/par/ModelName");
cupVersion = ReadValue("/par/cupver");
DPPVersion = ReadValue("/par/FPGA_FwVer");
DPPType = ReadValue("/par/FwType");
serialNumber = atoi(ReadValue("/par/SerialNum").c_str());
nChannels = atoi(ReadValue("/par/NumCh").c_str());
adcBits = atoi(ReadValue("/par/ADC_Nbit").c_str());
adcRate = atoi(ReadValue("/par/ADC_SamplRate").c_str());
ch2ns = 1000/adcRate;
IPAddress = ReadValue("/par/IPAddress");
netMask = ReadValue("/par/Netmask");
gateway = ReadValue("/par/Gateway");
printf(" IP address : %s\n", IPAddress.c_str());
printf(" Net Mask : %s\n", netMask.c_str());
printf(" Gateway : %s\n", gateway.c_str());
printf(" Model name : %s\n", modelName.c_str());
printf(" CUP version : %s\n", cupVersion.c_str());
printf(" DPP Type : %s\n", DPPType.c_str());
printf(" DPP Version : %s\n", DPPVersion.c_str());
printf("Serial number : %d\n", serialNumber);
printf(" ADC bits : %d\n", adcBits);
printf(" ADC rate : %d Msps, ch2ns : %d ns\n", adcRate, ch2ns);
printf(" Channels : %d\n", nChannels);
ReadValue("/par/InputRange", true);
ReadValue("/par/InputType", true);
ReadValue("/par/Zin", true);
return 0;
}
int Digitizer2Gen::CloseDigitizer(){
printf("======== %s \n",__func__);
if( isConnected == true ){
ret = CAEN_FELib_Close(handle);
if (ret != CAEN_FELib_Success) {
ErrorMsg(__func__);
return 0;
}
isConnected = false;
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}
return 0;
}
//########################################### DAQ
void Digitizer2Gen::StartACQ(){
SendCommand("/cmd/armacquisition"); // this will also clear data
SendCommand("/cmd/swstartacquisition");
acqON = true;
}
void Digitizer2Gen::StopACQ(){
SendCommand("/cmd/SwStopAcquisition");
SendCommand("/cmd/disarmacquisition");
acqON = false;
}
void Digitizer2Gen::SetPHADataFormat(unsigned short dataFormat){
///========== get endpoint and endpoint folder handle
if( dataFormat < 15 ){
ret = CAEN_FELib_GetHandle(handle, "/endpoint/dpppha", &ep_handle);
ret |= CAEN_FELib_GetParentHandle(ep_handle, NULL, &ep_folder_handle);
ret |= CAEN_FELib_SetValue(ep_folder_handle, "/par/activeendpoint", "dpppha");
if (ret != CAEN_FELib_Success) {
ErrorMsg("Set active endpoint");
return;
}
}else{
ret = CAEN_FELib_GetHandle(handle, "/endpoint/raw", &ep_handle);
ret |= CAEN_FELib_GetParentHandle(ep_handle, NULL, &ep_folder_handle);
ret |= CAEN_FELib_SetValue(ep_folder_handle, "/par/activeendpoint", "raw");
if (ret != CAEN_FELib_Success) {
ErrorMsg("Set active endpoint");
return;
}
}
evt = new Event();
evt->SetDataType(dataFormat);
dataStartIndetifier += dataFormat;
if( dataFormat == 0 ){
ret = CAEN_FELib_SetReadDataFormat(ep_handle,
"[ \
{ \"name\" : \"CHANNEL\", \"type\" : \"U8\" }, \
{ \"name\" : \"TIMESTAMP\", \"type\" : \"U64\" }, \
{ \"name\" : \"FINE_TIMESTAMP\", \"type\" : \"U16\" }, \
{ \"name\" : \"ENERGY\", \"type\" : \"U16\" }, \
{ \"name\" : \"ANALOG_PROBE_1\", \"type\" : \"I32\", \"dim\" : 1 }, \
{ \"name\" : \"ANALOG_PROBE_2\", \"type\" : \"I32\", \"dim\" : 1 }, \
{ \"name\" : \"DIGITAL_PROBE_1\", \"type\" : \"U8\", \"dim\" : 1 }, \
{ \"name\" : \"DIGITAL_PROBE_2\", \"type\" : \"U8\", \"dim\" : 1 }, \
{ \"name\" : \"DIGITAL_PROBE_3\", \"type\" : \"U8\", \"dim\" : 1 }, \
{ \"name\" : \"DIGITAL_PROBE_4\", \"type\" : \"U8\", \"dim\" : 1 }, \
{ \"name\" : \"ANALOG_PROBE_1_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"ANALOG_PROBE_2_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"DIGITAL_PROBE_1_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"DIGITAL_PROBE_2_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"DIGITAL_PROBE_3_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"DIGITAL_PROBE_4_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"WAVEFORM_SIZE\", \"type\" : \"SIZE_T\" }, \
{ \"name\" : \"FLAGS_LOW_PRIORITY\", \"type\" : \"U16\"}, \
{ \"name\" : \"FLAGS_HIGH_PRIORITY\", \"type\" : \"U16\" }, \
{ \"name\" : \"TRIGGER_THR\", \"type\" : \"U16\" }, \
{ \"name\" : \"TIME_RESOLUTION\", \"type\" : \"U8\" }, \
{ \"name\" : \"BOARD_FAIL\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"FLUSH\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"AGGREGATE_COUNTER\", \"type\" : \"U32\" }, \
{ \"name\" : \"EVENT_SIZE\", \"type\" : \"SIZE_T\" } \
]");
}
if( dataFormat == 1 ){
ret = CAEN_FELib_SetReadDataFormat(ep_handle,
"[ \
{ \"name\" : \"CHANNEL\", \"type\" : \"U8\" }, \
{ \"name\" : \"TIMESTAMP\", \"type\" : \"U64\" }, \
{ \"name\" : \"FINE_TIMESTAMP\", \"type\" : \"U16\" }, \
{ \"name\" : \"ENERGY\", \"type\" : \"U16\" }, \
{ \"name\" : \"ANALOG_PROBE_1\", \"type\" : \"I32\", \"dim\" : 1 }, \
{ \"name\" : \"ANALOG_PROBE_1_TYPE\", \"type\" : \"U8\" }, \
{ \"name\" : \"WAVEFORM_SIZE\", \"type\" : \"SIZE_T\" }, \
{ \"name\" : \"FLAGS_LOW_PRIORITY\", \"type\" : \"U16\"}, \
{ \"name\" : \"FLAGS_HIGH_PRIORITY\", \"type\" : \"U16\" }, \
{ \"name\" : \"TRIGGER_THR\", \"type\" : \"U16\" }, \
{ \"name\" : \"TIME_RESOLUTION\", \"type\" : \"U8\" }, \
{ \"name\" : \"BOARD_FAIL\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"FLUSH\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"AGGREGATE_COUNTER\", \"type\" : \"U32\" }, \
{ \"name\" : \"EVENT_SIZE\", \"type\" : \"SIZE_T\" } \
]");
}
if( dataFormat == 2 ){
ret = CAEN_FELib_SetReadDataFormat(ep_handle,
"[ \
{ \"name\" : \"CHANNEL\", \"type\" : \"U8\" }, \
{ \"name\" : \"TIMESTAMP\", \"type\" : \"U64\" }, \
{ \"name\" : \"FINE_TIMESTAMP\", \"type\" : \"U16\" }, \
{ \"name\" : \"ENERGY\", \"type\" : \"U16\" }, \
{ \"name\" : \"FLAGS_LOW_PRIORITY\", \"type\" : \"U16\"}, \
{ \"name\" : \"FLAGS_HIGH_PRIORITY\", \"type\" : \"U16\" }, \
{ \"name\" : \"TRIGGER_THR\", \"type\" : \"U16\" }, \
{ \"name\" : \"TIME_RESOLUTION\", \"type\" : \"U8\" }, \
{ \"name\" : \"BOARD_FAIL\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"FLUSH\", \"type\" : \"BOOL\" }, \
{ \"name\" : \"AGGREGATE_COUNTER\", \"type\" : \"U32\" }, \
{ \"name\" : \"EVENT_SIZE\", \"type\" : \"SIZE_T\" } \
]");
}
if( dataFormat == 3 ){
ret = CAEN_FELib_SetReadDataFormat(ep_handle,
"[ \
{ \"name\" : \"CHANNEL\", \"type\" : \"U8\" }, \
{ \"name\" : \"TIMESTAMP\", \"type\" : \"U64\" }, \
{ \"name\" : \"ENERGY\", \"type\" : \"U16\" } \
]");
}
if( dataFormat == 15 ){
ret = CAEN_FELib_SetReadDataFormat(ep_handle,
" [ \
{ \"name\": \"DATA\", \"type\": \"U8\", \"dim\": 1 }, \
{ \"name\": \"SIZE\", \"type\": \"SIZE_T\" }, \
{ \"name\": \"N_EVENTS\", \"type\": \"U32\" } \
]"
);
}
if (ret != CAEN_FELib_Success) {
ErrorMsg("Set Read Data Format");
return;
}
//TODO Statistic handle and endpoint
ret = CAEN_FELib_GetHandle(handle, "/endpoint/dpppha/stats", &stat_handle);
ret |= CAEN_FELib_SetReadDataFormat(stat_handle,
" [ \
{ \"name\": \"REAL_TIME_NS\", \"type\": \"U64\", \"dim\": 1 }, \
{ \"name\": \"DEAD_TIME_NS\", \"type\": \"U64\", \"dim\": 1 }, \
{ \"name\": \"LIVE_TIME_NS\", \"type\": \"U64\", \"dim\": 1 }, \
{ \"name\": \"TRIGGER_CNT\", \"type\": \"U32\", \"dim\": 1 }, \
{ \"name\": \"SAVED_EVENT_CNT\", \"type\": \"U32\", \"dim\": 1 } \
]"
);
if (ret != CAEN_FELib_Success) {
ErrorMsg("Set Statistics");
return;
}
}
int Digitizer2Gen::ReadStat(){
ret = CAEN_FELib_ReadData(stat_handle, 100,
realTime,
deadTime,
liveTime,
triggerCount,
savedEventCount
);
if (ret != CAEN_FELib_Success) ErrorMsg("Read Statistics");
return ret;
}
void Digitizer2Gen::PrintStat(){
printf("ch | Real Time[ns] | Dead Time[ns] | Live Time[ns] | Trigger | Saved | Rate[Hz] \n");
for( int i = 0; i < MaxNumberOfChannel; i++){
if( triggerCount[i] == 0 ) continue;
printf("%02d | %13lu | %13lu | %13lu | %7u | %7u | %.3f\n",
i, realTime[i], deadTime[i], liveTime[i], triggerCount[i], savedEventCount[i], triggerCount[i]*1e9*1.0/realTime[i]);
}
}
int Digitizer2Gen::ReadData(){
//printf("========= %s \n", __func__);
if( evt->dataType == 0){
ret = CAEN_FELib_ReadData(ep_handle, 100,
&evt->channel,
&evt->timestamp,
&evt->fine_timestamp,
&evt->energy,
evt->analog_probes[0],
evt->analog_probes[1],
evt->digital_probes[0],
evt->digital_probes[1],
evt->digital_probes[2],
evt->digital_probes[3],
&evt->analog_probes_type[0],
&evt->analog_probes_type[1],
&evt->digital_probes_type[0],
&evt->digital_probes_type[1],
&evt->digital_probes_type[2],
&evt->digital_probes_type[3],
&evt->traceLenght,
&evt->flags_low_priority,
&evt->flags_high_priority,
&evt->trigger_threashold,
&evt->downSampling,
&evt->board_fail,
&evt->flush,
&evt->aggCounter,
&evt->event_size
);
}else if( evt->dataType == 1){
ret = CAEN_FELib_ReadData(ep_handle, 100,
&evt->channel,
&evt->timestamp,
&evt->fine_timestamp,
&evt->energy,
evt->analog_probes[0],
&evt->analog_probes_type[0],
&evt->traceLenght,
&evt->flags_low_priority,
&evt->flags_high_priority,
&evt->trigger_threashold,
&evt->downSampling,
&evt->board_fail,
&evt->flush,
&evt->aggCounter,
&evt->event_size
);
}else if( evt->dataType == 2){
ret = CAEN_FELib_ReadData(ep_handle, 100,
&evt->channel,
&evt->timestamp,
&evt->fine_timestamp,
&evt->energy,
&evt->flags_low_priority,
&evt->flags_high_priority,
&evt->trigger_threashold,
&evt->downSampling,
&evt->board_fail,
&evt->flush,
&evt->aggCounter,
&evt->event_size
);
}else if( evt->dataType == 3){
ret = CAEN_FELib_ReadData(ep_handle, 100,
&evt->channel,
&evt->timestamp,
&evt->energy
);
}else if( evt->dataType == 15){
ret = CAEN_FELib_ReadData(ep_handle, 100, evt->data, &evt->dataSize, &evt->n_events );
//printf("data size: %lu byte\n", evt.dataSize);
}else{
return CAEN_FELib_UNKNOWN;
}
if( ret != CAEN_FELib_Success) {
//ErrorMsg("ReadData()");
return ret;
}
return ret;
}
//###########################################
void Digitizer2Gen::OpenOutFile(std::string fileName){
outFileNameBase = fileName;
sprintf(outFileName, "%s_%03d.sol", fileName.c_str(), outFileIndex);
outFile = fopen(outFileName, "a+");
fseek(outFile, 0L, SEEK_END);
outFileSize = ftell(outFile); // unsigned int = Max ~4GB
}
void Digitizer2Gen::CloseOutFile(){
fclose(outFile);
}
void Digitizer2Gen::SaveDataToFile(){
if( outFileSize > (unsigned int) MaxOutFileSize){
fclose(outFile);
outFileIndex ++;
sprintf(outFileName, "%s_%03d.sol", outFileNameBase.c_str(), outFileIndex);
outFile = fopen(outFileName, "a+");
}
if( evt->dataType == 0){
fwrite(&dataStartIndetifier, 2, 1, outFile);
fwrite(&evt->channel, 1, 1, outFile);
fwrite(&evt->energy, 2, 1, outFile);
fwrite(&evt->timestamp, 6, 1, outFile);
fwrite(&evt->fine_timestamp, 2, 1, outFile);
fwrite(&evt->flags_high_priority, 1, 1, outFile);
fwrite(&evt->flags_low_priority, 2, 1, outFile);
fwrite(&evt->downSampling, 1, 1, outFile);
fwrite(&evt->board_fail, 1, 1, outFile);
fwrite(&evt->flush, 1, 1, outFile);
fwrite(&evt->trigger_threashold, 2, 1, outFile);
fwrite(&evt->event_size, 8, 1, outFile);
fwrite(&evt->aggCounter, 4, 1, outFile);
fwrite(&evt->traceLenght, 8, 1, outFile);
fwrite(evt->analog_probes_type, 2, 1, outFile);
fwrite(evt->digital_probes_type, 4, 1, outFile);
fwrite(evt->analog_probes[0], evt->traceLenght*4, 1, outFile);
fwrite(evt->analog_probes[1], evt->traceLenght*4, 1, outFile);
fwrite(evt->digital_probes[0], evt->traceLenght, 1, outFile);
fwrite(evt->digital_probes[1], evt->traceLenght, 1, outFile);
fwrite(evt->digital_probes[2], evt->traceLenght, 1, outFile);
fwrite(evt->digital_probes[3], evt->traceLenght, 1, outFile);
}else if( evt->dataType == 1){
fwrite(&dataStartIndetifier, 2, 1, outFile);
fwrite(&evt->channel, 1, 1, outFile);
fwrite(&evt->energy, 2, 1, outFile);
fwrite(&evt->timestamp, 6, 1, outFile);
fwrite(&evt->fine_timestamp, 2, 1, outFile);
fwrite(&evt->flags_high_priority, 1, 1, outFile);
fwrite(&evt->flags_low_priority, 2, 1, outFile);
fwrite(&evt->traceLenght, 8, 1, outFile);
fwrite(&evt->analog_probes_type[0], 1, 1, outFile);
fwrite(evt->analog_probes[0], evt->traceLenght*4, 1, outFile);
}else if( evt->dataType == 2){
fwrite(&dataStartIndetifier, 2, 1, outFile);
fwrite(&evt->channel, 1, 1, outFile);
fwrite(&evt->energy, 2, 1, outFile);
fwrite(&evt->timestamp, 6, 1, outFile);
fwrite(&evt->fine_timestamp, 2, 1, outFile);
fwrite(&evt->flags_high_priority, 1, 1, outFile);
fwrite(&evt->flags_low_priority, 2, 1, outFile);
}else if( evt->dataType == 3){
fwrite(&dataStartIndetifier, 2, 1, outFile);
fwrite(&evt->channel, 1, 1, outFile);
fwrite(&evt->energy, 2, 1, outFile);
fwrite(&evt->timestamp, 6, 1, outFile);
}else if( evt->dataType == 15){
fwrite(&dataStartIndetifier, 2, 1, outFile);
fwrite(&evt->dataSize, 8, 1, outFile);
fwrite(evt->data, evt->dataSize, 1, outFile);
}
outFileSize = ftell(outFile); // unsigned int = Max ~4GB
}
//###########################################
void Digitizer2Gen::Reset(){ SendCommand("/cmd/Reset"); }
void Digitizer2Gen::ProgramPHA(bool testPulse){
if( !isConnected ) return ;
// Acquistion
WriteValue("/par/StartSource" , "SWcmd | SINedge");
WriteValue("/par/TrgOutMode", "Disabled");
WriteValue("/par/GPIOMode", "Disabled");
WriteValue("/par/SyncOutMode", "Disabled");
WriteValue("/par/RunDelay", "0"); // ns, that is for sync time with multi board
WriteValue("/par/IOlevel", "NIM");
WriteValue("/par/EnStatEvents", "true");
// Channel setting
if( testPulse){
WriteValue("/ch/0..63/par/ChEnable" , "false");
WriteValue("/ch/0/par/ChEnable" , "true");
WriteValue("/ch/1/par/ChEnable" , "true");
WriteValue("/ch/2/par/ChEnable" , "true");
WriteValue("/ch/3/par/ChEnable" , "true");
//WriteValue("/ch/0..63/par/ChEnable" , "true");
WriteValue("/ch/0..63/par/EventTriggerSource", "GlobalTriggerSource");
WriteValue("/ch/0..63/par/WaveTriggerSource" , "GlobalTriggerSource"); // EventTriggerSource enought
WriteValue("/par/GlobalTriggerSource", "SwTrg | TestPulse");
WriteValue("/par/TestPulsePeriod" , "1000000"); // 1.0 msec = 1000Hz, tested, 1 trace recording
WriteValue("/par/TestPulseWidth" , "1000"); // nsec
WriteValue("/par/TestPulseLowLevel" , "0");
WriteValue("/par/TestPulseHighLevel" , "10000");
}else{
//======= this is for manual send trigger signal via software
//WriteValue("/ch/0..63/par/EventTriggerSource", "SwTrg");
//WriteValue("/ch/0..63/par/WaveTriggerSource" , "SwTrg");
//======== Self trigger for each channel
//WriteValue("/ch/0..63/par/EventTriggerSource", "ChSelfTrigger");
//WriteValue("/ch/0..63/par/WaveTriggerSource" , "ChSelfTrigger");
//======== One (or more) slef-trigger can trigger whole board, ??? depend on Channel Trigger mask
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//WriteValue("/ch/0..63/par/EventTriggerSource", "Ch64Trigger");
//WriteValue("/ch/0..63/par/WaveTriggerSource" , "Ch64Trigger");
//WriteValue("/ch/0..63/par/ChannelsTriggerMask", "0x0000FFFF000F000F");
//WriteValue("/ch/0..3/par/ChannelsTriggerMask", "0x1");
//WriteValue("/ch/4..7/par/ChannelsTriggerMask", "0x10");
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//WriteValue("/ch/0/par/ChannelsTriggerMask", "0x000F");
//WriteValue("/ch/12/par/ChannelsTriggerMask", "0x000F");
//WriteValue("/ch/38/par/ChannelsTriggerMask", "0x000F"); // when channel has no input, it still record.
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//----------- coincident trigger to ch-4n
WriteValue("/ch/0..63/par/EventTriggerSource", "ChSelfTrigger");
WriteValue("/ch/0..63/par/WaveTriggerSource" , "ChSelfTrigger");
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for(int i = 0 ; i < 16; i++){
WriteValue(("/ch/"+ std::to_string(4*i+1) + ".." + std::to_string(4*i+3) + "/par/ChannelsTriggerMask").c_str(), "0x1");
WriteValue(("/ch/"+ std::to_string(4*i+1) + ".." + std::to_string(4*i+3) + "/par/CoincidenceMask").c_str(), "Ch64Trigger");
WriteValue(("/ch/"+ std::to_string(4*i+1) + ".." + std::to_string(4*i+3) + "/par/CoincidenceLengthT").c_str(), "100"); // ns
}
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//======== ACQ trigger?
//WriteValue("/ch/0..63/par/EventTriggerSource", "GlobalTriggerSource");
//WriteValue("/ch/0..63/par/WaveTriggerSource" , "GlobalTriggerSource");
//WriteValue("/par/GlobalTriggerSource", "SwTrg");
WriteValue("/ch/0..63/par/ChEnable" , "true");
//WriteValue("/ch/0..15/par/ChEnable" , "true");
}
WriteValue("/ch/0..63/par/DCOffset" , "10"); /// 10%
WriteValue("/ch/0..63/par/WaveSaving" , "Always");
WriteValue("/ch/0..63/par/ChRecordLengthS" , "512"); /// 4096 ns
WriteValue("/ch/0..63/par/ChPreTriggerS" , "125"); /// 1000 ns
WriteValue("/ch/0..63/par/WaveResolution" , "RES8"); /// 8 ns
WriteValue("/ch/0..63/par/WaveAnalogProbe0" , "ADCInput");
WriteValue("/ch/0..63/par/WaveAnalogProbe1" , "EnergyFilterMinusBaseline");
WriteValue("/ch/0..63/par/WaveDigitalProbe0" , "Trigger");
WriteValue("/ch/0..63/par/WaveDigitalProbe1" , "EnergyFilterPeaking");
WriteValue("/ch/0..63/par/WaveDigitalProbe2" , "TimeFilterArmed");
WriteValue("/ch/0..63/par/WaveDigitalProbe3" , "EnergyFilterPeakReady");
// Filter parameters
WriteValue("/ch/0..63/par/TimeFilterRiseTimeS" , "10"); // 80 ns
WriteValue("/ch/0..63/par/TriggerThr" , "1000");
WriteValue("/ch/0..63/par/PulsePolarity" , "Positive");
WriteValue("/ch/0..63/par/EnergyFilterBaselineAvg" , "Medium"); // 1024 sample
WriteValue("/ch/0..63/par/EnergyFilterFineGain" , "1.0");
WriteValue("/ch/0..63/par/EnergyFilterRiseTimeS" , "62"); // 496 ns
WriteValue("/ch/0..63/par/EnergyFilterFlatTopS" , "200"); // 1600 ns
WriteValue("/ch/0..63/par/EnergyFilterPoleZeroS" , "6250"); // 50 us
WriteValue("/ch/0..63/par/EnergyFilterPeakingPosition" , "20"); // 20 % = Flatup * 20% = 320 ns
WriteValue("/ch/0..63/par/TimeFilterRetriggerGuardS" , "10"); // 80 ns
WriteValue("/ch/0..63/par/EnergyFilterPileupGuardS" , "10"); // 80 ns
WriteValue("/ch/0..63/par/EnergyFilterBaselineGuardS" , "100"); // 800 ns
WriteValue("/ch/0..63/par/EnergyFilterLFLimitation" , "Off");
}
void Digitizer2Gen::ReadDigitizerSettings(){
ReadValue("/ch/4/par/ChRecordLengthS" , true);
ReadValue("/ch/4/par/ChPreTriggerS" , true);
ReadValue("/ch/4/par/WaveResolution" , true);
ReadValue("/ch/4/par/WaveAnalogProbe0" , true);
ReadValue("/ch/4/par/WaveAnalogProbe1" , true);
ReadValue("/ch/4/par/WaveDigitalProbe0", true);
ReadValue("/ch/4/par/WaveDigitalProbe1", true);
ReadValue("/ch/4/par/WaveDigitalProbe2", true);
ReadValue("/ch/4/par/WaveDigitalProbe3", true);
ReadValue("/ch/4/par/ChannelsTriggerMask", true);
ReadValue("/ch/0/par/ChannelsTriggerMask", true);
}
std::string Digitizer2Gen::ErrorMsg(const char * funcName){
printf("======== %s | %s\n",__func__, funcName);
char msg[1024];
int ec = CAEN_FELib_GetErrorDescription((CAEN_FELib_ErrorCode) ret, msg);
if (ec != CAEN_FELib_Success) {
std::string errMsg = __func__;
errMsg += " failed";
printf("%s failed\n", __func__);
return errMsg;
}
printf("Error msg (%d): %s\n", ret, msg);
return msg;
}