18/09/2008 christian.lippmann@cern.ch : Noisy channels are output to ASCII file. Use max noise in ALTRO.
19/09/2008 J.Wiechula@gsi.de: Added export of the calibration data to the AMORE data base.
Added support for configuration files.
+31/01/2011 Christian.Lippmann@cern.ch : Updates for changed setup at P2 with 2 LDCs per sector
contact: marian.ivanov@cern.ch
#define FILE_ID "pedestals"
#define MAPPING_FILE "tpcMapping.root"
#define CONFIG_FILE "TPCPEDESTALda.conf"
+#define PED_FILE "tpcPedestals.data"
+#define NOISE_FILE "tpcNoise.data"
+#define PEDMEM_FILE "tpcPedestalMem.data"
+#define NOISY_FILE "tpcNoisyChannels.data"
+#define VERYNOISY_FILE "tpcVeryNoisyChannels.data"
+#define DEAD_FILE "tpcDeadChannels.data"
#define AliDebugLevel() -1
extern "C" {
printf("Wrong number of arguments\n");
return -1;
}
+
+ TString daterolename(gSystem->Getenv("DATE_ROLE_NAME"));
+ if ( daterolename == "" ) {
+ printf("Error: Variable DATE_ROLE_NAME not defined! Exiting ...\n");
+ return -1;
+ }
+ bool inner;
+ if ( daterolename.EndsWith("-0") ) inner = true;
+ else if ( daterolename.EndsWith("-1") ) inner = false;
+ else {
+ printf("Error: Variable DATE_ROLE_NAME neither ends with -0 nor -1 (E.g. ldc-TPC-C12-1)! Exiting ...\n");
+ return -1;
+ }
+
AliLog::SetClassDebugLevel("AliTPCRawStream",-5);
AliLog::SetClassDebugLevel("AliRawReaderDate",-5);
AliLog::SetClassDebugLevel("AliTPCAltroMapping",-5);
/* magic line */
gROOT->GetPluginManager()->AddHandler("TVirtualStreamerInfo",
- "*",
- "TStreamerInfo",
- "RIO",
- "TStreamerInfo()");
+ "*",
+ "TStreamerInfo",
+ "RIO",
+ "TStreamerInfo()");
/* declare monitoring program */
int i, status;
}
AliTPCConfigDA config(CONFIG_FILE);
// check configuration
+ Bool_t skipAmore=kFALSE;
+
if ( (Int_t)config.GetValue("NoTimeAnalysis") == 1 ) {
printf("WARNING: Time analysis was switched off in the configuration file!\n");
timeAnalysis=kFALSE;
}
+
if ( (Int_t)config.GetValue("UseFastDecoder") == 1 ){
printf("Info: The fast decoder will be used for the processing.\n");
fastDecoding=kTRUE;
}
-
+
+ if ( config.GetConfigurationMap()->GetValue("SkipAmore") ) {
+ skipAmore=((TObjString*)config.GetConfigurationMap()->GetValue("SkipAmore"))->GetString().Atoi();
+ printf("TPCPEDESTALda: Skip Amore set in config\n");
+ }
+
+
// create calibration object
AliTPCCalibPedestal calibPedestal(config.GetConfigurationMap()); // pedestal and noise calibration
calibPedestal.SetAltroMapping(mapping->GetAltroMapping()); // Use altro mapping we got from daqDetDb
+ calibPedestal.SetTimeAnalysis(timeAnalysis); // pedestal(t) calibration
//===========================//
// loop over RAW data files //
break;
}
- /* skip start/end of run events */
- if ( (event->eventType != physicsEvent) && (event->eventType != calibrationEvent) )
- continue;
-
/* retry if got no event */
if (event==NULL)
continue;
+ /* skip start/end of run events */
+ if ( (event->eventType != physicsEvent) && (event->eventType != calibrationEvent) )
+ continue;
+
nevents++;
// get the run number
runNb = event->eventRunNb;
// Pedestal calibration
- AliRawReader *rawReader = new AliRawReaderDate((void*)event);
- if ( fastDecoding ) calibPedestal.ProcessEventFast(rawReader);
- else calibPedestal.ProcessEvent(rawReader);
- delete rawReader;
+ calibPedestal.ProcessEvent(event);
/* free resources */
free(event);
//
//Send objects to the AMORE DB
//
- printf ("AMORE part\n");
- const char *amoreDANameorig=gSystem->Getenv("AMORE_DA_NAME");
- //cheet a little -- temporary solution (hopefully)
- //
- //currently amoreDA uses the environment variable AMORE_DA_NAME to create the mysql
- //table in which the calib objects are stored. This table is dropped each time AmoreDA
- //is initialised. This of course makes a problem if we would like to store different
- //calibration entries in the AMORE DB. Therefore in each DA which writes to the AMORE DB
- //the AMORE_DA_NAME env variable is overwritten.
-
- //find processed sector
- Char_t sideName='A';
- Int_t sector = 0;
- for ( Int_t roc = 0; roc < 72; roc++ ) {
- if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
- if (mapping->GetSideFromRoc(roc)==1) sideName='C';
- sector = mapping->GetSectorFromRoc(roc);
+ if (!skipAmore){
+ printf ("AMORE part\n");
+ const char *amoreDANameorig=gSystem->Getenv("AMORE_DA_NAME");
+ //cheet a little -- temporary solution (hopefully)
+ //
+ //currently amoreDA uses the environment variable AMORE_DA_NAME to create the mysql
+ //table in which the calib objects are stored. This table is dropped each time AmoreDA
+ //is initialised. This of course makes a problem if we would like to store different
+ //calibration entries in the AMORE DB. Therefore in each DA which writes to the AMORE DB
+ //the AMORE_DA_NAME env variable is overwritten.
+
+ //find processed sector
+ Char_t sideName='A';
+ Int_t sector = -1;
+ for ( Int_t roc = 0; roc < 72; roc++ ) {
+ if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
+ if (mapping->GetSideFromRoc(roc)==1) sideName='C';
+ sector = mapping->GetSectorFromRoc(roc);
+ }
+ // gSystem->Setenv("AMORE_DA_NAME",Form("TPC-%c%02d-%s",sideName,sector,FILE_ID));
+ gSystem->Setenv("AMORE_DA_NAME",Form("%s-%s",gSystem->Getenv("DATE_ROLE_NAME"),FILE_ID));
+
+ //
+ // end cheet
+ if (sector>-1){
+ TDatime time;
+ TObjString info(Form("Run: %u; Date: %s",runNb,time.AsSQLString()));
+
+ amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender);
+ Int_t statusDA=0;
+ statusDA+=amoreDA.Send("Pedestals",calibPedestal.GetCalPadPedestal());
+ statusDA+=amoreDA.Send("Noise",calibPedestal.GetCalPadRMS());
+ statusDA+=amoreDA.Send("Info",&info);
+ if ( statusDA )
+ printf("Warning: Failed to write one of the calib objects to the AMORE database\n");
+ } else {
+ printf("Warning: No data found!\n");
+ }
+ // reset env var
+ if (amoreDANameorig) gSystem->Setenv("AMORE_DA_NAME",amoreDANameorig);
}
- gSystem->Setenv("AMORE_DA_NAME",Form("TPC-%c%02d-%s",sideName,sector,FILE_ID));
-
- //
- // end cheet
- TDatime time;
- TObjString info(Form("Run: %u; Date: %s",runNb,time.AsString()));
-
- amore::da::AmoreDA amoreDA(amore::da::AmoreDA::kSender);
- Int_t statusDA=0;
- statusDA+=amoreDA.Send("Pedestals",calibPedestal.GetCalPadPedestal());
- statusDA+=amoreDA.Send("Noise",calibPedestal.GetCalPadRMS());
- statusDA+=amoreDA.Send("Info",&info);
- if ( statusDA )
- printf("Waring: Failed to write one of the calib objects to the AMORE database\n");
- // reset env var
- if (amoreDANameorig) gSystem->Setenv("AMORE_DA_NAME",amoreDANameorig);
-
-
+
//
// Now prepare ASCII files for local ALTRO configuration through DDL.
//
ofstream noisefile;
ofstream pedmemfile;
ofstream noisychannelfile;
+ ofstream verynoisychannelfile;
+ ofstream deadchannelfile;
- char filename[255];
- sprintf(filename,"tpcPedestals.data");
- pedfile.open(filename);
- sprintf(filename,"tpcNoise.data");
- noisefile.open(filename);
- sprintf(filename,"tpcPedestalMem.data");
- pedmemfile.open(filename);
- sprintf(filename,"tpcNoisyChannels.data");
- noisychannelfile.open(filename);
+ pedfile.open(PED_FILE);
+ noisefile.open(NOISE_FILE);
+ pedmemfile.open(PEDMEM_FILE);
+ noisychannelfile.open(NOISY_FILE);
+ verynoisychannelfile.open(VERYNOISY_FILE);
+ deadchannelfile.open(DEAD_FILE);
TArrayF **timePed = calibPedestal.GetTimePedestals(); // pedestal values for each time bin
Int_t ctr_altro = 0;
Int_t ctr_pattern = 0;
Int_t ctr_noisy = 0;
-
- pedfile << 10 << std::endl; // Mark file to contain PEDESTALS per channel
- noisefile << 11 << std::endl; // Mark file to contain NOISE per altro
- pedmemfile << 12 << std::endl; // Mark file to contain PEDESTALs per time bin
- noisychannelfile << 14 << std::endl; // Mark file to contain NOISY CHANNELS
-
+ Int_t ctr_vnoisy = 0;
+ Int_t ctr_dead = 0;
+
+ pedfile << 10 << std::endl; // Mark file to contain PEDESTALS per channel
+ noisefile << 11 << std::endl; // Mark file to contain NOISE per altro
+ pedmemfile << 12 << std::endl; // Mark file to contain PEDESTALs per time bin
+ noisychannelfile << 14 << std::endl; // Mark file to contain NOISY or DEAD CHANNELS
+ verynoisychannelfile << 14 << std::endl; // Mark file to contain NOISY or DEAD CHANNELS
+ deadchannelfile << 14 << std::endl; // Mark file to contain NOISY or DEAD CHANNELS
+
+ // inner==true : calROC from ldc-0 contains: rcus 0,1 for IROC and rcu 2 for OROC
+ // inner==false: calROC from ldc-1 contains: nothing for IROC and rcus 3,4,5 for OROC
for ( Int_t roc = 0; roc < 72; roc++ ) {
if ( !calibPedestal.GetCalRocPedestal(roc) ) continue;
+ bool isIROC = mapping->IsIROC(roc);
Int_t side = mapping->GetSideFromRoc(roc);
Int_t sector = mapping->GetSectorFromRoc(roc);
- //printf("Analysing ROC %d (side %d, sector %d) ...\n", roc, side, sector);
- Int_t nru = mapping->IsIROC(roc) ? 2 : 4;
- for ( int rcu = 0; rcu < nru; rcu++ ) {
- Int_t patch = mapping->IsIROC(roc) ? rcu : rcu+2;
+ Int_t minrcu, maxrcu;
+ if ( isIROC ) { minrcu=0; maxrcu=1; }
+ else if ( inner ) { minrcu=2; maxrcu=2; }
+ else { minrcu=3; maxrcu=5; }
+ for ( int rcu = minrcu; rcu <= maxrcu; rcu++ ) {
+ //Int_t patch = mapping->IsIROC(roc) ? rcu : rcu+2;
for ( int branch = 0; branch < 2; branch++ ) {
- for ( int fec = 0; fec < mapping->GetNfec(patch, branch); fec++ ) {
+ for ( int fec = 0; fec < mapping->GetNfec(rcu, branch); fec++ ) {
for ( int altro = 0; altro < 8; altro++ ) {
Float_t rms = 0.;
Float_t maxrms = 0.;
Float_t ctr_altrochannel = 0.;
for ( int channel = 0; channel < 16; channel++ ) {
Int_t hwadd = mapping->CodeHWAddress(branch, fec, altro, channel);
- Int_t row = mapping->GetPadRow(patch, hwadd); // row in a ROC
- Int_t globalrow = mapping->GetGlobalPadRow(patch, hwadd); // row in full sector
- Int_t pad = mapping->GetPad(patch, hwadd);
+ Int_t row = mapping->GetPadRow(rcu, hwadd); // row in a ROC
+ Int_t globalrow = mapping->GetGlobalPadRow(rcu, hwadd); // row in full sector
+ Int_t pad = mapping->GetPad(rcu, hwadd);
Float_t ped = calibPedestal.GetCalRocPedestal(roc)->GetValue(row,pad);
// fixed pedestal
- pedfile << ctr_channel++ << "\t" << side << "\t" << sector << "\t" << patch << "\t"
- << hwadd << "\t" << ped << std::endl;
- // pedestal(t)
+ pedfile << ctr_channel++ << "\t" << side << "\t" << sector << "\t" << rcu << "\t"
+ << hwadd << "\t" << ped << std::endl;
+ // pedestal(t)=pedestal memories
if ( timePed && fabs(timePed[globalrow][pad].GetSum()) > 1e-10 ) {
- pedmemfile << ctr_pattern++ << "\t" << side << "\t" << sector << "\t" << patch
+ pedmemfile << ctr_pattern++ << "\t" << side << "\t" << sector << "\t" << rcu
<< "\t" << hwadd;
for ( Int_t timebin = 0; timebin < 1024; timebin++ )
pedmemfile << "\t" << timePed[globalrow][pad].At(timebin);
// rms=noise
Float_t rms2 = calibPedestal.GetCalRocRMS(roc)->GetValue(row,pad);
if ( fabs(ped) < 1.e-10 ) { // dead channel
- noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
- << patch << "\t" << hwadd << "\t" << rms2 << std::endl;
+ deadchannelfile << ctr_dead++ << "\t" << side << "\t" << sector << "\t"
+ << rcu << "\t" << hwadd << "\t" << rms2 << std::endl;
} else if ( (ped > 1.e-10) && (rms2 > 1.e-10) ) { // not dead
- // Find noisy channels
- if ( ((roc<36) && (rms2 > 2.0)) || // IROC
- ((roc>35) && (row<65) && (rms2 > 2.0)) || // OROC, small pads
- ((roc>35) && (row>64) && (rms2 > 3.0)) ) { // OROC, large pads (50% more signal)
+ // Find noisy channels
+ if ( rms2 > 6.0 ) { // VERY noisy
+ verynoisychannelfile << ctr_vnoisy++ << "\t" << side << "\t" << sector << "\t"
+ << rcu << "\t" << hwadd << "\t" << rms2 << std::endl;
+
+ } else if ( ((roc<36) && (rms2 > 2.0)) || // IROC
+ ((roc>35) && (row<65) && (rms2 > 2.0)) || // OROC, small pads
+ ((roc>35) && (row>64) && (rms2 > 3.0)) ) { // OROC, large pads (50% more signal)
noisychannelfile << ctr_noisy++ << "\t" << side << "\t" << sector << "\t"
- << patch << "\t" << hwadd << "\t" << rms2 << std::endl;
- } else {
- // Not noisy. Get average and maximum noise in this ALTRO
- rms += rms2;
- ctr_altrochannel += 1.;
- if (rms2 > maxrms) maxrms = rms2;
- } // end if noisy
+ << rcu << "\t" << hwadd << "\t" << rms2 << std::endl;
+ } else {
+ // Not noisy. Get average and maximum noise in this ALTRO
+ rms += rms2;
+ ctr_altrochannel += 1.;
+ if (rms2 > maxrms) maxrms = rms2;
+ } // end if noisy
} // end if some signal
} // end channel for loop
Int_t hwadd = mapping->CodeHWAddress(branch, fec, altro, 0); // ALTRO address
- // Noise data (rms) averaged over all channels in this ALTRO.
+ // Noise data (rms) averaged over all channels in this ALTRO.
if ( ctr_altrochannel > 1.e-10 ) {
- /*
- // average noise of this ALTRO (excluding high-noise channels)
- noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
+ /*
+ // average noise of this ALTRO (excluding high-noise channels)
+ noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << rcu << "\t"
<< hwadd << "\t" << rms/ctr_altrochannel << std::endl;
- */
- // maximum noise of this ALTRO (excluding high-noise channels)
- noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << patch << "\t"
- << hwadd << "\t" << maxrms << std::endl;
+ */
+ // maximum noise of this ALTRO (excluding high-noise channels)
+ noisefile << ctr_altro << "\t" << side << "\t" << sector << "\t" << rcu << "\t"
+ << hwadd << "\t" << maxrms << std::endl;
ctr_altro++;
}
} // end altro for loop
noisefile.close();
pedmemfile.close();
noisychannelfile.close();
- printf("Wrote ASCII files. Found %d noisy channels.\n", ctr_noisy);
+ verynoisychannelfile.close();
+ deadchannelfile.close();
+ printf("Wrote ASCII files. Found %d noisy, %d very noisy and %d dead channels.\n", ctr_noisy, ctr_vnoisy, ctr_dead);
return status;