#include "AliMUONVCalibParam.h"
#include "AliMUONVDigitStore.h"
#include "AliMUONGeometryTransformer.h" //ADDED for trigger noise
+#include "AliMUONRecoParam.h"
+#include "AliMUONTriggerChamberEfficiency.h"
+#include "AliMUONTriggerUtilities.h"
#include "AliMpCDB.h"
#include "AliMpSegmentation.h"
#include "AliMpPad.h"
#include "AliMpStationType.h"
#include "AliMpVSegmentation.h"
+#include "AliMpDDLStore.h"
#include "AliCDBManager.h"
#include "AliCodeTimer.h"
#include "AliLog.h"
#include "AliRun.h"
-#include "AliRunDigitizer.h"
+#include "AliDigitizationInput.h"
#include "AliLoader.h"
#include "AliRunLoader.h"
//-----------------------------------------------------------------------------
/// \class AliMUONDigitizerV3
+///
/// The digitizer is performing the transformation to go from SDigits (digits
/// w/o any electronic noise) to Digits (w/ electronic noise, and decalibration)
///
/// (for performance reason mainly, and because anyway we know we have to do it
/// here, at the digitization level).
///
+/// August 2011. In order to remove the need for specific MC OCDB storages,
+/// we're introducing a dependence of simulation on AliMUONRecoParam (stored
+/// in MUON/Calib/RecoParam in OCDB), which is normally (or conceptually, if
+/// you will) only a reconstruction object. That's not a pretty solution, but,
+/// well, we have to do it...
+/// This dependence comes from the fact that we must know how to decalibrate
+/// the digits, so that the decalibration (done here) - calibration (done during
+/// reco) process is (as much as possible) neutral.
+///
+///
/// \author Laurent Aphecetche
+///
//-----------------------------------------------------------------------------
namespace
/// \endcond
//_____________________________________________________________________________
-AliMUONDigitizerV3::AliMUONDigitizerV3(AliRunDigitizer* manager,
+AliMUONDigitizerV3::AliMUONDigitizerV3(AliDigitizationInput* digInput,
Int_t generateNoisyDigits)
-: AliDigitizer(manager),
+: AliDigitizer(digInput),
fIsInitialized(kFALSE),
fCalibrationData(0x0),
fTriggerProcessor(0x0),
fNoiseFunctionTrig(0x0),
fGenerateNoisyDigits(generateNoisyDigits),
-fLogger(new AliMUONLogger(1000)),
+fLogger(new AliMUONLogger(4207)), /* 4207 = 25% of the 16828 MCH manus */
fTriggerStore(new AliMUONTriggerStoreV1),
fDigitStore(0x0),
fOutputDigitStore(0x0),
-fInputDigitStores(0x0)
+fInputDigitStores(0x0),
+fRecoParam(0x0),
+fTriggerEfficiency(0x0),
+fTriggerUtilities(0x0),
+fEfficiencyResponse(2*AliMUONConstants::NTriggerCh()*AliMUONConstants::NTriggerCircuit())
{
/// Ctor.
- AliDebug(1,Form("AliRunDigitizer=%p",fManager));
+ AliDebug(1,Form("AliDigitizationInput=%p",fDigInput));
}
delete fDigitStore;
delete fOutputDigitStore;
delete fInputDigitStores;
+ delete fTriggerUtilities;
AliInfo("Summary of messages");
fLogger->Print();
/// - add some electronics noise (thus leading to a realistic adc), if requested to do so
/// - sets the signal to zero if below 3*sigma of the noise
- Float_t charge = digit.IsChargeInFC() ? digit.Charge()*AliMUONConstants::FC2ADC() : digit.Charge();
+ Float_t charge = digit.Charge();
+
+ if (!digit.IsChargeInFC())
+ {
+ charge *= AliMUONConstants::DefaultADC2MV()*AliMUONConstants::DefaultA0()*AliMUONConstants::DefaultCapa();
+ fLogger->Log("CHECK ME ! WAS NOT SUPPOSED TO BE HERE !!! ARE YOU RECONSTRUCTING OLD SIMULATIONS ? ");
+ AliError("CHECK ME ! WAS NOT SUPPOSED TO BE HERE !!! ARE YOU RECONSTRUCTING OLD SIMULATIONS ? ");
+ }
// We set the charge to 0, as the only relevant piece of information
// after Digitization is the ADC value.
digit.SetADC(0);
return;
}
-
+
+ TString calibrationMode(fRecoParam->GetCalibrationMode());
+ calibrationMode.ToUpper();
+
AliMUONVCalibParam* gain = fCalibrationData->Gains(detElemId,manuId);
if (!gain)
{
- fLogger->Log(Form("%s:%d:Could not get gain for DE=%4d manuId=%4d. Disabling.",
- __FILE__,__LINE__,
- detElemId,manuId));
- digit.SetADC(0);
- return;
+
+ if (!calibrationMode.Contains("NOGAIN") )
+ {
+ fLogger->Log(Form("%s:%d:Could not get gain for DE=%4d manuId=%4d. Disabling.",
+ __FILE__,__LINE__,
+ detElemId,manuId));
+ digit.SetADC(0);
+ return;
+ }
}
- Int_t adc = DecalibrateTrackerDigit(*pedestal,*gain,manuChannel,charge,addNoise,
- digit.IsNoiseOnly());
+ Int_t adc = DecalibrateTrackerDigit(*pedestal,gain,manuChannel,charge,addNoise,
+ digit.IsNoiseOnly(),
+ calibrationMode);
digit.SetADC(adc);
}
+
+//_____________________________________________________________________________
+void
+AliMUONDigitizerV3::ApplyResponseToTriggerDigit(AliMUONVDigit& digit)
+{
+ /// For trigger digits, starting from an ideal digit, we :
+ ///
+ /// - apply efficiency (on demand)
+ /// - apply trigger masks
+
+ Int_t detElemId = digit.DetElemId();
+ Int_t localCircuit = digit.ManuId();
+ Int_t strip = digit.ManuChannel();
+ Int_t cathode = digit.Cathode();
+ Int_t trigCh = detElemId/100 - 11;
+
+ // Masked channels
+ Bool_t isMasked = fTriggerUtilities->IsMasked(digit);
+ AliDebug(1,Form("detElemId %i cath %i board %i strip %i is masked %i\n", detElemId, cathode, localCircuit, strip, isMasked));
+ if ( isMasked ) {
+ digit.SetCharge(0);
+ digit.SetADC(0);
+ //AliDebug(1,Form("ch %i cath %i board %i strip %i masked\n", trigCh, cathode, localCircuit, strip));
+ return;
+ }
+
+
+ Int_t arrayIndex = GetArrayIndex(cathode, trigCh, localCircuit);
+
+ // Trigger chamber efficiency
+ if ( fTriggerEfficiency ) {
+ if ( fEfficiencyResponse[arrayIndex] < 0 ) {
+ Bool_t isTrig[2] = {kTRUE, kTRUE};
+ fTriggerEfficiency->IsTriggered(detElemId, localCircuit, isTrig[0], isTrig[1]);
+ Int_t arrayIndexBend = GetArrayIndex(0, trigCh, localCircuit);
+ Int_t arrayIndexNonBend = GetArrayIndex(1, trigCh, localCircuit);
+ fEfficiencyResponse[arrayIndexBend] = isTrig[0];
+ fEfficiencyResponse[arrayIndexNonBend] = isTrig[1];
+ }
+ AliDebug(1,Form("detElemId %i cath %i board %i strip %i efficiency %i\n", detElemId, cathode, localCircuit, strip, fEfficiencyResponse[arrayIndex]));
+ if ( fEfficiencyResponse[arrayIndex] == 0 ) {
+ digit.SetCharge(0);
+ digit.SetADC(0);
+ //AliDebug(1,Form("ch %i cath %i board %i strip %i NOT efficient\n", trigCh, cathode, localCircuit, strip));
+ return;
+ }
+ }
+}
+
+
+
//_____________________________________________________________________________
void
AliMUONDigitizerV3::ApplyResponse(const AliMUONVDigitStore& store,
TIter next(store.CreateIterator());
AliMUONVDigit* digit;
+ if ( fTriggerEfficiency ) fEfficiencyResponse.Reset(-1);
+
while ( ( digit = static_cast<AliMUONVDigit*>(next()) ) )
{
AliMp::StationType stationType = AliMpDEManager::GetStationType(digit->DetElemId());
if (digit->IsConverted()) addNoise = kFALSE; // No need to add extra noise to a converted real digit
ApplyResponseToTrackerDigit(*digit,addNoise);
}
+ else {
+ ApplyResponseToTriggerDigit(*digit);
+ }
if ( digit->ADC() > 0 || digit->Charge() > 0 )
{
//_____________________________________________________________________________
Int_t
AliMUONDigitizerV3::DecalibrateTrackerDigit(const AliMUONVCalibParam& pedestals,
- const AliMUONVCalibParam& gains,
+ const AliMUONVCalibParam* gains,
Int_t channel,
Float_t charge,
Bool_t addNoise,
- Bool_t noiseOnly)
+ Bool_t noiseOnly,
+ const TString& calibrationMode)
{
/// Decalibrate (i.e. go from charge to adc) a tracker digit, given its
/// pedestal and gain parameters.
/// Must insure before calling that channel is valid (i.e. between 0 and
/// pedestals or gains->GetSize()-1, but also corresponding to a valid channel
/// otherwise results are not predictible...)
-
+ ///
+ /// This method is completely tied to what happens in its sister method :
+ /// AliMUONDigitCalibrator::CalibrateDigit, which is doing the reverse work...
+ ///
+
static const Int_t kMaxADC = (1<<12)-1; // We code the charge on a 12 bits ADC.
+ Bool_t nogain = calibrationMode.Contains("NOGAIN");
+
+ Float_t a1(0.0);
+ Int_t thres(4095);
+ Int_t qual(0xF);
+ Float_t capa(AliMUONConstants::DefaultCapa()); // capa = 0.2 and a0 = 1.25
+ Float_t a0(AliMUONConstants::DefaultA0()); // is equivalent to gain = 4 mV/fC
+ Float_t adc2mv(AliMUONConstants::DefaultADC2MV()); // 1 ADC channel = 0.61 mV
+
+ if ( ! nogain )
+ {
+ if (!gains)
+ {
+ AliFatalClass("Cannot make gain decalibration without gain values !");
+ }
+ a0 = gains->ValueAsFloat(channel,0);
+ a1 = gains->ValueAsFloat(channel,1);
+ thres = gains->ValueAsInt(channel,2);
+ qual = gains->ValueAsInt(channel,3);
+ }
+
Float_t pedestalMean = pedestals.ValueAsFloat(channel,0);
Float_t pedestalSigma = pedestals.ValueAsFloat(channel,1);
- AliDebugClass(1,Form("DE %04d MANU %04d CH %02d PEDMEAN %7.2f PEDSIGMA %7.2f",
+ AliDebugClass(2,Form("DE %04d MANU %04d CH %02d PEDMEAN %7.2f PEDSIGMA %7.2f",
pedestals.ID0(),pedestals.ID1(),channel,pedestalMean,pedestalSigma));
- Float_t a0 = gains.ValueAsFloat(channel,0);
- Float_t a1 = gains.ValueAsFloat(channel,1);
- Int_t thres = gains.ValueAsInt(channel,2);
- Int_t qual = gains.ValueAsInt(channel,3);
-
if ( qual <= 0 ) return 0;
Float_t chargeThres = a0*thres;
Float_t padc(0); // (adc - ped) value
- if ( charge <= chargeThres || TMath::Abs(a1) < 1E-12 )
+ if ( nogain || charge <= chargeThres || TMath::Abs(a1) < 1E-12 )
{
// linear part only
}
else
{
+ // FIXME: when we'll use capacitances and real gains, revise this part
+ // to take capa properly into account...
+
+ AliWarningClass("YOU PROBABLY NEED TO REVISE THIS PART OF CODE !!!");
+
// linear + parabolic part
Double_t qt = chargeThres - charge;
Double_t delta = a0*a0-4*a1*qt;
}
}
+ padc /= capa*adc2mv;
+
Int_t adc(0);
Float_t adcNoise = 0.0;
// this is an error only in specific cases
if ( !addNoise || (addNoise && noiseOnly) )
{
- AliErrorClass(Form(" DE %04d Manu %04d Channel %02d "
- " a0 %7.2f a1 %7.2f thres %04d ped %7.2f pedsig %7.2f adcNoise %7.2f "
- " charge=%7.2f padc=%7.2f adc=%04d ZS=%04d fgNSigmas=%e addNoise %d noiseOnly %d ",
- pedestals.ID0(),pedestals.ID1(),channel,
- a0, a1, thres, pedestalMean, pedestalSigma, adcNoise,
- charge, padc, adc,
- TMath::Nint(pedestalMean + fgNSigmas*pedestalSigma + 0.5),
- fgNSigmas,addNoise,noiseOnly));
+ AliDebugClass(1,Form(" DE %04d Manu %04d Channel %02d "
+ " a0 %7.2f a1 %7.2f thres %04d ped %7.2f pedsig %7.2f adcNoise %7.2f "
+ " charge=%7.2f padc=%7.2f adc=%04d ZS=%04d fgNSigmas=%e addNoise %d noiseOnly %d ",
+ pedestals.ID0(),pedestals.ID1(),channel,
+ a0, a1, thres, pedestalMean, pedestalSigma, adcNoise,
+ charge, padc, adc,
+ TMath::Nint(pedestalMean + fgNSigmas*pedestalSigma + 0.5),
+ fgNSigmas,addNoise,noiseOnly));
}
adc = 0;
fInputDigitStores->SetOwner(kTRUE);
- for ( Int_t iFile = 0; iFile < fManager->GetNinputs(); ++iFile )
+ for ( Int_t iFile = 0; iFile < fDigInput->GetNinputs(); ++iFile )
{
- AliLoader* inputLoader = GetLoader(fManager->GetInputFolderName(iFile));
+ AliLoader* inputLoader = GetLoader(fDigInput->GetInputFolderName(iFile));
inputLoader->LoadSDigits("READ");
//_____________________________________________________________________________
void
-AliMUONDigitizerV3::Exec(Option_t*)
+AliMUONDigitizerV3::Digitize(Option_t*)
{
/// Main method.
/// We first loop over input files, and merge the sdigits we found there.
AliCodeTimerAuto("",0)
- if ( fManager->GetNinputs() == 0 )
+ if ( fDigInput->GetNinputs() == 0 )
{
AliWarning("No input set. Nothing to do.");
return;
return;
}
- Int_t nInputFiles = fManager->GetNinputs();
+ Int_t nInputFiles = fDigInput->GetNinputs();
- AliLoader* outputLoader = GetLoader(fManager->GetOutputFolderName());
+ AliLoader* outputLoader = GetLoader(fDigInput->GetOutputFolderName());
outputLoader->MakeDigitsContainer();
for ( Int_t iFile = 0; iFile < nInputFiles; ++iFile )
{
- AliLoader* inputLoader = GetLoader(fManager->GetInputFolderName(iFile));
+ AliLoader* inputLoader = GetLoader(fDigInput->GetInputFolderName(iFile));
inputLoader->LoadSDigits("READ");
iTreeS->GetEvent(0);
- MergeWithSDigits(fDigitStore,*dstore,fManager->GetMask(iFile));
+ MergeWithSDigits(fDigitStore,*dstore,fDigInput->GetMask(iFile));
inputLoader->UnloadSDigits();
Bool_t
AliMUONDigitizerV3::Init()
{
- /// Initialization of the TTask :
+ /// Initialization of the digitization :
/// a) create the calibrationData, according to run number
/// b) create the trigger processing task
return kFALSE;
}
- if (!fManager)
+ if (!fDigInput)
{
- AliError("fManager is null !");
+ AliError("fDigInput is null !");
return kFALSE;
}
AliDebug(1, Form("Will %s generate noise-only digits for tracker",
(fGenerateNoisyDigits ? "":"NOT")));
+
+ fTriggerUtilities = new AliMUONTriggerUtilities(fCalibrationData);
+
+ if ( muon()->GetTriggerEffCells() ) {
+ // Apply trigger efficiency
+ AliDebug(1, "Will apply trigger efficiency");
+ fTriggerEfficiency = new AliMUONTriggerChamberEfficiency(fCalibrationData->TriggerEfficiency());
+ }
fIsInitialized = kTRUE;
return kTRUE;
}
+
+//_____________________________________________________________________________
+Int_t AliMUONDigitizerV3::GetArrayIndex(Int_t cathode, Int_t trigCh, Int_t localCircuit)
+{
+ /// Get index of array with trigger status map or efficiency
+ return
+ AliMUONConstants::NTriggerCircuit() * AliMUONConstants::NTriggerCh() * cathode +
+ AliMUONConstants::NTriggerCircuit() * trigCh + localCircuit-1;
+}
+
+
//_____________________________________________________________________________
void
AliMUONDigitizerV3::MergeWithSDigits(AliMUONVDigitStore*& outputStore,
return f;
}
+//_____________________________________________________________________________
+void AliMUONDigitizerV3::SetCalibrationData(AliMUONCalibrationData* calibrationData,
+ AliMUONRecoParam* recoParam)
+{
+ fCalibrationData = calibrationData;
+ fRecoParam = recoParam;
+ if (!fRecoParam)
+ {
+ AliError("Cannot work (e.g. decalibrate) without recoparams !");
+ }
+}
+