#include "AliFMDAltroMapping.h" // ALIFMDALTROMAPPING_H
#include <AliCDBManager.h> // ALICDBMANAGER_H
#include <AliCDBEntry.h> // ALICDBMANAGER_H
+#include <AliFMDPreprocessor.h>
+#include <AliLog.h>
#include <Riostream.h>
#include <sstream>
+#include <TSystem.h>
#include <TArrayF.h>
#include <TH2D.h>
AliFMDParameters* AliFMDParameters::fgInstance = 0;
//____________________________________________________________________
-const char* AliFMDParameters::fgkPulseGain = "FMD/Calib/PulseGain";
-const char* AliFMDParameters::fgkPedestal = "FMD/Calib/Pedestal";
-const char* AliFMDParameters::fgkDead = "FMD/Calib/Dead";
-const char* AliFMDParameters::fgkSampleRate = "FMD/Calib/SampleRate";
-const char* AliFMDParameters::fgkAltroMap = "FMD/Calib/AltroMap";
-const char* AliFMDParameters::fgkZeroSuppression = "FMD/Calib/ZeroSuppression";
-const char* AliFMDParameters::fgkStripRange = "FMD/Calib/StripRange";
-
+const char* AliFMDParameters::fgkPulseGain = "FMD/Calib/PulseGain";
+const char* AliFMDParameters::fgkPedestal = "FMD/Calib/Pedestal";
+const char* AliFMDParameters::fgkDead = "FMD/Calib/Dead";
+const char* AliFMDParameters::fgkSampleRate = "FMD/Calib/SampleRate";
+const char* AliFMDParameters::fgkAltroMap = "FMD/Calib/AltroMap";
+const char* AliFMDParameters::fgkZeroSuppression = "FMD/Calib/ZeroSuppression";
+const char* AliFMDParameters::fgkStripRange = "FMD/Calib/StripRange";
+const char* AliFMDParameters::fkPedestalShuttleID = "pedestals";
+const char* AliFMDParameters::fkGainShuttleID = "gains";
+const char* AliFMDParameters::fkConditionsShuttleID = "conditions";
//____________________________________________________________________
AliFMDParameters*
fAltroChannelSize(0),
fChannelsPerAltro(0),
fPedestalFactor(0),
+ fZSPre(0),
+ fZSPost(0),
+ fZSPedSubtract(kFALSE),
fFixedPedestal(0),
fFixedPedestalWidth(0),
fFixedZeroSuppression(0),
fFixedMaxStrip(0),
fFixedPulseGain(0),
fEdepMip(0),
+ fHasCompleteHeader(kTRUE),
fZeroSuppression(0),
fSampleRate(0),
fPedestal(0),
SetPedestalFactor();
SetThreshold();
SetStripRange();
+ fAltroMap = new AliFMDAltroMapping;
}
//__________________________________________________________________
void
-AliFMDParameters::Init(Bool_t forceReInit)
+AliFMDParameters::Init(Bool_t forceReInit, UInt_t what)
{
// Initialize the parameters manager. We need to get stuff from the
// CDB here.
if (forceReInit) fIsInit = kFALSE;
if (fIsInit) return;
- InitPulseGain();
- InitPedestal();
- InitDeadMap();
- InitSampleRate();
- InitZeroSuppression();
- InitAltroMap();
+ if (what & kPulseGain) InitPulseGain();
+ if (what & kPedestal) InitPedestal();
+ if (what & kDeadMap) InitDeadMap();
+ if (what & kSampleRate) InitSampleRate();
+ if (what & kZeroSuppression) InitZeroSuppression();
+ if (what & kAltroMap) InitAltroMap();
+ if (what & kStripRange) InitStripRange();
+ fIsInit = kTRUE;
+}
+//__________________________________________________________________
+void
+AliFMDParameters::Init(AliFMDPreprocessor* pp, Bool_t forceReInit, UInt_t what)
+{
+ // Initialize the parameters manager. We need to get stuff from the
+ // CDB here.
+ if (forceReInit) fIsInit = kFALSE;
+ if (fIsInit) return;
+ if (what & kPulseGain) InitPulseGain(pp);
+ if (what & kPedestal) InitPedestal(pp);
+ if (what & kDeadMap) InitDeadMap(pp);
+ if (what & kSampleRate) InitSampleRate(pp);
+ if (what & kZeroSuppression) InitZeroSuppression(pp);
+ if (what & kAltroMap) InitAltroMap(pp);
+ if (what & kStripRange) InitStripRange(pp);
fIsInit = kTRUE;
-
}
//__________________________________________________________________
{
TString opt(option);
enum {
- kPulseGain, // Path to PulseGain calib object
- kThreshold, // Path to PulseGain calib object
- kPedestal, // Path to Pedestal calib object
- kPedestalWidth, // Path to Pedestal calib object
- kDead, // Path to Dead calib object
- kSampleRate, // Path to SampleRate calib object
- kAltroMap, // Path to AltroMap calib object
- kZeroSuppression, // Path to ZeroSuppression cal object
- kMinStripRange, // Path to strip range cal object
- kMaxStripRange // Path to strip range cal object
+ kLocalPulseGain, // Path to PulseGain calib object
+ kLocalThreshold, // Path to PulseGain calib object
+ kLocalPedestal, // Path to Pedestal calib object
+ kLocalPedestalWidth, // Path to Pedestal calib object
+ kLocalDead, // Path to Dead calib object
+ kLocalSampleRate, // Path to SampleRate calib object
+ kLocalAltroMap, // Path to AltroMap calib object
+ kLocalZeroSuppression, // Path to ZeroSuppression cal object
+ kLocalMinStripRange, // Path to strip range cal object
+ kLocalMaxStripRange // Path to strip range cal object
} what;
-
if (opt.Contains("dead", TString::kIgnoreCase))
- what = kDead;
+ what = kLocalDead;
else if (opt.Contains("threshold",TString::kIgnoreCase))
- what = kThreshold;
+ what = kLocalThreshold;
else if (opt.Contains("gain",TString::kIgnoreCase))
- what = kPulseGain;
+ what = kLocalPulseGain;
else if (opt.Contains("pedestal",TString::kIgnoreCase))
- what = kPedestal;
+ what = kLocalPedestal;
else if (opt.Contains("noise",TString::kIgnoreCase))
- what = kPedestalWidth;
+ what = kLocalPedestalWidth;
else if (opt.Contains("zero",TString::kIgnoreCase))
- what = kZeroSuppression;
+ what = kLocalZeroSuppression;
else if (opt.Contains("rate",TString::kIgnoreCase))
- what = kSampleRate;
+ what = kLocalSampleRate;
else if (opt.Contains("min",TString::kIgnoreCase))
- what = kMinStripRange;
+ what = kLocalMinStripRange;
else if (opt.Contains("max",TString::kIgnoreCase))
- what = kMaxStripRange;
+ what = kLocalMaxStripRange;
else if (opt.Contains("map",TString::kIgnoreCase))
- what = kAltroMap;
+ what = kLocalAltroMap;
else {
Warning("Draw", "unknown parameter: %s\n\tShould be one of\n\t"
"dead, threshold, gain, pedestal, noise, zero, rate, "
}
}
TArrayD ybins(41);
- for (Int_t i = 0; i < ybins.fN; i++) ybins[i] = Float_t(i - .5);
+ for (/*Int_t*/ i = 0; i < ybins.fN; i++) ybins[i] = Float_t(i - .5);
TH2D* hist = new TH2D("calib", Form("Calibration %s", option),
xbins.fN-1, xbins.fArray,
ybins.fN-1, ybins.fArray);
for (UShort_t sec = 0; sec < nSector; sec++) {
for (UShort_t str = 0; str < nStrip; str++) {
Int_t idx = DET2IDX(det, ring, sec, str);
- UInt_t ddl, addr;
+ UShort_t ddl, addr, time, sam=0;
Double_t val = 0;
switch (what) {
- case kPulseGain: // Path to PulseGain calib object
+ case kLocalPulseGain: // Path to PulseGain calib object
val = GetPulseGain(det,ring,sec,str); break;
- case kThreshold: // Path to PulseGain calib object
+ case kLocalThreshold: // Path to PulseGain calib object
val = GetThreshold(); break;
- case kPedestal: // Path to Pedestal calib object
+ case kLocalPedestal: // Path to Pedestal calib object
val = GetPedestal(det,ring,sec,str); break;
- case kPedestalWidth: // Path to Pedestal calib object
+ case kLocalPedestalWidth: // Path to Pedestal calib object
val = GetPedestalWidth(det,ring,sec,str); break;
- case kDead: // Path to Dead calib object
+ case kLocalDead: // Path to Dead calib object
val = IsDead(det,ring,sec,str); break;
- case kSampleRate: // Path to SampleRate calib object
+ case kLocalSampleRate: // Path to SampleRate calib object
val = GetSampleRate(det,ring,sec,str); break;
- case kAltroMap: // Path to AltroMap calib object
- Detector2Hardware(det,ring,sec,str, ddl, addr);
+ case kLocalAltroMap: // Path to AltroMap calib object
+ Detector2Hardware(det,ring,sec,str,sam,ddl,addr,time);
val = addr; break;
- case kZeroSuppression: // Path to ZeroSuppression cal object
+ case kLocalZeroSuppression: // Path to ZeroSuppression cal object
val = GetZeroSuppression(det,ring,sec,str); break;
- case kMinStripRange: // Path to strip range cal object
+ case kLocalMinStripRange: // Path to strip range cal object
val = GetMinStrip(det,ring,sec,str); break;
- case kMaxStripRange: // Path to strip range cal object
+ case kLocalMaxStripRange: // Path to strip range cal object
val = GetMaxStrip(det,ring,sec,str); break;
}
hist->Fill(idx,sec,val);
if (opt.Contains("fmd",TString::kIgnoreCase)) {
- showStrips = kTRUE;
- size_t i = opt.Index("fmd",TString::kIgnoreCase);
- size_t j = opt.Index("]",TString::kIgnoreCase);
+ Int_t i = opt.Index("fmd",TString::kIgnoreCase);
+ Int_t j = opt.Index("]",TString::kIgnoreCase);
+ if (j != kNPOS)
+ showStrips = kTRUE;
+ else
+ j = opt.Length();
enum {
kReadDet,
kReadRing,
if (det == 1 && ring == 'O') continue;
UShort_t min = GetMinStrip(det, ring, 0, 0);
UShort_t max = GetMaxStrip(det, ring, 0, 0);
- UShort_t rate = GetSampleRate(det, ring, 0, 0);
std::cout << "FMD" << det << ring
<< " Strip range: "
<< std::setw(3) << min << ","
- << std::setw(3) << max << " Rate: "
- << std::setw(2) << rate << std::endl;
+ << std::setw(3) << max << std::endl;
- if (!showStrips) continue;
UShort_t nSec = ( ring == 'I' ? 20 : 40 );
UShort_t nStr = ( ring == 'I' ? 512 : 256 );
for (UShort_t sec = minSector; sec < maxSector && sec < nSec; sec++) {
+
+ UShort_t rate = GetSampleRate(det, ring, sec, 0);
+ std::cout << "FMD" << det << ring << "[" << std::setw(2) << sec
+ << "] sample rate: " << rate << std::endl;
+
+ if (!showStrips) continue;
std::cout
<< " Strip | Pedestal | Gain | ZS thr. | Address\n"
<< "--------+-------------------+------------+---------+---------"
std::cout << "dead" << std::endl;
continue;
}
- UInt_t ddl, addr;
- Detector2Hardware(det, ring, sec, str, ddl, addr);
+ UShort_t ddl, addr, time, sam=0;
+ Detector2Hardware(det, ring, sec, str, sam, ddl, addr, time);
std::cout << std::setw(7) << GetPedestal(det, ring, sec, str)
<< "+/-" << std::setw(7)
<< GetPedestalWidth(det, ring, sec, str)
fFixedMaxStrip = max;
}
+//__________________________________________________________________
+AliCDBEntry*
+AliFMDParameters::GetEntry(const char* path, AliFMDPreprocessor* pp,
+ Bool_t fatal) const
+{
+ // Get an entry from the CDB or via preprocessor
+ AliCDBEntry* entry = 0;
+ if (!pp) {
+ AliCDBManager* cdb = AliCDBManager::Instance();
+ entry = cdb->Get(path);
+ }
+ else {
+ const char* third = gSystem->BaseName(path);
+ const char* second = gSystem->BaseName(gSystem->DirName(path));
+ entry = pp->GetFromCDB(second, third);
+ }
+ if (!entry) {
+ TString msg(Form("No %s found in CDB, perhaps you need to "
+ "use AliFMDCalibFaker?", path));
+ if (fatal) { AliFatal(msg.Data()); }
+ else AliLog::Message(AliLog::kWarning, msg.Data(), "FMD",
+ "AliFMDParameters", "GetEntry", __FILE__,
+ __LINE__);
+ return 0;
+ }
+ return entry;
+}
+
+
//__________________________________________________________________
void
-AliFMDParameters::InitPulseGain()
+AliFMDParameters::InitPulseGain(AliFMDPreprocessor* pp)
{
// Get pulse gain from CDB or used fixed
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* gain = cdb->Get(fgkPulseGain);
- if (!gain) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkPulseGain));
- return;
- }
+ AliCDBEntry* gain = GetEntry(fgkPulseGain, pp);
+ if (!gain) return;
- AliFMDDebug(1, ("Got gain from CDB"));
+ AliFMDDebug(5, ("Got gain from CDB"));
fPulseGain = dynamic_cast<AliFMDCalibGain*>(gain->GetObject());
if (!fPulseGain) AliFatal("Invalid pulser gain object from CDB");
}
//__________________________________________________________________
void
-AliFMDParameters::InitPedestal()
+AliFMDParameters::InitPedestal(AliFMDPreprocessor* pp)
{
// Initialize the pedestals from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* pedestal = cdb->Get(fgkPedestal);
- if (!pedestal) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkPedestal));
- return;
- }
- AliFMDDebug(1, ("Got pedestal from CDB"));
+ AliCDBEntry* pedestal = GetEntry(fgkPedestal, pp);
+ if (!pedestal) return;
+
+ AliFMDDebug(5, ("Got pedestal from CDB"));
fPedestal = dynamic_cast<AliFMDCalibPedestal*>(pedestal->GetObject());
if (!fPedestal) AliFatal("Invalid pedestal object from CDB");
}
//__________________________________________________________________
void
-AliFMDParameters::InitDeadMap()
+AliFMDParameters::InitDeadMap(AliFMDPreprocessor* pp)
{
// Get Dead-channel-map from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* deadMap = cdb->Get(fgkDead);
- if (!deadMap) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkDead));
- return;
- }
- AliFMDDebug(1, ("Got dead map from CDB"));
+ AliCDBEntry* deadMap = GetEntry(fgkDead, pp);
+ if (!deadMap) return;
+
+ AliFMDDebug(5, ("Got dead map from CDB"));
fDeadMap = dynamic_cast<AliFMDCalibDeadMap*>(deadMap->GetObject());
if (!fDeadMap) AliFatal("Invalid dead map object from CDB");
}
//__________________________________________________________________
void
-AliFMDParameters::InitZeroSuppression()
+AliFMDParameters::InitZeroSuppression(AliFMDPreprocessor* pp)
{
// Get 0-suppression from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* zeroSup = cdb->Get(fgkZeroSuppression);
- if (!zeroSup) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkZeroSuppression));
- return;
- }
- AliFMDDebug(1, ("Got zero suppression from CDB"));
+ AliCDBEntry* zeroSup = GetEntry(fgkZeroSuppression, pp);
+ if (!zeroSup) return;
+ AliFMDDebug(5, ("Got zero suppression from CDB"));
fZeroSuppression =
dynamic_cast<AliFMDCalibZeroSuppression*>(zeroSup->GetObject());
if (!fZeroSuppression)AliFatal("Invalid zero suppression object from CDB");
//__________________________________________________________________
void
-AliFMDParameters::InitSampleRate()
+AliFMDParameters::InitSampleRate(AliFMDPreprocessor* pp)
{
// get Sample rate from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* sampRat = cdb->Get(fgkSampleRate);
- if (!sampRat) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkSampleRate));
- return;
- }
- AliFMDDebug(1, ("Got zero suppression from CDB"));
+ AliCDBEntry* sampRat = GetEntry(fgkSampleRate, pp);
+ if (!sampRat) return;
+ AliFMDDebug(5, ("Got zero suppression from CDB"));
fSampleRate = dynamic_cast<AliFMDCalibSampleRate*>(sampRat->GetObject());
if (!fSampleRate) AliFatal("Invalid zero suppression object from CDB");
}
//__________________________________________________________________
void
-AliFMDParameters::InitAltroMap()
+AliFMDParameters::InitAltroMap(AliFMDPreprocessor* pp)
{
// Get hardware mapping from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* hwMap = cdb->Get(fgkAltroMap);
- if (!hwMap) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkAltroMap));
- fAltroMap = new AliFMDAltroMapping;
- return;
+ if (fAltroMap) {
+ delete fAltroMap;
+ fAltroMap = 0;
}
- AliFMDDebug(1, ("Got ALTRO map from CDB"));
+ AliCDBEntry* hwMap = GetEntry(fgkAltroMap, pp, kFALSE);
+ if (!hwMap) return;
+
+ AliFMDDebug(5, ("Got ALTRO map from CDB"));
fAltroMap = dynamic_cast<AliFMDAltroMapping*>(hwMap->GetObject());
if (!fAltroMap) {
AliFatal("Invalid ALTRO map object from CDB");
//__________________________________________________________________
void
-AliFMDParameters::InitStripRange()
+AliFMDParameters::InitStripRange(AliFMDPreprocessor* pp)
{
// Get strips read-out from CDB
- AliCDBManager* cdb = AliCDBManager::Instance();
- AliCDBEntry* range = cdb->Get(fgkStripRange);
- if (!range) {
- AliFatal(Form("No %s found in CDB, perhaps you need to "
- "use AliFMDCalibFaker?", fgkStripRange));
- return;
- }
- AliFMDDebug(1, ("Got strip range from CDB"));
+ AliCDBEntry* range = GetEntry(fgkStripRange, pp);
+ if (!range) return;
+ AliFMDDebug(5, ("Got strip range from CDB"));
fStripRange = dynamic_cast<AliFMDCalibStripRange*>(range->GetObject());
if (!fStripRange) AliFatal("Invalid strip range object from CDB");
}
}
+//____________________________________________________________________
+Bool_t
+AliFMDParameters::Hardware2Detector(UShort_t ddl, UShort_t addr,
+ UShort_t timebin,
+ UShort_t& det, Char_t& ring,
+ UShort_t& sec, Short_t& str,
+ UShort_t& sam) const
+{
+ // Translate a hardware address to detector coordinates.
+ //
+ // See also Hardware2Detector that accepts 4 inputs
+ if (!fAltroMap) return kFALSE;
+ UShort_t board, chip, chan;
+ fAltroMap->ChannelAddress(addr, board, chip, chan);
+ return Hardware2Detector(ddl,board,chip,chan,timebin,det,ring,sec,str,sam);
+}
+//____________________________________________________________________
+Bool_t
+AliFMDParameters::Hardware2Detector(UShort_t ddl, UShort_t board,
+ UShort_t chip, UShort_t chan,
+ UShort_t timebin,
+ UShort_t& det, Char_t& ring,
+ UShort_t& sec, Short_t& str,
+ UShort_t& sam) const
+{
+ // Translate a hardware address to detector coordinates.
+ //
+ // See also Hardware2Detector that accepts 4 inputs
+ if (!fAltroMap) return kFALSE;
+ if (fAltroMap->DDL2Detector(ddl) < 0) return kFALSE;
+ Short_t stripBase = 0;
+ if (!fAltroMap->Channel2StripBase(board,chip,chan, ring, sec, stripBase))
+ return kFALSE;
+ UShort_t preSamples = GetPreSamples(det, ring, sec, stripBase);
+ UShort_t sampleRate = GetSampleRate(det, ring, sec, stripBase);
+ Short_t stripOff = 0;
+ fAltroMap->Timebin2Strip(sec, timebin, preSamples, sampleRate, stripOff, sam);
+ str = stripBase + stripOff;
+ AliFMDDebug(50, ("%d/0x%02x/0x%x/0x%x/%04d -> FMD%d%c[%02d,%03d]-%d"
+ " (pre=%2d, rate=%d)",
+ ddl, board, chip, chan, timebin,
+ det, ring, sec, str, sam, preSamples, sampleRate));
+ return kTRUE;
+}
+
+#if 0
+//__________________________________________________________________
+Bool_t
+AliFMDParameters::Hardware2Detector(UShort_t ddl, UShort_t board,
+ UShort_t chip, UShort_t chan,
+ UShort_t& det, Char_t& ring,
+ UShort_t& sec, Short_t& str) const
+{
+ // Map hardware address to detector index
+ if (!fAltroMap) return kFALSE;
+ return fAltroMap->Hardware2Detector(ddl,board,chip,chan, det,ring,sec,str);
+}
//__________________________________________________________________
Bool_t
-AliFMDParameters::Hardware2Detector(UInt_t ddl, UInt_t addr, UShort_t& det,
- Char_t& ring, UShort_t& sec,
- UShort_t& str) const
+AliFMDParameters::Hardware2Detector(UShort_t ddl, UShort_t addr,
+ UShort_t& det, Char_t& ring,
+ UShort_t& sec, Short_t& str) const
{
// Map hardware address to detector index
if (!fAltroMap) return kFALSE;
return fAltroMap->Hardware2Detector(ddl, addr, det, ring, sec, str);
}
+#endif
+
+//____________________________________________________________________
+Bool_t
+AliFMDParameters::Detector2Hardware(UShort_t det, Char_t ring,
+ UShort_t sec, UShort_t str,
+ UShort_t sam,
+ UShort_t& ddl, UShort_t& board,
+ UShort_t& altro, UShort_t& channel,
+ UShort_t& timebin) const
+{
+ if (!fAltroMap) return kFALSE;
+ UShort_t preSamples = GetPreSamples(det, ring, sec, str);
+ UShort_t sampleRate = GetSampleRate(det, ring, sec, str);
+ UShort_t strip = str - GetMinStrip(det,ring,sec,str);
+ return fAltroMap->Detector2Hardware(det, ring, sec, strip, sam,
+ preSamples, sampleRate,
+ ddl, board, altro, channel, timebin);
+}
+
+
+//____________________________________________________________________
+Bool_t
+AliFMDParameters::Detector2Hardware(UShort_t det, Char_t ring,
+ UShort_t sec, UShort_t str,
+ UShort_t sam,
+ UShort_t& ddl, UShort_t& addr,
+ UShort_t& timebin) const
+{
+ if (!fAltroMap) return kFALSE;
+ UShort_t preSamples = GetPreSamples(det, ring, sec, str);
+ UShort_t sampleRate = GetSampleRate(det, ring, sec, str);
+ UShort_t strip = str - GetMinStrip(det,ring,sec,str);
+ return fAltroMap->Detector2Hardware(det, ring, sec, strip, sam,
+ preSamples, sampleRate,
+ ddl, addr, timebin);
+}
+
+#if 0
//__________________________________________________________________
Bool_t
-AliFMDParameters::Detector2Hardware(UShort_t det, Char_t ring, UShort_t sec,
- UShort_t str, UInt_t& ddl,
- UInt_t& addr) const
+AliFMDParameters::Detector2Hardware(UShort_t det, Char_t ring,
+ UShort_t sec, UShort_t str,
+ UShort_t& ddl, UShort_t& board,
+ UShort_t& chip, UShort_t& chan) const
{
// Map detector index to hardware address
if (!fAltroMap) return kFALSE;
- return fAltroMap->Detector2Hardware(det, ring, sec, str, ddl, addr);
+ return fAltroMap->Detector2Hardware(det,ring,sec,str, ddl,board,chip,chan);
}
+//__________________________________________________________________
+Bool_t
+AliFMDParameters::Detector2Hardware(UShort_t det, Char_t ring,
+ UShort_t sec, UShort_t str,
+ UShort_t& ddl, UShort_t& addr) const
+{
+ // Map detector index to hardware address
+ if (!fAltroMap) return kFALSE;
+ return fAltroMap->Detector2Hardware(det, ring, sec, str, ddl, addr);
+}
+#endif
//__________________________________________________________________
Float_t
}
return fEdepMip;
}
-
-
-
+//____________________________________________________________________
+Float_t
+AliFMDParameters::GetDACPerMIP() const
+{
+ //This is the conversion from the Digital-to-Analog-Converter setting
+ // to the number of MIPs. The number was measured in the NBI lab during
+ // August 2008.
+ return 29.67;
+}
+
//____________________________________________________________________
//
// EOF