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#include <DTFineDelayCorr.h>
Public Member Functions | |
| DTFineDelayCorr (const edm::ParameterSet &ps) | |
| Constructor. | |
| virtual | ~DTFineDelayCorr () |
| Destructor. | |
Protected Member Functions | |
| void | beginJob () |
| Begin Job. | |
| void | beginRun (const edm::Run &run, const edm::EventSetup &evSU) |
| Begin Run. | |
| void | endJob () |
| End Job. | |
| void | runClientDiagnostic () |
| DQM Client Diagnostic. | |
| void | writeConsts (const std::string &outputFileName) const |
Private Attributes | |
| std::map< DTChamberId, std::vector< float > > | delayMap |
| edm::ESHandle< DTConfigManager > | dtConfig |
| bool | gaussMean |
| int | minEntries |
| int | nEvents |
| std::map< DTChamberId, std::pair< int, float > > | oldDelayMap |
| std::string | oldDelaysInputFile |
| std::string | outputFileName |
| bool | readOldFromDb |
| std::string | t0MeanHistoTag |
| std::string | trSource |
| edm::ESHandle< DTTPGParameters > | worstPhaseMap |
| bool | writeDB |
* Class to calculate corrections to the fine delays loaded in DT MiniCrates
Definition at line 28 of file DTFineDelayCorr.h.
| DTFineDelayCorr::DTFineDelayCorr | ( | const edm::ParameterSet & | ps | ) |
Constructor.
Definition at line 45 of file DTFineDelayCorr.cc.
{
setConfig(ps,"DTFineDelayCorr"); // sets parameter values and name used in log file
baseFolderDCC = "DT/90-LocalTriggerSynch/";
baseFolderDDU = "DT/90-LocalTriggerSynch/";
}
| DTFineDelayCorr::~DTFineDelayCorr | ( | ) | [virtual] |
| void DTFineDelayCorr::beginJob | ( | void | ) | [protected, virtual] |
Begin Job.
Reimplemented from DTLocalTriggerBaseTest.
Definition at line 59 of file DTFineDelayCorr.cc.
References dumpDBToFile_GT_ttrig_cfg::outputFileName, and Parameters::parameters.
{
// Tag for Hardware Source (DDU or DCC)
hwSource = parameters.getParameter<string>("hwSource");
// Tag for the t0Mean Histograms
t0MeanHistoTag = parameters.getParameter<string>("t0MeanHistoTag");
// Read old delays from file or from Db
readOldFromDb = parameters.getParameter<bool>("readOldFromDb");
// Input file name for old delays
oldDelaysInputFile = parameters.getParameter<string>("oldDelaysInputFile"),
// Write new delays to file or to Db
writeDB = parameters.getParameter<bool>("writeDB");
// Output File Name
outputFileName = parameters.getParameter<string>("outputFile");
// Choose to use Hist Mean or Gaussian Fit Mean
gaussMean = parameters.getParameter<bool>("gaussMean");
// Require Minimum Number Of Entries in the t0Mean Histogram
minEntries = parameters.getUntrackedParameter<int>("minEntries",5);
}
| void DTFineDelayCorr::beginRun | ( | const edm::Run & | run, |
| const edm::EventSetup & | evSU | ||
| ) | [protected, virtual] |
Begin Run.
Reimplemented from DTLocalTriggerBaseTest.
Definition at line 80 of file DTFineDelayCorr.cc.
References DTLocalTriggerBaseTest::beginRun(), and edm::EventSetup::get().
{
DTLocalTriggerBaseTest::beginRun(run,evSU);
evSU.get< DTConfigManagerRcd >().get(dtConfig);
evSU.get< DTTPGParametersRcd >().get(worstPhaseMap);
}
| void DTFineDelayCorr::endJob | ( | void | ) | [protected, virtual] |
End Job.
Reimplemented from DTLocalTriggerBaseTest.
Definition at line 187 of file DTFineDelayCorr.cc.
References filterCSVwithJSON::copy, DTLocalTriggerBaseTest::endJob(), cmsMakeMELists::outFile, and dumpDBToFile_GT_ttrig_cfg::outputFileName.
{
DTLocalTriggerBaseTest::endJob();
if (writeDB) {
// to be added if needed
}
else { // write txt file
// ** Open output file **
ofstream outFile(outputFileName.c_str());
for(map< DTChamberId, vector<float> >::const_iterator iter = delayMap.begin();
iter != delayMap.end() ; iter++) {
// writing
ostream_iterator<float> oit(outFile, " ");
copy((*iter).second.begin(), (*iter).second.end(), oit);
outFile << endl;
}
outFile.close();
}
}
| void DTFineDelayCorr::runClientDiagnostic | ( | ) | [protected, virtual] |
DQM Client Diagnostic.
Implements DTLocalTriggerBaseTest.
Definition at line 88 of file DTFineDelayCorr.cc.
References python::rootplot::argparse::category, gather_cfg::cout, DTChamberId, DTLayerId, DTTopology::firstChannel(), DTConfigPedestals::getOffset(), DTLayer::id(), geometryCSVtoXML::line, timingPdfMaker::mean, DTTimeUnits::ns, DetId::rawId(), DTChamberId::sector(), DTLayer::specificTopology(), relativeConstraints::station, DTChamberId::station(), and DTChamberId::wheel().
{
int coarseDelay = -999;
float oldFineDelay = -999;
if(!readOldFromDb) { // read old delays from txt file
// ** Open and read old delays input file **
ifstream oldDelaysFile(oldDelaysInputFile.c_str());
string line;
while (getline(oldDelaysFile, line)) {
if( line == "" || line[0] == '#' ) continue;
stringstream linestr;
int wheelKey,sectorKey, stationKey;
linestr << line;
linestr >> wheelKey
>> sectorKey
>> stationKey
>> coarseDelay
>> oldFineDelay;
pair<int,float> oldDelays = make_pair(coarseDelay,oldFineDelay);
DTChamberId oldDelayKey = DTChamberId(wheelKey,stationKey,sectorKey);
oldDelayMap.insert(make_pair(oldDelayKey,oldDelays));
}
}
// ** Loop over the chambers **
vector<DTChamber*>::const_iterator chambIt = muonGeom->chambers().begin();
vector<DTChamber*>::const_iterator chambEnd = muonGeom->chambers().end();
for (; chambIt!=chambEnd; ++chambIt) {
DTChamberId chId = (*chambIt)->id();
uint32_t indexCh = chId.rawId();
int wheel = chId.wheel();
int sector = chId.sector();
int station = chId.station();
// ** Compute corrected values and write them to file or database **
vector<float> newDelays;
// ** Retrieve Delays Loaded in MiniCrates **
if(readOldFromDb) { // read from db
DTConfigPedestals *pedestals = dtConfig->getDTConfigPedestals();
const DTLayer *layer = muonGeom->layer(DTLayerId(chId,1,1));
float delay = pedestals->getOffset(DTWireId(layer->id(),layer->specificTopology().firstChannel()));
coarseDelay = int(delay/25.);
oldFineDelay = delay - coarseDelay * 25.;
}
else { // read from map created from txt file
coarseDelay = oldDelayMap[chId].first;
oldFineDelay = oldDelayMap[chId].second;
}
// ** Retrieve t0Mean histograms **
TH1F *t0H = getHisto<TH1F>(dbe->get(getMEName(t0MeanHistoTag,"", chId)));
float newFineDelay = -999; // initialize to dummy number
cout <<"MG: " << getMEName(t0MeanHistoTag,"", chId) << " entries: " << t0H->GetEntries() << endl;
if (t0H->GetEntries() > minEntries) {
Double_t mean;
// ** Find Mean Value of the distribution **
if(gaussMean) {
TF1 *funct = t0H->GetFunction("gaus");
mean = funct->GetParameter(1);
}
else {
mean = t0H->GetMean();
}
// ** Retrieve Worst Phase values **
int wpCoarseDelay;
float wpFineDelay;
worstPhaseMap->get(chId, wpCoarseDelay, wpFineDelay, DTTimeUnits::ns);
// cout << "wpFineDelay, oldFineDelay, mean: " << wpFineDelay << " "
// << oldFineDelay << " " << mean << endl;
float bpFineDelay = (wpFineDelay < 12.5)? (wpFineDelay + 12.5) : (wpFineDelay - 12.5); // Best Phase: half BX far from the worst phase
// ** Calculate correction **
float diffFineDelays = oldFineDelay + (mean - bpFineDelay); // positive mean shift implies positive delay correction
int bxDiff = (int) (diffFineDelays / 25);
coarseDelay += bxDiff;
newFineDelay = fmodf(diffFineDelays, 25);
// cout << "diffFineDelays, newFineDelay, bxDiff, coarseDelay: " << diffFineDelays
// << " "<< newFineDelay << " " << bxDiff << " " << coarseDelay << endl;
}
else {
LogProblem(category()) << "[" << testName << "Test]: Not enough entries in hist for Chamber "
<< indexCh << endl;
}
newDelays.push_back(wheel);
newDelays.push_back(sector);
newDelays.push_back(station);
newDelays.push_back(coarseDelay);
newDelays.push_back(newFineDelay);
pair< DTChamberId, vector<float> > chDelays;
chDelays.first = chId;
chDelays.second = newDelays;
delayMap.insert(chDelays);
}
}
| void DTCalibrationMap::writeConsts | ( | const std::string & | outputFileName | ) | const [protected] |
Definition at line 215 of file DTCalibrationMap.cc.
References filterCSVwithJSON::copy, and dbtoconf::out.
{
ofstream out(outputFileName.c_str());
for(map<Key,CalibConsts>::const_iterator iter = theMap.begin();
iter != theMap.end() ; iter++) {
out << (*iter).first.wheel() << ' '
<< (*iter).first.station() << ' '
<< (*iter).first.sector() << ' '
<< (*iter).first.superlayer() << ' '
<< (*iter).first.layer() << ' '
<< (*iter).first.wire() << ' ';
copy((*iter).second.begin(), (*iter).second.end(),
ostream_iterator<float>(out, " "));
out << endl;
}
}
std::map< DTChamberId, std::vector<float> > DTFineDelayCorr::delayMap [private] |
Definition at line 72 of file DTFineDelayCorr.h.
edm::ESHandle< DTConfigManager > DTFineDelayCorr::dtConfig [private] |
Definition at line 65 of file DTFineDelayCorr.h.
bool DTFineDelayCorr::gaussMean [private] |
Definition at line 62 of file DTFineDelayCorr.h.
int DTFineDelayCorr::minEntries [private] |
Definition at line 63 of file DTFineDelayCorr.h.
int DTFineDelayCorr::nEvents [private] |
Definition at line 64 of file DTFineDelayCorr.h.
std::map< DTChamberId, std::pair<int,float> > DTFineDelayCorr::oldDelayMap [private] |
Definition at line 69 of file DTFineDelayCorr.h.
std::string DTFineDelayCorr::oldDelaysInputFile [private] |
Definition at line 58 of file DTFineDelayCorr.h.
std::string DTFineDelayCorr::outputFileName [private] |
Definition at line 57 of file DTFineDelayCorr.h.
bool DTFineDelayCorr::readOldFromDb [private] |
Definition at line 60 of file DTFineDelayCorr.h.
std::string DTFineDelayCorr::t0MeanHistoTag [private] |
Definition at line 56 of file DTFineDelayCorr.h.
std::string DTFineDelayCorr::trSource [private] |
Definition at line 59 of file DTFineDelayCorr.h.
edm::ESHandle< DTTPGParameters > DTFineDelayCorr::worstPhaseMap [private] |
Definition at line 66 of file DTFineDelayCorr.h.
bool DTFineDelayCorr::writeDB [private] |
Definition at line 61 of file DTFineDelayCorr.h.
1.7.3