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#include <ApvTimingHistograms.h>
Public Member Functions | |
| ApvTimingHistograms (const edm::ParameterSet &pset, DQMStore *) | |
| void | histoAnalysis (bool debug) |
| virtual | ~ApvTimingHistograms () |
Definition at line 8 of file ApvTimingHistograms.h.
| ApvTimingHistograms::ApvTimingHistograms | ( | const edm::ParameterSet & | pset, |
| DQMStore * | bei | ||
| ) |
Definition at line 18 of file ApvTimingHistograms.cc.
References CommissioningHistograms::factory_, LogTrace, and sistrip::mlDqmClient_.
: CommissioningHistograms( pset.getParameter<edm::ParameterSet>("ApvTimingParameters"), bei, sistrip::APV_TIMING ) { factory_ = auto_ptr<ApvTimingSummaryFactory>( new ApvTimingSummaryFactory ); LogTrace(mlDqmClient_) << "[ApvTimingHistograms::" << __func__ << "]" << " Constructing object..."; }
| ApvTimingHistograms::~ApvTimingHistograms | ( | ) | [virtual] |
Definition at line 32 of file ApvTimingHistograms.cc.
References LogTrace, and sistrip::mlDqmClient_.
{
LogTrace(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Destructing object...";
}
| void ApvTimingHistograms::histoAnalysis | ( | bool | debug | ) | [virtual] |
Reimplemented from CommissioningHistograms.
Definition at line 40 of file ApvTimingHistograms.cc.
References algo, CommissioningAlgorithm::analysis(), begin, SiStripFecKey::ccuAddr(), SiStripFecKey::ccuChan(), prof2calltree::count, CommissioningHistograms::data(), relativeConstraints::empty, benchmark_cfg::errors, extract(), SiStripFecKey::fecCrate(), SiStripFecKey::fecRing(), SiStripFecKey::fecSlot(), ApvTimingAnalysis::foundTickMark(), CommissioningAnalysis::getErrorCodes(), CommissioningHistograms::histos(), sistrip::invalid_, ApvTimingAnalysis::isValid(), SiStripFecKey::lldChan(), LogTrace, max(), min, sistrip::mlDqmClient_, CommissioningHistograms::pset(), ApvTimingAnalysis::refTime(), ApvTimingAnalysis::time(), TrackValidation_HighPurity_cff::valid, and sistrip::valid_.
{
LogTrace(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]";
// Some initialisation
uint16_t valid = 0;
HistosMap::const_iterator iter;
Analyses::iterator ianal;
std::map<std::string,uint16_t> errors;
// Clear map holding analysis objects
for ( ianal = data().begin(); ianal != data().end(); ianal++ ) {
if ( ianal->second ) { delete ianal->second; }
}
data().clear();
// Reset minimum / maximum delays
float time_min = 1. * sistrip::invalid_;
float time_max = -1. * sistrip::invalid_;
uint32_t device_min = sistrip::invalid_;
uint32_t device_max = sistrip::invalid_;
// Iterate through map containing histograms
for ( iter = histos().begin();
iter != histos().end(); iter++ ) {
// Check vector of histos is not empty
if ( iter->second.empty() ) {
edm::LogWarning(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Zero histograms found!";
continue;
}
// Retrieve pointers to histos
std::vector<TH1*> profs;
Histos::const_iterator ihis = iter->second.begin();
for ( ; ihis != iter->second.end(); ihis++ ) {
TProfile* prof = ExtractTObject<TProfile>().extract( (*ihis)->me_ );
if ( prof ) { profs.push_back(prof); }
}
// Perform histo analysis
ApvTimingAnalysis* anal = new ApvTimingAnalysis( iter->first );
ApvTimingAlgorithm algo( this->pset(), anal );
algo.analysis( profs );
data()[iter->first] = anal;
// Check if tick mark found
if ( !anal->foundTickMark() ) { continue; }
// Find maximum time
if ( anal->time() > time_max ) {
time_max = anal->time();
device_max = iter->first;
}
// Find minimum time
if ( anal->time() < time_min ) {
time_min = anal->time();
device_min = iter->first;
}
}
// Adjust maximum (and minimum) delay(s) to find optimum sampling point(s)
if ( time_max > sistrip::valid_ ||
time_max < -1.*sistrip::valid_ ) {
edm::LogWarning(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Unable to set maximum time! Found unexpected value: "
<< time_max;
} else {
SiStripFecKey min( device_min );
edm::LogVerbatim(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Crate/FEC/Ring/CCU/module/channel: "
<< min.fecCrate() << "/"
<< min.fecSlot() << "/"
<< min.fecRing() << "/"
<< min.ccuAddr() << "/"
<< min.ccuChan() << "/"
<< min.lldChan()
<< " has minimum time for tick mark rising edge [ns]: " << time_min;
SiStripFecKey max( device_max );
edm::LogVerbatim(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Crate/FEC/Ring/CCU/module/channel: "
<< max.fecCrate() << "/"
<< max.fecSlot() << "/"
<< max.fecRing() << "/"
<< max.ccuAddr() << "/"
<< max.ccuChan() << "/"
<< max.lldChan()
<< " has maximum time for tick mark rising edge [ns]: " << time_max;
edm::LogVerbatim(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Difference b/w minimum and maximum times"
<< " for tick mark rising edges [ns] is: " << ( time_max - time_min );
}
// Set reference time for all analysis objects
for ( ianal = data().begin(); ianal != data().end(); ianal++ ) {
ApvTimingAnalysis* anal = dynamic_cast<ApvTimingAnalysis*>(ianal->second);
if ( !anal ) { continue; }
anal->refTime( time_max, this->pset().getParameter<int>("TargetDelay") );
if ( anal->isValid() ) { valid++; }
if ( !anal->getErrorCodes().empty() ) {
errors[anal->getErrorCodes()[0]]++;
}
}
if ( !histos().empty() ) {
edm::LogVerbatim(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Analyzed histograms for " << histos().size()
<< " FED channels, of which " << valid
<< " (" << 100 * valid / histos().size()
<< "%) are valid.";
} else {
edm::LogWarning(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " No histograms to analyze!";
}
if ( !histos().empty() ) {
edm::LogVerbatim(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Analyzed histograms for " << histos().size()
<< " FED channels, of which " << valid
<< " (" << 100 * valid / histos().size()
<< "%) are valid.";
if ( !errors.empty() ) {
uint16_t count = 0;
std::stringstream ss;
ss << std::endl;
std::map<std::string,uint16_t>::const_iterator ii;
for ( ii = errors.begin(); ii != errors.end(); ++ii ) {
ss << " " << ii->first << ": " << ii->second << std::endl;
count += ii->second;
}
edm::LogWarning(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " Found " << count << " errors ("
<< 100 * count / histos().size() << "%): "
<< ss.str();
}
} else {
edm::LogWarning(mlDqmClient_)
<< "[ApvTimingHistograms::" << __func__ << "]"
<< " No histograms to analyze!";
}
}
1.7.3