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#include "CondFormats/SiStripObjects/interface/NoiseAnalysis.h"
#include "DataFormats/SiStripCommon/interface/SiStripHistoTitle.h"
#include "DataFormats/SiStripCommon/interface/SiStripEnumsAndStrings.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include <iostream>
#include <iomanip>
#include <cmath>
using namespace sistrip;
// ----------------------------------------------------------------------------
//
NoiseAnalysis::NoiseAnalysis(const uint32_t& key)
: CommissioningAnalysis(key, "NoiseAnalysis"),
peds_(2, VFloat(128, sistrip::invalid_)),
noise_(2, VFloat(128, sistrip::invalid_)),
raw_(2, VFloat(128, sistrip::invalid_)),
dead_(2, VInt(0, sistrip::invalid_)),
noisy_(2, VInt(0, sistrip::invalid_)),
pedsMean_(2, sistrip::invalid_),
pedsSpread_(2, sistrip::invalid_),
noiseMean_(2, sistrip::invalid_),
noiseSpread_(2, sistrip::invalid_),
rawMean_(2, sistrip::invalid_),
rawSpread_(2, sistrip::invalid_),
pedsMax_(2, sistrip::invalid_),
pedsMin_(2, sistrip::invalid_),
noiseMax_(2, sistrip::invalid_),
noiseMin_(2, sistrip::invalid_),
rawMax_(2, sistrip::invalid_),
rawMin_(2, sistrip::invalid_),
legacy_(false) {
dead_[0].reserve(256);
dead_[1].reserve(256);
noisy_[0].reserve(256);
noisy_[1].reserve(256);
}
// ----------------------------------------------------------------------------
//
NoiseAnalysis::NoiseAnalysis()
: CommissioningAnalysis("NoiseAnalysis"),
peds_(2, VFloat(128, sistrip::invalid_)),
noise_(2, VFloat(128, sistrip::invalid_)),
raw_(2, VFloat(128, sistrip::invalid_)),
dead_(2, VInt(0, sistrip::invalid_)),
noisy_(2, VInt(0, sistrip::invalid_)),
pedsMean_(2, sistrip::invalid_),
pedsSpread_(2, sistrip::invalid_),
noiseMean_(2, sistrip::invalid_),
noiseSpread_(2, sistrip::invalid_),
rawMean_(2, sistrip::invalid_),
rawSpread_(2, sistrip::invalid_),
pedsMax_(2, sistrip::invalid_),
pedsMin_(2, sistrip::invalid_),
noiseMax_(2, sistrip::invalid_),
noiseMin_(2, sistrip::invalid_),
rawMax_(2, sistrip::invalid_),
rawMin_(2, sistrip::invalid_),
legacy_(false) {
dead_[0].reserve(256);
dead_[1].reserve(256);
noisy_[0].reserve(256);
noisy_[1].reserve(256);
}
// ----------------------------------------------------------------------------
//
void NoiseAnalysis::reset() {
peds_ = VVFloat(2, VFloat(128, sistrip::invalid_));
noise_ = VVFloat(2, VFloat(128, sistrip::invalid_));
raw_ = VVFloat(2, VFloat(128, sistrip::invalid_));
dead_ = VVInt(2, VInt(0, sistrip::invalid_));
noisy_ = VVInt(2, VInt(0, sistrip::invalid_));
pedsMean_ = VFloat(2, sistrip::invalid_);
pedsSpread_ = VFloat(2, sistrip::invalid_);
noiseMean_ = VFloat(2, sistrip::invalid_);
noiseSpread_ = VFloat(2, sistrip::invalid_);
rawMean_ = VFloat(2, sistrip::invalid_);
rawSpread_ = VFloat(2, sistrip::invalid_);
pedsMax_ = VFloat(2, sistrip::invalid_);
pedsMin_ = VFloat(2, sistrip::invalid_);
noiseMax_ = VFloat(2, sistrip::invalid_);
noiseMin_ = VFloat(2, sistrip::invalid_);
rawMax_ = VFloat(2, sistrip::invalid_);
rawMin_ = VFloat(2, sistrip::invalid_);
dead_[0].reserve(256);
dead_[1].reserve(256);
noisy_[0].reserve(256);
noisy_[1].reserve(256);
legacy_ = false;
}
// ----------------------------------------------------------------------------
//
bool NoiseAnalysis::isValid() const {
return (pedsMean_[0] < sistrip::maximum_ && pedsMean_[1] < sistrip::maximum_ && pedsSpread_[0] < sistrip::maximum_ &&
pedsSpread_[1] < sistrip::maximum_ && noiseMean_[0] < sistrip::maximum_ &&
noiseMean_[1] < sistrip::maximum_ && noiseSpread_[0] < sistrip::maximum_ &&
noiseSpread_[1] < sistrip::maximum_ && rawMean_[0] < sistrip::maximum_ && rawMean_[1] < sistrip::maximum_ &&
rawSpread_[0] < sistrip::maximum_ && rawSpread_[1] < sistrip::maximum_ && pedsMax_[0] < sistrip::maximum_ &&
pedsMax_[1] < sistrip::maximum_ && pedsMin_[0] < sistrip::maximum_ && pedsMin_[1] < sistrip::maximum_ &&
noiseMax_[0] < sistrip::maximum_ && noiseMax_[1] < sistrip::maximum_ && noiseMin_[0] < sistrip::maximum_ &&
noiseMin_[1] < sistrip::maximum_ && rawMax_[0] < sistrip::maximum_ && rawMax_[1] < sistrip::maximum_ &&
rawMin_[0] < sistrip::maximum_ && rawMin_[1] < sistrip::maximum_ && getErrorCodes().empty());
//noiseMean_[0] <= rawMean_[0] && //@@ temp
//noiseMean_[1] <= rawMean_[1] ); //@@ temp
}
// ----------------------------------------------------------------------------
//
void NoiseAnalysis::summary(std::stringstream& ss) const {
SiStripFecKey fec_key(fecKey());
SiStripFedKey fed_key(fedKey());
sistrip::RunType type = SiStripEnumsAndStrings::runType(myName());
std::stringstream extra1, extra2, extra3;
if (legacy_) {
extra1 << sistrip::extrainfo::pedsAndRawNoise_;
extra2 << sistrip::extrainfo::pedsAndCmSubNoise_;
extra3 << sistrip::extrainfo::commonMode_;
} else {
extra1 << sistrip::extrainfo::pedestals_;
extra2 << sistrip::extrainfo::rawNoise_;
extra3 << sistrip::extrainfo::commonMode_;
}
std::string title1 = SiStripHistoTitle(sistrip::EXPERT_HISTO,
type,
sistrip::FED_KEY,
fed_key.key(),
sistrip::LLD_CHAN,
fec_key.lldChan(),
extra1.str())
.title();
std::string title2 = SiStripHistoTitle(sistrip::EXPERT_HISTO,
type,
sistrip::FED_KEY,
fed_key.key(),
sistrip::LLD_CHAN,
fec_key.lldChan(),
extra2.str())
.title();
std::string title3 = SiStripHistoTitle(sistrip::EXPERT_HISTO,
type,
sistrip::FED_KEY,
fed_key.key(),
sistrip::APV,
SiStripFecKey::i2cAddr(fec_key.lldChan(), true),
extra3.str())
.title();
std::string title4 = SiStripHistoTitle(sistrip::EXPERT_HISTO,
type,
sistrip::FED_KEY,
fed_key.key(),
sistrip::APV,
SiStripFecKey::i2cAddr(fec_key.lldChan(), false),
extra3.str())
.title();
ss << " Summary"
<< ":" << (isValid() ? "Valid" : "Invalid") << ":" << sistrip::controlView_ << ":" << fec_key.fecCrate() << "/"
<< fec_key.fecSlot() << "/" << fec_key.fecRing() << "/" << fec_key.ccuAddr() << "/" << fec_key.ccuChan() << ":"
<< sistrip::dqmRoot_ << sistrip::dir_ << "Collate" << sistrip::dir_
<< SiStripFecKey(fec_key.fecCrate(), fec_key.fecSlot(), fec_key.fecRing(), fec_key.ccuAddr(), fec_key.ccuChan())
.path()
<< ":" << title1 << ";" << title2 << ";" << title3 << ";" << title4 << std::endl;
}
// ----------------------------------------------------------------------------
//
void NoiseAnalysis::print(std::stringstream& ss, uint32_t iapv) {
if (iapv == 1 || iapv == 2) {
iapv--;
} else {
iapv = 0;
}
if (peds_[iapv].size() < 128 || noise_[iapv].size() < 128 || raw_[iapv].size() < 128) {
edm::LogWarning(mlCommissioning_) << "[" << myName() << "::" << __func__ << "]"
<< " Unexpected number of pedestal/noise values: " << peds_[iapv].size() << ", "
<< noise_[iapv].size() << ", " << raw_[iapv].size();
return;
}
header(ss);
ss << " Monitorables for APV number : " << iapv;
if (iapv == 0) {
ss << " (first of pair)";
} else if (iapv == 1) {
ss << " (second of pair)";
}
ss << std::endl;
ss << std::fixed << std::setprecision(2);
ss << " Example peds/noise for strips : "
<< " 0, 31, 63, 127" << std::endl
<< " Peds [ADC] : " << std::setw(6) << peds_[iapv][0] << ", " << std::setw(6)
<< peds_[iapv][31] << ", " << std::setw(6) << peds_[iapv][63] << ", " << std::setw(6) << peds_[iapv][127]
<< std::endl
<< " Noise [ADC] : " << std::setw(6) << noise_[iapv][0] << ", " << std::setw(6)
<< noise_[iapv][31] << ", " << std::setw(6) << noise_[iapv][63] << ", " << std::setw(6) << noise_[iapv][127]
<< std::endl
<< " Raw noise [ADC] : " << std::setw(6) << raw_[iapv][0] << ", " << std::setw(6) << raw_[iapv][31]
<< ", " << std::setw(6) << raw_[iapv][63] << ", " << std::setw(6) << raw_[iapv][127] << std::endl
<< " Dead strips (<5s) [strip] : (" << dead_[iapv].size() << " in total) ";
for (uint16_t ii = 0; ii < dead_[iapv].size(); ii++) {
ss << dead_[iapv][ii] << " ";
}
ss << std::endl;
ss << " Noisy strips (>5s) [strip] : (" << noisy_[iapv].size() << " in total) ";
for (uint16_t ii = 0; ii < noisy_[iapv].size(); ii++) {
ss << noisy_[iapv][ii] << " ";
}
ss << std::endl;
ss << " Mean peds +/- spread [ADC] : " << pedsMean_[iapv] << " +/- " << pedsSpread_[iapv] << std::endl
<< " Min/Max pedestal [ADC] : " << pedsMin_[iapv] << " <-> " << pedsMax_[iapv] << std::endl
<< " Mean noise +/- spread [ADC] : " << noiseMean_[iapv] << " +/- " << noiseSpread_[iapv] << std::endl
<< " Min/Max noise [ADC] : " << noiseMin_[iapv] << " <-> " << noiseMax_[iapv] << std::endl
<< " Mean raw noise +/- spread [ADC] : " << rawMean_[iapv] << " +/- " << rawSpread_[iapv] << std::endl
<< " Min/Max raw noise [ADC] : " << rawMin_[iapv] << " <-> " << rawMax_[iapv] << std::endl
<< " Normalised noise : "
<< "(yet to be implemented...)" << std::endl
<< std::boolalpha << " isValid : " << isValid() << std::endl
<< std::noboolalpha << " Error codes (found " << std::setw(2) << std::setfill(' ') << getErrorCodes().size()
<< ") : ";
if (getErrorCodes().empty()) {
ss << "(none)";
} else {
VString::const_iterator istr = getErrorCodes().begin();
VString::const_iterator jstr = getErrorCodes().end();
for (; istr != jstr; ++istr) {
ss << *istr << " ";
}
}
ss << std::endl;
}
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