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NoiseAlgorithm.cc
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6 #include "TProfile.h"
7 #include "TH1.h"
8 #include <iostream>
9 #include <iomanip>
10 #include <cmath>
11 
12 using namespace sistrip;
13 
14 // ----------------------------------------------------------------------------
15 //
17  : CommissioningAlgorithm(anal),
18  hPeds_(nullptr,""),
19  hNoise_(nullptr,"")
20 {;}
21 
22 // ----------------------------------------------------------------------------
23 //
24 void NoiseAlgorithm::extract( const std::vector<TH1*>& histos ) {
25 
26  if ( !anal() ) {
28  << "[NoiseAlgorithm::" << __func__ << "]"
29  << " NULL pointer to Analysis object!";
30  return;
31  }
32 
33  // Check number of histograms
34  if ( histos.size() != 2 ) {
36  }
37 
38  // Extract FED key from histo title
39  if ( !histos.empty() ) { anal()->fedKey( extractFedKey( histos.front() ) ); }
40 
41  // Extract histograms
42  std::vector<TH1*>::const_iterator ihis = histos.begin();
43  for ( ; ihis != histos.end(); ihis++ ) {
44 
45  // Check for NULL pointer
46  if ( !(*ihis) ) { continue; }
47 
48  // Check run type
49  SiStripHistoTitle title( (*ihis)->GetName() );
50  if ( title.runType() != sistrip::NOISE ) {
52  continue;
53  }
54 
55  // Extract peds and noise histos (check for legacy names first!)
56  if ( title.extraInfo().find(sistrip::extrainfo::pedsAndRawNoise_) != std::string::npos ) {
57  hPeds_.first = *ihis;
58  hPeds_.second = (*ihis)->GetName();
59  NoiseAnalysis* a = dynamic_cast<NoiseAnalysis*>( const_cast<CommissioningAnalysis*>( anal() ) );
60  if ( a ) { a->legacy_ = true; }
61  } else if ( title.extraInfo().find(sistrip::extrainfo::pedsAndCmSubNoise_) != std::string::npos ) {
62  hNoise_.first = *ihis;
63  hNoise_.second = (*ihis)->GetName();
64  NoiseAnalysis* a = dynamic_cast<NoiseAnalysis*>( const_cast<CommissioningAnalysis*>( anal() ) );
65  if ( a ) { a->legacy_ = true; }
66  } else if ( title.extraInfo().find(sistrip::extrainfo::pedestals_) != std::string::npos ) {
67  hPeds_.first = *ihis;
68  hPeds_.second = (*ihis)->GetName();
69  } else if ( title.extraInfo().find(sistrip::extrainfo::noise_) != std::string::npos ) {
70  hNoise_.first = *ihis;
71  hNoise_.second = (*ihis)->GetName();
72  } else if ( title.extraInfo().find(sistrip::extrainfo::commonMode_) != std::string::npos ) {
73  //@@ something here for CM plots?
74  } else {
76  }
77 
78  }
79 
80 }
81 
82 // -----------------------------------------------------------------------------
83 //
85 
86  if ( !anal() ) {
88  << "[NoiseAlgorithm::" << __func__ << "]"
89  << " NULL pointer to base Analysis object!";
90  return;
91  }
92 
94  NoiseAnalysis* anal = dynamic_cast<NoiseAnalysis*>( tmp );
95  if ( !anal ) {
97  << "[NoiseAlgorithm::" << __func__ << "]"
98  << " NULL pointer to derived Analysis object!";
99  return;
100  }
101 
102  if ( !hPeds_.first ) {
104  return;
105  }
106 
107  if ( !hNoise_.first ) {
109  return;
110  }
111 
112  TProfile* peds_histo = dynamic_cast<TProfile*>(hPeds_.first);
113  TProfile* noise_histo = dynamic_cast<TProfile*>(hNoise_.first);
114 
115  if ( !peds_histo ) {
117  return;
118  }
119 
120  if ( !noise_histo ) {
122  return;
123  }
124 
125  if ( peds_histo->GetNbinsX() != 256 ) {
127  return;
128  }
129 
130  if ( noise_histo->GetNbinsX() != 256 ) {
132  return;
133  }
134 
135  // Iterate through APVs
136  for ( uint16_t iapv = 0; iapv < 2; iapv++ ) {
137 
138  // Used to calc mean and rms for peds and noise
139  float p_sum = 0., p_sum2 = 0., p_max = -1.*sistrip::invalid_, p_min = sistrip::invalid_;
140  float n_sum = 0., n_sum2 = 0., n_max = -1.*sistrip::invalid_, n_min = sistrip::invalid_;
141  float r_sum = 0., r_sum2 = 0., r_max = -1.*sistrip::invalid_, r_min = sistrip::invalid_;
142 
143  // Iterate through strips of APV
144  for ( uint16_t istr = 0; istr < 128; istr++ ) {
145 
146  uint16_t strip = iapv*128 + istr;
147 
148  // Pedestals and raw noise
149  if ( peds_histo ) {
150  if ( peds_histo->GetBinEntries(strip+1) ) {
151 
152  anal->peds_[iapv][istr] = peds_histo->GetBinContent(strip+1);
153  p_sum += anal->peds_[iapv][istr];
154  p_sum2 += ( anal->peds_[iapv][istr] * anal->peds_[iapv][istr] );
155  if ( anal->peds_[iapv][istr] > p_max ) { p_max = anal->peds_[iapv][istr]; }
156  if ( anal->peds_[iapv][istr] < p_min ) { p_min = anal->peds_[iapv][istr]; }
157 
158  anal->raw_[iapv][istr] = peds_histo->GetBinError(strip+1);
159  r_sum += anal->raw_[iapv][istr];
160  r_sum2 += ( anal->raw_[iapv][istr] * anal->raw_[iapv][istr] );
161  if ( anal->raw_[iapv][istr] > r_max ) { r_max = anal->raw_[iapv][istr]; }
162  if ( anal->raw_[iapv][istr] < r_min ) { r_min = anal->raw_[iapv][istr]; }
163 
164  }
165  }
166 
167  // Noise
168  if ( noise_histo ) {
169  if ( noise_histo->GetBinEntries(strip+1) ) {
170  anal->noise_[iapv][istr] = noise_histo->GetBinContent(strip+1);
171  n_sum += anal->noise_[iapv][istr];
172  n_sum2 += ( anal->noise_[iapv][istr] * anal->noise_[iapv][istr] );
173  if ( anal->noise_[iapv][istr] > n_max ) { n_max = anal->noise_[iapv][istr]; }
174  if ( anal->noise_[iapv][istr] < n_min ) { n_min = anal->noise_[iapv][istr]; }
175  }
176  }
177 
178  } // strip loop
179 
180  // Calc mean and rms for peds
181  if ( !anal->peds_[iapv].empty() ) {
182  p_sum /= static_cast<float>( anal->peds_[iapv].size() );
183  p_sum2 /= static_cast<float>( anal->peds_[iapv].size() );
184  anal->pedsMean_[iapv] = p_sum;
185  anal->pedsSpread_[iapv] = sqrt( fabs(p_sum2 - p_sum*p_sum) );
186  }
187 
188  // Calc mean and rms for noise
189  if ( !anal->noise_[iapv].empty() ) {
190  n_sum /= static_cast<float>( anal->noise_[iapv].size() );
191  n_sum2 /= static_cast<float>( anal->noise_[iapv].size() );
192  anal->noiseMean_[iapv] = n_sum;
193  anal->noiseSpread_[iapv] = sqrt( fabs(n_sum2 - n_sum*n_sum) );
194  }
195 
196  // Calc mean and rms for raw noise
197  if ( !anal->raw_[iapv].empty() ) {
198  r_sum /= static_cast<float>( anal->raw_[iapv].size() );
199  r_sum2 /= static_cast<float>( anal->raw_[iapv].size() );
200  anal->rawMean_[iapv] = r_sum;
201  anal->rawSpread_[iapv] = sqrt( fabs(r_sum2 - r_sum*r_sum) );
202  }
203 
204  // Set max and min values for peds, noise and raw noise
205  if ( p_max > -1.*sistrip::maximum_ ) { anal->pedsMax_[iapv] = p_max; }
206  if ( p_min < 1.*sistrip::maximum_ ) { anal->pedsMin_[iapv] = p_min; }
207  if ( n_max > -1.*sistrip::maximum_ ) { anal->noiseMax_[iapv] = n_max; }
208  if ( n_min < 1.*sistrip::maximum_ ) { anal->noiseMin_[iapv] = n_min; }
209  if ( r_max > -1.*sistrip::maximum_ ) { anal->rawMax_[iapv] = r_max; }
210  if ( r_min < 1.*sistrip::maximum_ ) { anal->rawMin_[iapv] = r_min; }
211 
212  // Set dead and noisy strips
213  for ( uint16_t istr = 0; istr < 128; istr++ ) {
214  if ( anal->noiseMin_[iapv] > sistrip::maximum_ ||
215  anal->noiseMax_[iapv] > sistrip::maximum_ ) { continue; }
216  if ( anal->noise_[iapv][istr] < ( anal->noiseMean_[iapv] - 5. * anal->noiseSpread_[iapv] ) ) {
217  anal->dead_[iapv].push_back(istr); //@@ valid threshold???
218  }
219  else if ( anal->noise_[iapv][istr] > ( anal->noiseMean_[iapv] + 5. * anal->noiseSpread_[iapv] ) ) {
220  anal->noisy_[iapv].push_back(istr); //@@ valid threshold???
221  }
222  }
223 
224  } // apv loop
225 
226 }
static const char noise_[]
static const char unexpectedTask_[]
const uint32_t & fedKey() const
static const char pedsAndRawNoise_[]
Utility class that holds histogram title.
static const char numberOfHistos_[]
VFloat pedsMean_
Definition: NoiseAnalysis.h:96
static const char unexpectedExtraInfo_[]
#define nullptr
static const char numberOfBins_[]
sistrip classes
void extract(const std::vector< TH1 * > &) override
static const char mlCommissioning_[]
T sqrt(T t)
Definition: SSEVec.h:18
uint32_t extractFedKey(const TH1 *const )
static const uint16_t maximum_
Definition: Constants.h:20
virtual void addErrorCode(const std::string &error)
VVFloat noise_
Definition: NoiseAnalysis.h:80
static const char commonMode_[]
static const char pedestals_[]
static const char pedsAndCmSubNoise_[]
VFloat noiseSpread_
static const uint16_t invalid_
Definition: Constants.h:16
std::vector< std::vector< double > > tmp
Definition: MVATrainer.cc:100
double a
Definition: hdecay.h:121
VFloat pedsSpread_
Definition: NoiseAnalysis.h:99
Histogram-based analysis for pedestal run.
Definition: NoiseAnalysis.h:15
Abstract base for derived classes that provide analysis of commissioning histograms.
CommissioningAnalysis *const anal() const
static const char nullPtr_[]
void analyse() override