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SiPixelGenError Class Reference

#include <SiPixelGenError.h>

Public Member Functions

float fbin (int i)
 Return lower bound of Qbin definition. More...
 
float lorxbias ()
 signed lorentz x-bias (microns) More...
 
float lorxwidth ()
 signed lorentz x-width (microns) More...
 
float lorybias ()
 signed lorentz y-bias (microns) More...
 
float lorywidth ()
 signed lorentz y-width (microns) More...
 
int qbin (int id, float cotalpha, float cotbeta, float locBz, float qclus, float &pixmx, float &sigmay, float &deltay, float &sigmax, float &deltax, float &sy1, float &dy1, float &sy2, float &dy2, float &sx1, float &dx1, float &sx2, float &dx2)
 
int qbin (int id)
 
 SiPixelGenError (const std::vector< SiPixelGenErrorStore > &thePixelTemp)
 Constructor for cases in which template store already exists. More...
 
float xsize ()
 pixel x-size (microns) More...
 
float ysize ()
 pixel y-size (microns) More...
 
float zsize ()
 pixel z-size or thickness (microns) More...
 

Static Public Member Functions

static void postInit (std::vector< SiPixelGenErrorStore > &thePixelTemp_)
 
static bool pushfile (int filenum, std::vector< SiPixelGenErrorStore > &thePixelTemp_)
 
static bool pushfile (const SiPixelGenErrorDBObject &dbobject, std::vector< SiPixelGenErrorStore > &thePixelTemp_)
 

Private Attributes

float fbin_ [3]
 The QBin definitions in Q_clus/Q_avg. More...
 
int id_current_
 current id More...
 
int index_id_
 current index More...
 
float lorxbias_
 Lorentz x-width. More...
 
float lorxwidth_
 Lorentz x-width. More...
 
float lorybias_
 Lorentz y-width (sign corrected for fpix frame) More...
 
float lorywidth_
 Lorentz y-width (sign corrected for fpix frame) More...
 
const std::vector
< SiPixelGenErrorStore > & 
thePixelTemp_
 
float xsize_
 Pixel x-size. More...
 
float ysize_
 Pixel y-size. More...
 
float zsize_
 Pixel z-size (thickness) More...
 

Detailed Description

A Generic Algorithm info management class. SiPixelGenError contains thePixelTemp (a std::vector of SiPixelGenErrorStore, each of which is a collection of many SiPixelGenErrorEntries). Each SiPixelGenErrorStore corresponds to a given detector condition, and is valid for a range of runs. We allow more than one Store since the may change over time.

This class reads templates from files via pushfile() method.

The main functionality of SiPixelGenError is qbin(), which produces algorithm info on the fly, given a specific track's alpha and beta.

Definition at line 102 of file SiPixelGenError.h.

Constructor & Destructor Documentation

SiPixelGenError::SiPixelGenError ( const std::vector< SiPixelGenErrorStore > &  thePixelTemp)
inline

Constructor for cases in which template store already exists.

Definition at line 104 of file SiPixelGenError.h.

References id_current_, and index_id_.

Member Function Documentation

float SiPixelGenError::fbin ( int  i)
inline

Return lower bound of Qbin definition.

Definition at line 128 of file SiPixelGenError.h.

References assert(), Exception, fbin_, and i.

float SiPixelGenError::lorxbias ( )
inline

signed lorentz x-bias (microns)

Definition at line 126 of file SiPixelGenError.h.

References lorxbias_.

float SiPixelGenError::lorxwidth ( )
inline

signed lorentz x-width (microns)

Definition at line 124 of file SiPixelGenError.h.

References lorxwidth_.

Referenced by PixelCPEGeneric::localPosition().

float SiPixelGenError::lorybias ( )
inline

signed lorentz y-bias (microns)

Definition at line 125 of file SiPixelGenError.h.

References lorybias_.

float SiPixelGenError::lorywidth ( )
inline

signed lorentz y-width (microns)

Definition at line 123 of file SiPixelGenError.h.

References lorywidth_.

Referenced by PixelCPEGeneric::localPosition().

void SiPixelGenError::postInit ( std::vector< SiPixelGenErrorStore > &  thePixelTemp_)
static

Definition at line 395 of file SiPixelGenError.cc.

References citk::for().

395  {
396 
397  for (auto & templ : thePixelTemp_) {
398  for ( auto iy=0; iy<templ.head.NTy; ++iy ) templ.cotbetaY[iy]=templ.enty[iy].cotbeta;
399  for ( auto iy=0; iy<templ.head.NTyx; ++iy ) templ.cotbetaX[iy]= templ.entx[iy][0].cotbeta;
400  for ( auto ix=0; ix<templ.head.NTxx; ++ix ) templ.cotalphaX[ix]=templ.entx[0][ix].cotalpha;
401  }
402 
403 }
const std::vector< SiPixelGenErrorStore > & thePixelTemp_
for(const auto &isodef:isoDefs)
bool SiPixelGenError::pushfile ( int  filenum,
std::vector< SiPixelGenErrorStore > &  thePixelTemp_ 
)
static

This routine initializes the global GenError structures from an external file generror_summary_zpNNNN where NNNN are four digits of filenum.

Parameters
filenum- an integer NNNN used in the filename generror_summary_zpNNNN

Definition at line 52 of file SiPixelGenError.cc.

References SiPixelGenErrorHeader::Bfield, EnergyCorrector::c, SiPixelGenErrorEntry::cotalpha, SiPixelGenErrorEntry::cotbeta, SiPixelGenErrorHeader::Dtype, SiPixelGenErrorEntry::dxone, SiPixelGenErrorEntry::dxtwo, SiPixelGenErrorEntry::dyone, SiPixelGenErrorEntry::dytwo, ENDL, SiPixelGenErrorStore::entx, SiPixelGenErrorStore::enty, SiPixelGenErrorHeader::fbin, mergeVDriftHistosByStation::file, SiPixelGenErrorHeader::fluence, SiPixelGenErrorStore::head, i, SiPixelGenErrorHeader::ID, recoMuon::in, create_public_lumi_plots::in_file, j, relval_steps::k, LOGERROR, LOGINFO, SiPixelGenErrorHeader::lorxbias, SiPixelGenErrorHeader::lorxwidth, SiPixelGenErrorHeader::lorybias, SiPixelGenErrorHeader::lorywidth, SiPixelGenErrorHeader::NTxx, SiPixelGenErrorHeader::NTy, SiPixelGenErrorHeader::NTyx, SiPixelGenErrorEntry::pixmax, SiPixelGenErrorEntry::qavg, SiPixelGenErrorEntry::qmin, SiPixelGenErrorEntry::qmin2, SiPixelGenErrorHeader::qscale, SiPixelGenErrorEntry::runnum, SiPixelGenErrorHeader::s50, SiPixelGenErrorHeader::ss50, AlCaHLTBitMon_QueryRunRegistry::string, SiPixelGenErrorEntry::sxone, SiPixelGenErrorEntry::sxtwo, SiPixelGenErrorEntry::syone, SiPixelGenErrorEntry::sytwo, SiPixelGenErrorHeader::temperature, SiPixelGenErrorHeader::templ_version, SiPixelGenErrorHeader::title, SiPixelGenErrorHeader::Vbias, SiPixelGenErrorEntry::xavggen, SiPixelGenErrorEntry::xrmsgen, SiPixelGenErrorHeader::xsize, SiPixelGenErrorEntry::yavggen, SiPixelGenErrorEntry::yrmsgen, SiPixelGenErrorHeader::ysize, and SiPixelGenErrorHeader::zsize.

Referenced by PixelCPEGeneric::PixelCPEGeneric().

53 {
54  // Add info stored in external file numbered filenum to theGenErrorStore
55 
56  // Local variables
57  int i, j, k;
58  float costrk[3]={0,0,0};
59  const char *tempfile;
60  // char title[80]; remove this
61  char c;
62  const int code_version={1};
63 
64 
65 
66  // Create a filename for this run
67 
68  std::ostringstream tout;
69 
70  // Create different path in CMSSW than standalone
71 
72 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
73  tout << "CalibTracker/SiPixelESProducers/data/generror_summary_zp"
74  << std::setw(4) << std::setfill('0') << std::right << filenum << ".out" << std::ends;
75  std::string tempf = tout.str();
76  edm::FileInPath file( tempf.c_str() );
77  tempfile = (file.fullPath()).c_str();
78 #else
79  tout << "generror_summary_zp" << std::setw(4) << std::setfill('0') << std::right << filenum << ".out" << std::ends;
80  std::string tempf = tout.str();
81  tempfile = tempf.c_str();
82 #endif
83 
84  // open the Generic file
85 
86  std::ifstream in_file(tempfile, std::ios::in);
87 
88  if(in_file.is_open()) {
89 
90  // Create a local GenError storage entry
91 
92  SiPixelGenErrorStore theCurrentTemp;
93 
94  // Read-in a header string first and print it
95 
96  for (i=0; (c=in_file.get()) != '\n'; ++i) {
97  if(i < 79) {theCurrentTemp.head.title[i] = c;}
98  }
99  if(i > 78) {i=78;}
100  theCurrentTemp.head.title[i+1] ='\0';
101  LOGINFO("SiPixelGenError") << "Loading Pixel GenError File - " << theCurrentTemp.head.title << ENDL;
102 
103  // next, the header information
104 
105  in_file >> theCurrentTemp.head.ID >> theCurrentTemp.head.templ_version >> theCurrentTemp.head.Bfield >> theCurrentTemp.head.NTy >> theCurrentTemp.head.NTyx >> theCurrentTemp.head.NTxx >> theCurrentTemp.head.Dtype >> theCurrentTemp.head.Vbias >>
106  theCurrentTemp.head.temperature >> theCurrentTemp.head.fluence >> theCurrentTemp.head.qscale >> theCurrentTemp.head.s50 >>
107  theCurrentTemp.head.lorywidth >> theCurrentTemp.head.lorxwidth >> theCurrentTemp.head.ysize >> theCurrentTemp.head.xsize >>
108  theCurrentTemp.head.zsize >> theCurrentTemp.head.ss50 >> theCurrentTemp.head.lorybias >> theCurrentTemp.head.lorxbias >>
109  theCurrentTemp.head.fbin[0] >> theCurrentTemp.head.fbin[1] >> theCurrentTemp.head.fbin[2];
110 
111  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file, no GenError load" << ENDL; return false;}
112 
113  LOGINFO("SiPixelGenError") << "GenError ID = " << theCurrentTemp.head.ID << ", GenError Version " << theCurrentTemp.head.templ_version << ", Bfield = " << theCurrentTemp.head.Bfield
114  << ", NTy = " << theCurrentTemp.head.NTy << ", NTyx = " << theCurrentTemp.head.NTyx<< ", NTxx = " << theCurrentTemp.head.NTxx << ", Dtype = " << theCurrentTemp.head.Dtype
115  << ", Bias voltage " << theCurrentTemp.head.Vbias << ", temperature "
116  << theCurrentTemp.head.temperature << ", fluence " << theCurrentTemp.head.fluence << ", Q-scaling factor " << theCurrentTemp.head.qscale
117  << ", 1/2 multi dcol threshold " << theCurrentTemp.head.s50 << ", 1/2 single dcol threshold " << theCurrentTemp.head.ss50
118  << ", y Lorentz Width " << theCurrentTemp.head.lorywidth << ", y Lorentz Bias " << theCurrentTemp.head.lorybias
119  << ", x Lorentz width " << theCurrentTemp.head.lorxwidth << ", x Lorentz Bias " << theCurrentTemp.head.lorxbias
120  << ", Q/Q_avg fractions for Qbin defs " << theCurrentTemp.head.fbin[0] << ", " << theCurrentTemp.head.fbin[1]
121  << ", " << theCurrentTemp.head.fbin[2]
122  << ", pixel x-size " << theCurrentTemp.head.xsize << ", y-size " << theCurrentTemp.head.ysize << ", zsize " << theCurrentTemp.head.zsize << ENDL;
123 
124  if(theCurrentTemp.head.templ_version < code_version) {LOGERROR("SiPixelGenError") << "code expects version " << code_version << ", no GenError load" << ENDL; return false;}
125 
126 #ifdef SI_PIXEL_TEMPLATE_USE_BOOST
127 
128 // next, layout the 1-d/2-d structures needed to store GenError info
129 
130  theCurrentTemp.enty.resize(boost::extents[theCurrentTemp.head.NTy]);
131 
132  theCurrentTemp.entx.resize(boost::extents[theCurrentTemp.head.NTyx][theCurrentTemp.head.NTxx]);
133 
134 #endif
135 
136 // next, loop over all y-angle entries
137 
138  for (i=0; i < theCurrentTemp.head.NTy; ++i) {
139 
140  in_file >> theCurrentTemp.enty[i].runnum >> costrk[0] >> costrk[1] >> costrk[2];
141 
142  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 1, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
143 
144  // Calculate the alpha, beta, and cot(beta) for this entry
145 
146  theCurrentTemp.enty[i].cotalpha = costrk[0]/costrk[2];
147 
148  theCurrentTemp.enty[i].cotbeta = costrk[1]/costrk[2];
149 
150  in_file >> theCurrentTemp.enty[i].qavg >> theCurrentTemp.enty[i].pixmax >> theCurrentTemp.enty[i].dyone
151  >> theCurrentTemp.enty[i].syone >> theCurrentTemp.enty[i].dxone >> theCurrentTemp.enty[i].sxone;
152 
153  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 2, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
154 
155  in_file >> theCurrentTemp.enty[i].dytwo >> theCurrentTemp.enty[i].sytwo >> theCurrentTemp.enty[i].dxtwo
156  >> theCurrentTemp.enty[i].sxtwo >> theCurrentTemp.enty[i].qmin >> theCurrentTemp.enty[i].qmin2;
157 
158  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 3, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
159 
160  if(theCurrentTemp.enty[i].qmin <= 0.) {LOGERROR("SiPixelGenError") << "Error in GenError ID " << theCurrentTemp.head.ID << " qmin = " << theCurrentTemp.enty[i].qmin << ", run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
161 
162 
163  for (j=0; j<4; ++j) {
164 
165  in_file >> theCurrentTemp.enty[i].yavggen[j] >> theCurrentTemp.enty[i].yrmsgen[j] >> theCurrentTemp.enty[i].xavggen[j] >> theCurrentTemp.enty[i].xrmsgen[j];
166 
167  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 14a, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
168  }
169 
170 
171  }
172 
173  // next, loop over all barrel x-angle entries
174 
175  for (k=0; k < theCurrentTemp.head.NTyx; ++k) {
176 
177  for (i=0; i < theCurrentTemp.head.NTxx; ++i) {
178 
179  in_file >> theCurrentTemp.entx[k][i].runnum >> costrk[0] >> costrk[1] >> costrk[2];
180 
181  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 17, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
182 
183  // Calculate the alpha, beta, and cot(beta) for this entry
184 
185  theCurrentTemp.entx[k][i].cotalpha = costrk[0]/costrk[2];
186 
187  theCurrentTemp.entx[k][i].cotbeta = costrk[1]/costrk[2];
188 
189  in_file >> theCurrentTemp.entx[k][i].qavg >> theCurrentTemp.entx[k][i].pixmax >> theCurrentTemp.entx[k][i].dyone
190  >> theCurrentTemp.entx[k][i].syone >> theCurrentTemp.entx[k][i].dxone >> theCurrentTemp.entx[k][i].sxone;
191 
192  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 18, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
193 
194  in_file >> theCurrentTemp.entx[k][i].dytwo >> theCurrentTemp.entx[k][i].sytwo >> theCurrentTemp.entx[k][i].dxtwo
195  >> theCurrentTemp.entx[k][i].sxtwo >> theCurrentTemp.entx[k][i].qmin >> theCurrentTemp.entx[k][i].qmin2;
196  // >> theCurrentTemp.entx[k][i].mpvvav >> theCurrentTemp.entx[k][i].sigmavav >> theCurrentTemp.entx[k][i].kappavav;
197 
198  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 19, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
199 
200 
201  for (j=0; j<4; ++j) {
202 
203  in_file >> theCurrentTemp.entx[k][i].yavggen[j] >> theCurrentTemp.entx[k][i].yrmsgen[j] >> theCurrentTemp.entx[k][i].xavggen[j] >> theCurrentTemp.entx[k][i].xrmsgen[j];
204 
205  if(in_file.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 30a, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
206  }
207 
208  }
209  }
210 
211 
212  in_file.close();
213 
214  // Add this info to the store
215 
216  thePixelTemp_.push_back(theCurrentTemp);
217 
219 
220  return true;
221 
222  } else {
223 
224  // If file didn't open, report this
225 
226  LOGERROR("SiPixelGenError") << "Error opening File" << tempfile << ENDL;
227  return false;
228 
229  }
230 
231 } // TempInit
int i
Definition: DBlmapReader.cc:9
float qavg
average cluster charge for this set of track angles (now includes threshold effects) ...
float ss50
1/2 of the single hit dcol threshold in electrons
float qmin
minimum cluster charge for valid hit (keeps 99.9% of simulated hits)
float Bfield
Bfield in Tesla.
int runnum
&lt; Basic template entry corresponding to a single set of track angles
float yrmsgen[4]
generic algorithm: average y-rms of reconstruction binned in 4 charge bins
float dxone
mean offset/correction for one pixel x-clusters
#define LOGINFO(x)
float Vbias
detector bias potential in Volts
float xrmsgen[4]
generic algorithm: average x-rms of reconstruction binned in 4 charge bins
int NTxx
number of Template x-entries in each slice
float fbin[3]
The QBin definitions in Q_clus/Q_avg.
float syone
rms for one pixel y-clusters
float zsize
pixel size (for future use in upgraded geometry)
SiPixelGenErrorEntry enty[60]
60 Barrel y templates spanning cluster lengths from 0px to +18px [28 entries for fpix] ...
float s50
1/2 of the multihit dcol threshold in electrons
float cotalpha
cot(alpha) is proportional to cluster length in x and is basis of interpolation
float lorxbias
estimate of x-lorentz bias
float temperature
detector temperature in deg K
float xsize
pixel size (for future use in upgraded geometry)
static void postInit(std::vector< SiPixelGenErrorStore > &thePixelTemp_)
int templ_version
Version number of the template to ensure code compatibility.
float cotbeta
cot(beta) is proportional to cluster length in y and is basis of interpolation
int ID
&lt; template header structure
float sxone
rms for one pixel x-clusters
int j
Definition: DBlmapReader.cc:9
float fluence
radiation fluence in n_eq/cm^2
#define LOGERROR(x)
float dytwo
mean offset/correction for one double-pixel y-clusters
int NTy
number of Template y entries
float qscale
Charge scaling to match cmssw and pixelav.
float dxtwo
mean offset/correction for one double-pixel x-clusters
SiPixelGenErrorHeader head
&lt; template storage structure
float ysize
pixel size (for future use in upgraded geometry)
char title[80]
template title
float sytwo
rms for one double-pixel y-clusters
float lorywidth
estimate of y-lorentz width for optimal resolution
#define ENDL
float yavggen[4]
generic algorithm: average y-bias of reconstruction binned in 4 charge bins
float dyone
mean offset/correction for one pixel y-clusters
const std::vector< SiPixelGenErrorStore > & thePixelTemp_
int Dtype
detector type (0=BPix, 1=FPix)
int NTyx
number of Template y-slices of x entries
float xavggen[4]
generic algorithm: average x-bias of reconstruction binned in 4 charge bins
float pixmax
maximum charge for individual pixels in cluster
float sxtwo
rms for one double-pixel x-clusters
SiPixelGenErrorEntry entx[5][29]
29 Barrel x templates spanning cluster lengths from -6px (-1.125Rad) to +6px (+1.125Rad) in each of 5...
float lorybias
estimate of y-lorentz bias
float lorxwidth
estimate of x-lorentz width for optimal resolution
bool SiPixelGenError::pushfile ( const SiPixelGenErrorDBObject dbobject,
std::vector< SiPixelGenErrorStore > &  thePixelTemp_ 
)
static

This routine initializes the global GenError structures from an SiPixelGenErrorDBObject

Parameters
dbobject- db storing multiple generic calibrations

Definition at line 241 of file SiPixelGenError.cc.

References SiPixelGenErrorHeader::Bfield, SiPixelGenErrorDBObject::char2float::c, SiPixelGenErrorEntry::cotalpha, SiPixelGenErrorEntry::cotbeta, EcalCondDB::db, SiPixelGenErrorHeader::Dtype, SiPixelGenErrorEntry::dxone, SiPixelGenErrorEntry::dxtwo, SiPixelGenErrorEntry::dyone, SiPixelGenErrorEntry::dytwo, ENDL, SiPixelGenErrorStore::entx, SiPixelGenErrorStore::enty, SiPixelGenErrorDBObject::char2float::f, SiPixelGenErrorDBObject::fail(), SiPixelGenErrorHeader::fbin, SiPixelGenErrorHeader::fluence, SiPixelGenErrorStore::head, i, SiPixelGenErrorHeader::ID, SiPixelGenErrorDBObject::incrementIndex(), SiPixelGenErrorDBObject::index(), j, relval_steps::k, LOGERROR, LOGINFO, SiPixelGenErrorHeader::lorxbias, SiPixelGenErrorHeader::lorxwidth, SiPixelGenErrorHeader::lorybias, SiPixelGenErrorHeader::lorywidth, visualization-live-secondInstance_cfg::m, SiPixelGenErrorHeader::NTxx, SiPixelGenErrorHeader::NTy, SiPixelGenErrorHeader::NTyx, SiPixelGenErrorDBObject::numOfTempl(), SiPixelGenErrorEntry::pixmax, SiPixelGenErrorEntry::qavg, SiPixelGenErrorEntry::qmin, SiPixelGenErrorEntry::qmin2, SiPixelGenErrorHeader::qscale, SiPixelGenErrorEntry::runnum, SiPixelGenErrorHeader::s50, SiPixelGenErrorHeader::ss50, SiPixelGenErrorDBObject::sVector(), SiPixelGenErrorEntry::sxone, SiPixelGenErrorEntry::sxtwo, SiPixelGenErrorEntry::syone, SiPixelGenErrorEntry::sytwo, groupFilesInBlocks::temp, SiPixelGenErrorHeader::temperature, SiPixelGenErrorHeader::templ_version, SiPixelGenErrorHeader::title, SiPixelGenErrorHeader::Vbias, SiPixelGenErrorEntry::xavggen, SiPixelGenErrorEntry::xrmsgen, SiPixelGenErrorHeader::xsize, SiPixelGenErrorEntry::yavggen, SiPixelGenErrorEntry::yrmsgen, SiPixelGenErrorHeader::ysize, and SiPixelGenErrorHeader::zsize.

242  {
243  // Add GenError stored in external dbobject to theGenErrorStore
244 
245  // Local variables
246  int i, j, k;
247  float costrk[3]={0,0,0};
248  // const char *tempfile;
249  const int code_version={1};
250 
251  // We must create a new object because dbobject must be a const and our stream must not be
252  SiPixelGenErrorDBObject db = dbobject;
253 
254  // Create a local GenError storage entry
255  SiPixelGenErrorStore theCurrentTemp;
256 
257  // Fill the GenError storage for each GenError calibration stored in the db
258  for(int m=0; m<db.numOfTempl(); ++m) {
259 
260  // Read-in a header string first and print it
261 
263  for (i=0; i<20; ++i) {
264  temp.f = db.sVector()[db.index()];
265  theCurrentTemp.head.title[4*i] = temp.c[0];
266  theCurrentTemp.head.title[4*i+1] = temp.c[1];
267  theCurrentTemp.head.title[4*i+2] = temp.c[2];
268  theCurrentTemp.head.title[4*i+3] = temp.c[3];
269  db.incrementIndex(1);
270  }
271 
272  theCurrentTemp.head.title[79] = '\0';
273  LOGINFO("SiPixelGenError") << "Loading Pixel GenError File - "
274  << theCurrentTemp.head.title << ENDL;
275 
276  // next, the header information
277 
278  db >> theCurrentTemp.head.ID >> theCurrentTemp.head.templ_version >> theCurrentTemp.head.Bfield >> theCurrentTemp.head.NTy >> theCurrentTemp.head.NTyx >> theCurrentTemp.head.NTxx >> theCurrentTemp.head.Dtype >> theCurrentTemp.head.Vbias >>
279  theCurrentTemp.head.temperature >> theCurrentTemp.head.fluence >> theCurrentTemp.head.qscale >> theCurrentTemp.head.s50 >>
280  theCurrentTemp.head.lorywidth >> theCurrentTemp.head.lorxwidth >> theCurrentTemp.head.ysize >> theCurrentTemp.head.xsize >>
281  theCurrentTemp.head.zsize >> theCurrentTemp.head.ss50 >> theCurrentTemp.head.lorybias >> theCurrentTemp.head.lorxbias >>
282  theCurrentTemp.head.fbin[0] >> theCurrentTemp.head.fbin[1] >> theCurrentTemp.head.fbin[2];
283 
284  if(db.fail()) {LOGERROR("SiPixelGenError")
285  << "Error reading file, no GenError load" << ENDL; return false;}
286 
287  LOGINFO("SiPixelGenError") << "GenError ID = " << theCurrentTemp.head.ID << ", GenError Version " << theCurrentTemp.head.templ_version << ", Bfield = " << theCurrentTemp.head.Bfield
288  << ", NTy = " << theCurrentTemp.head.NTy << ", NTyx = " << theCurrentTemp.head.NTyx<< ", NTxx = " << theCurrentTemp.head.NTxx << ", Dtype = " << theCurrentTemp.head.Dtype
289  << ", Bias voltage " << theCurrentTemp.head.Vbias << ", temperature "
290  << theCurrentTemp.head.temperature << ", fluence " << theCurrentTemp.head.fluence << ", Q-scaling factor " << theCurrentTemp.head.qscale
291  << ", 1/2 multi dcol threshold " << theCurrentTemp.head.s50 << ", 1/2 single dcol threshold " << theCurrentTemp.head.ss50
292  << ", y Lorentz Width " << theCurrentTemp.head.lorywidth << ", y Lorentz Bias " << theCurrentTemp.head.lorybias
293  << ", x Lorentz width " << theCurrentTemp.head.lorxwidth << ", x Lorentz Bias " << theCurrentTemp.head.lorxbias
294  << ", Q/Q_avg fractions for Qbin defs " << theCurrentTemp.head.fbin[0] << ", " << theCurrentTemp.head.fbin[1]
295  << ", " << theCurrentTemp.head.fbin[2]
296  << ", pixel x-size " << theCurrentTemp.head.xsize << ", y-size " << theCurrentTemp.head.ysize << ", zsize " << theCurrentTemp.head.zsize << ENDL;
297 
298  LOGINFO("SiPixelGenError") << "Loading Pixel GenError - "
299  << theCurrentTemp.head.title << " version "
300  <<theCurrentTemp.head.templ_version <<" code v."
301  <<code_version<<ENDL;
302  if(theCurrentTemp.head.templ_version < code_version) {
303  LOGERROR("SiPixelGenError") << "code expects version " << code_version
304  << ", no GenError load" << ENDL; return false;}
305 
306 #ifdef SI_PIXEL_TEMPLATE_USE_BOOST
307 
308 // next, layout the 1-d/2-d structures needed to store GenError
309 
310  theCurrentTemp.enty.resize(boost::extents[theCurrentTemp.head.NTy]);
311 
312  theCurrentTemp.entx.resize(boost::extents[theCurrentTemp.head.NTyx][theCurrentTemp.head.NTxx]);
313 
314 #endif
315 
316  // next, loop over all barrel y-angle entries
317 
318  for (i=0; i < theCurrentTemp.head.NTy; ++i) {
319 
320  db >> theCurrentTemp.enty[i].runnum >> costrk[0] >> costrk[1] >> costrk[2];
321 
322  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 1, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
323 
324  // Calculate the alpha, beta, and cot(beta) for this entry
325 
326  theCurrentTemp.enty[i].cotalpha = costrk[0]/costrk[2];
327 
328  theCurrentTemp.enty[i].cotbeta = costrk[1]/costrk[2];
329 
330  db >> theCurrentTemp.enty[i].qavg >> theCurrentTemp.enty[i].pixmax >> theCurrentTemp.enty[i].dyone
331  >> theCurrentTemp.enty[i].syone >> theCurrentTemp.enty[i].dxone >> theCurrentTemp.enty[i].sxone;
332 
333  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 2, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
334 
335  db >> theCurrentTemp.enty[i].dytwo >> theCurrentTemp.enty[i].sytwo >> theCurrentTemp.enty[i].dxtwo
336  >> theCurrentTemp.enty[i].sxtwo >> theCurrentTemp.enty[i].qmin >> theCurrentTemp.enty[i].qmin2;
337 
338  for (j=0; j<4; ++j) {
339 
340  db >> theCurrentTemp.enty[i].yavggen[j] >> theCurrentTemp.enty[i].yrmsgen[j] >> theCurrentTemp.enty[i].xavggen[j] >> theCurrentTemp.enty[i].xrmsgen[j];
341 
342  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 14a, no GenError load, run # " << theCurrentTemp.enty[i].runnum << ENDL; return false;}
343  }
344 
345  }
346 
347  // next, loop over all barrel x-angle entries
348 
349  for (k=0; k < theCurrentTemp.head.NTyx; ++k) {
350 
351  for (i=0; i < theCurrentTemp.head.NTxx; ++i) {
352 
353  db >> theCurrentTemp.entx[k][i].runnum >> costrk[0] >> costrk[1] >> costrk[2];
354 
355  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 17, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
356 
357  // Calculate the alpha, beta, and cot(beta) for this entry
358 
359  theCurrentTemp.entx[k][i].cotalpha = costrk[0]/costrk[2];
360 
361  theCurrentTemp.entx[k][i].cotbeta = costrk[1]/costrk[2];
362 
363  db >> theCurrentTemp.entx[k][i].qavg >> theCurrentTemp.entx[k][i].pixmax >> theCurrentTemp.entx[k][i].dyone
364  >> theCurrentTemp.entx[k][i].syone >> theCurrentTemp.entx[k][i].dxone >> theCurrentTemp.entx[k][i].sxone;
365 
366  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 18, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
367 
368  db >> theCurrentTemp.entx[k][i].dytwo >> theCurrentTemp.entx[k][i].sytwo >> theCurrentTemp.entx[k][i].dxtwo
369  >> theCurrentTemp.entx[k][i].sxtwo >> theCurrentTemp.entx[k][i].qmin >> theCurrentTemp.entx[k][i].qmin2;
370 
371  for (j=0; j<4; ++j) {
372 
373  db >> theCurrentTemp.entx[k][i].yavggen[j] >> theCurrentTemp.entx[k][i].yrmsgen[j] >> theCurrentTemp.entx[k][i].xavggen[j] >> theCurrentTemp.entx[k][i].xrmsgen[j];
374 
375  if(db.fail()) {LOGERROR("SiPixelGenError") << "Error reading file 30a, no GenError load, run # " << theCurrentTemp.entx[k][i].runnum << ENDL; return false;}
376  }
377 
378  }
379  }
380 
381 
382  // Add this GenError to the store
383 
384  thePixelTemp_.push_back(theCurrentTemp);
385 
387 
388  }
389  return true;
390 
391 } // TempInit
int i
Definition: DBlmapReader.cc:9
float qavg
average cluster charge for this set of track angles (now includes threshold effects) ...
float ss50
1/2 of the single hit dcol threshold in electrons
float qmin
minimum cluster charge for valid hit (keeps 99.9% of simulated hits)
float Bfield
Bfield in Tesla.
int runnum
&lt; Basic template entry corresponding to a single set of track angles
float yrmsgen[4]
generic algorithm: average y-rms of reconstruction binned in 4 charge bins
float dxone
mean offset/correction for one pixel x-clusters
#define LOGINFO(x)
float Vbias
detector bias potential in Volts
float xrmsgen[4]
generic algorithm: average x-rms of reconstruction binned in 4 charge bins
tuple db
Definition: EcalCondDB.py:151
int NTxx
number of Template x-entries in each slice
float fbin[3]
The QBin definitions in Q_clus/Q_avg.
float syone
rms for one pixel y-clusters
float zsize
pixel size (for future use in upgraded geometry)
SiPixelGenErrorEntry enty[60]
60 Barrel y templates spanning cluster lengths from 0px to +18px [28 entries for fpix] ...
float s50
1/2 of the multihit dcol threshold in electrons
float cotalpha
cot(alpha) is proportional to cluster length in x and is basis of interpolation
float lorxbias
estimate of x-lorentz bias
float temperature
detector temperature in deg K
float xsize
pixel size (for future use in upgraded geometry)
static void postInit(std::vector< SiPixelGenErrorStore > &thePixelTemp_)
int templ_version
Version number of the template to ensure code compatibility.
float cotbeta
cot(beta) is proportional to cluster length in y and is basis of interpolation
std::vector< float > sVector() const
int ID
&lt; template header structure
float sxone
rms for one pixel x-clusters
int j
Definition: DBlmapReader.cc:9
float fluence
radiation fluence in n_eq/cm^2
#define LOGERROR(x)
float dytwo
mean offset/correction for one double-pixel y-clusters
int NTy
number of Template y entries
float qscale
Charge scaling to match cmssw and pixelav.
float dxtwo
mean offset/correction for one double-pixel x-clusters
SiPixelGenErrorHeader head
&lt; template storage structure
float ysize
pixel size (for future use in upgraded geometry)
char title[80]
template title
float sytwo
rms for one double-pixel y-clusters
float lorywidth
estimate of y-lorentz width for optimal resolution
#define ENDL
float yavggen[4]
generic algorithm: average y-bias of reconstruction binned in 4 charge bins
float dyone
mean offset/correction for one pixel y-clusters
const std::vector< SiPixelGenErrorStore > & thePixelTemp_
int Dtype
detector type (0=BPix, 1=FPix)
int NTyx
number of Template y-slices of x entries
float xavggen[4]
generic algorithm: average x-bias of reconstruction binned in 4 charge bins
float pixmax
maximum charge for individual pixels in cluster
float sxtwo
rms for one double-pixel x-clusters
SiPixelGenErrorEntry entx[5][29]
29 Barrel x templates spanning cluster lengths from -6px (-1.125Rad) to +6px (+1.125Rad) in each of 5...
float lorybias
estimate of y-lorentz bias
float lorxwidth
estimate of x-lorentz width for optimal resolution
int SiPixelGenError::qbin ( int  id,
float  cotalpha,
float  cotbeta,
float  locBz,
float  qclus,
float &  pixmx,
float &  sigmay,
float &  deltay,
float &  sigmax,
float &  deltax,
float &  sy1,
float &  dy1,
float &  sy2,
float &  dy2,
float &  sx1,
float &  dx1,
float &  sx2,
float &  dx2 
)

Definition at line 463 of file SiPixelGenError.cc.

References funct::abs(), assert(), Exception, f, i, cmsHarvester::index, j, and mathSSE::sqrt().

Referenced by PixelCPEGeneric::localPosition().

467 {
468  // Interpolate for a new set of track angles
469 
470 
471  // Find the index corresponding to id
472 
473 
474  if(id != id_current_) {
475 
476  index_id_ = -1;
477  for( int i=0; i<(int)thePixelTemp_.size(); ++i) {
478  if(id == thePixelTemp_[i].head.ID) {
479  index_id_ = i;
480  id_current_ = id;
481  lorywidth_ = thePixelTemp_[i].head.lorywidth;
482  lorxwidth_ = thePixelTemp_[i].head.lorxwidth;
483  lorybias_ = thePixelTemp_[i].head.lorybias;
484  lorxbias_ = thePixelTemp_[i].head.lorxbias;
485  for(int j=0; j<3; ++j) {fbin_[j] = thePixelTemp_[i].head.fbin[j];}
486 
487  // Pixel sizes to the private variables
488 
489  xsize_ = thePixelTemp_[i].head.xsize;
490  ysize_ = thePixelTemp_[i].head.ysize;
491  zsize_ = thePixelTemp_[i].head.zsize;
492 
493  break;
494  }
495  }
496  }
497 
498  int index = index_id_;
499 
500 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
501  if(index < 0 || index >= (int)thePixelTemp_.size()) {
502  throw cms::Exception("DataCorrupt") << "SiPixelGenError::qbin can't find needed GenError ID = " << id << std::endl;
503  }
504 #else
505  assert(index >= 0 && index < (int)thePixelTemp_.size());
506 #endif
507 
508  //
509 
510 
511  auto const & templ = thePixelTemp_[index];
512 
513  // Interpolate the absolute value of cot(beta)
514 
515  auto acotb = std::abs(cotbeta);
516 
517  // qcorrect corrects the cot(alpha)=0 cluster charge for non-zero cot(alpha)
518 
519  auto cotalpha0 = thePixelTemp_[index].enty[0].cotalpha;
520  auto qcorrect=std::sqrt((1.f+cotbeta*cotbeta+cotalpha*cotalpha)/(1.f+cotbeta*cotbeta+cotalpha0*cotalpha0));
521 
522  // for some cosmics, the ususal gymnastics are incorrect
523 
524  float cotb; bool flip_y;
525  if(thePixelTemp_[index].head.Dtype == 0) {
526  cotb = acotb;
527  flip_y = false;
528  if(cotbeta < 0.f) {flip_y = true;}
529  } else {
530  if(locBz < 0.f) {
531  cotb = cotbeta;
532  flip_y = false;
533  } else {
534  cotb = -cotbeta;
535  flip_y = true;
536  }
537  }
538 
539  // Copy the charge scaling factor to the private variable
540 
541  auto qscale = thePixelTemp_[index].head.qscale;
542 
543 
544  /*
545  lorywidth = thePixelTemp_[index].head.lorywidth;
546  if(locBz > 0.f) {lorywidth = -lorywidth;}
547  lorxwidth = thePixelTemp_[index].head.lorxwidth;
548  */
549 
550 
551  auto Ny = thePixelTemp_[index].head.NTy;
552  auto Nyx = thePixelTemp_[index].head.NTyx;
553  auto Nxx = thePixelTemp_[index].head.NTxx;
554 
555 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
556  if(Ny < 2 || Nyx < 1 || Nxx < 2) {
557  throw cms::Exception("DataCorrupt") << "GenError ID = " << id_current_ << "has too few entries: Ny/Nyx/Nxx = " << Ny << "/" << Nyx << "/" << Nxx << std::endl;
558  }
559 #else
560  assert(Ny > 1 && Nyx > 0 && Nxx > 1);
561 #endif
562 
563  // next, loop over all y-angle entries
564 
565  auto ilow = 0;
566  auto ihigh = 0;
567  auto yratio = 0.f;
568 
569  {
570  auto j = std::lower_bound(templ.cotbetaY,templ.cotbetaY+Ny,cotb);
571  if (j==templ.cotbetaY+Ny) { --j; yratio = 1.f; }
572  else if (j==templ.cotbetaY) { ++j; yratio = 0.f;}
573  else { yratio = (cotb - (*(j-1)) )/( (*j) - (*(j-1)) ) ; }
574 
575  ihigh = j-templ.cotbetaY;
576  ilow = ihigh-1;
577  }
578 
579 
580 
581  // Interpolate/store all y-related quantities (flip displacements when flip_y)
582 
583  dy1 = (1.f - yratio)*thePixelTemp_[index].enty[ilow].dyone + yratio*thePixelTemp_[index].enty[ihigh].dyone;
584  if(flip_y) {dy1 = -dy1;}
585  sy1 = (1.f - yratio)*thePixelTemp_[index].enty[ilow].syone + yratio*thePixelTemp_[index].enty[ihigh].syone;
586  dy2 = (1.f - yratio)*thePixelTemp_[index].enty[ilow].dytwo + yratio*thePixelTemp_[index].enty[ihigh].dytwo;
587  if(flip_y) {dy2 = -dy2;}
588  sy2 = (1.f - yratio)*thePixelTemp_[index].enty[ilow].sytwo + yratio*thePixelTemp_[index].enty[ihigh].sytwo;
589 
590  auto qavg = (1.f - yratio)*thePixelTemp_[index].enty[ilow].qavg + yratio*thePixelTemp_[index].enty[ihigh].qavg;
591  qavg *= qcorrect;
592  auto qmin = (1.f - yratio)*thePixelTemp_[index].enty[ilow].qmin + yratio*thePixelTemp_[index].enty[ihigh].qmin;
593  qmin *= qcorrect;
594  auto qmin2 = (1.f - yratio)*thePixelTemp_[index].enty[ilow].qmin2 + yratio*thePixelTemp_[index].enty[ihigh].qmin2;
595  qmin2 *= qcorrect;
596 
597 
598 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
599  if(qavg <= 0.f || qmin <= 0.f) {
600  throw cms::Exception("DataCorrupt") << "SiPixelGenError::qbin, qavg or qmin <= 0,"
601  << " Probably someone called the generic pixel reconstruction with an illegal trajectory state" << std::endl;
602  }
603 #else
604  assert(qavg > 0.f && qmin > 0.f);
605 #endif
606 
607  // Scale the input charge to account for differences between pixelav and CMSSW simulation or data
608 
609  auto qtotal = qscale*qclus;
610 
611  // uncertainty and final corrections depend upon total charge bin
612 
613  auto fq = qtotal/qavg;
614  int binq;
615  if(fq > fbin_[0]) {
616  binq=0;
617  } else {
618  if(fq > fbin_[1]) {
619  binq=1;
620  } else {
621  if(fq > fbin_[2]) {
622  binq=2;
623  } else {
624  binq=3;
625  }
626  }
627  }
628 
629  auto yavggen =(1.f - yratio)*thePixelTemp_[index].enty[ilow].yavggen[binq] + yratio*thePixelTemp_[index].enty[ihigh].yavggen[binq];
630  if(flip_y) {yavggen = -yavggen;}
631  auto yrmsgen =(1.f - yratio)*thePixelTemp_[index].enty[ilow].yrmsgen[binq] + yratio*thePixelTemp_[index].enty[ihigh].yrmsgen[binq];
632 
633 
634  // next, loop over all x-angle entries, first, find relevant y-slices
635 
636  auto iylow = 0;
637  auto iyhigh = 0;
638  auto yxratio = 0.f;
639 
640 
641  {
642  auto j = std::lower_bound(templ.cotbetaX,templ.cotbetaX+Nyx,acotb);
643  if (j==templ.cotbetaX+Nyx) { --j; yxratio = 1.f; }
644  else if (j==templ.cotbetaX) { ++j; yxratio = 0.f;}
645  else { yxratio = (acotb - (*(j-1)) )/( (*j) - (*(j-1)) ) ; }
646 
647  iyhigh = j-templ.cotbetaX;
648  iylow = iyhigh -1;
649  }
650 
651 
652 
653  ilow = ihigh = 0;
654  auto xxratio = 0.f;
655 
656  {
657  auto j = std::lower_bound(templ.cotalphaX,templ.cotalphaX+Nxx,cotalpha);
658  if (j==templ.cotalphaX+Nxx) { --j; xxratio = 1.f; }
659  else if (j==templ.cotalphaX) { ++j; xxratio = 0.f;}
660  else { xxratio = (cotalpha - (*(j-1)) )/( (*j) - (*(j-1)) ) ; }
661 
662  ihigh = j-templ.cotalphaX;
663  ilow = ihigh-1;
664  }
665 
666 
667 
668  dx1 = (1.f - xxratio)*thePixelTemp_[index].entx[0][ilow].dxone + xxratio*thePixelTemp_[index].entx[0][ihigh].dxone;
669  sx1 = (1.f - xxratio)*thePixelTemp_[index].entx[0][ilow].sxone + xxratio*thePixelTemp_[index].entx[0][ihigh].sxone;
670  dx2 = (1.f - xxratio)*thePixelTemp_[index].entx[0][ilow].dxtwo + xxratio*thePixelTemp_[index].entx[0][ihigh].dxtwo;
671  sx2 = (1.f - xxratio)*thePixelTemp_[index].entx[0][ilow].sxtwo + xxratio*thePixelTemp_[index].entx[0][ihigh].sxtwo;
672 
673  // pixmax is the maximum allowed pixel charge (used for truncation)
674 
675  pixmx=(1.f - yxratio)*((1.f - xxratio)*thePixelTemp_[index].entx[iylow][ilow].pixmax + xxratio*thePixelTemp_[index].entx[iylow][ihigh].pixmax)
676  +yxratio*((1.f - xxratio)*thePixelTemp_[index].entx[iyhigh][ilow].pixmax + xxratio*thePixelTemp_[index].entx[iyhigh][ihigh].pixmax);
677 
678  auto xavggen = (1.f - yxratio)*((1.f - xxratio)*thePixelTemp_[index].entx[iylow][ilow].xavggen[binq] + xxratio*thePixelTemp_[index].entx[iylow][ihigh].xavggen[binq])
679  +yxratio*((1.f - xxratio)*thePixelTemp_[index].entx[iyhigh][ilow].xavggen[binq] + xxratio*thePixelTemp_[index].entx[iyhigh][ihigh].xavggen[binq]);
680 
681  auto xrmsgen = (1.f - yxratio)*((1.f - xxratio)*thePixelTemp_[index].entx[iylow][ilow].xrmsgen[binq] + xxratio*thePixelTemp_[index].entx[iylow][ihigh].xrmsgen[binq])
682  +yxratio*((1.f - xxratio)*thePixelTemp_[index].entx[iyhigh][ilow].xrmsgen[binq] + xxratio*thePixelTemp_[index].entx[iyhigh][ihigh].xrmsgen[binq]);
683 
684 
685 
686  // Take the errors and bias from the correct charge bin
687 
688  sigmay = yrmsgen; deltay = yavggen;
689 
690  sigmax = xrmsgen; deltax = xavggen;
691 
692  // If the charge is too small (then flag it)
693 
694  if(qtotal < 0.95f*qmin) {binq = 5;} else {if(qtotal < 0.95f*qmin2) {binq = 4;}}
695 
696  return binq;
697 
698 } // qbin
float xsize_
Pixel x-size.
int i
Definition: DBlmapReader.cc:9
float lorxbias_
Lorentz x-width.
float lorywidth_
Lorentz y-width (sign corrected for fpix frame)
assert(m_qm.get())
float ysize_
Pixel y-size.
T sqrt(T t)
Definition: SSEVec.h:48
float fbin_[3]
The QBin definitions in Q_clus/Q_avg.
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
double f[11][100]
float zsize_
Pixel z-size (thickness)
float lorxwidth_
Lorentz x-width.
int id_current_
current id
const std::vector< SiPixelGenErrorStore > & thePixelTemp_
float lorybias_
Lorentz y-width (sign corrected for fpix frame)
int index_id_
current index
int SiPixelGenError::qbin ( int  id)

Interpolate beta/alpha angles to produce an expected average charge. Return int (0-4) describing the charge of the cluster [0: 1.5<Q/Qavg, 1: 1<Q/Qavg<1.5, 2: 0.85<Q/Qavg<1, 3: 0.95Qmin<Q<0.85Qavg, 4: Q<0.95Qmin].

Parameters
id- (input) index of the GenError to use
cotalpha- (input) the cotangent of the alpha track angle (see CMS IN 2004/014)
cotbeta- (input) the cotangent of the beta track angle (see CMS IN 2004/014)
locBz- (input) the sign of this quantity is used to determine whether to flip cot(beta)<0 quantities from cot(beta)>0 (FPix only) for FPix IP-related tracks, locBz < 0 for cot(beta) > 0 and locBz > 0 for cot(beta) < 0
qclus- (input) the cluster charge in electrons
pixmax- (output) the maximum pixel charge in electrons (truncation value)
sigmay- (output) the estimated y-error for CPEGeneric in microns
deltay- (output) the estimated y-bias for CPEGeneric in microns
sigmax- (output) the estimated x-error for CPEGeneric in microns
deltax- (output) the estimated x-bias for CPEGeneric in microns
sy1- (output) the estimated y-error for 1 single-pixel clusters in microns
dy1- (output) the estimated y-bias for 1 single-pixel clusters in microns
sy2- (output) the estimated y-error for 1 double-pixel clusters in microns
dy2- (output) the estimated y-bias for 1 double-pixel clusters in microns
sx1- (output) the estimated x-error for 1 single-pixel clusters in microns
dx1- (output) the estimated x-bias for 1 single-pixel clusters in microns
sx2- (output) the estimated x-error for 1 double-pixel clusters in microns
dx2- (output) the estimated x-bias for 1 double-pixel clusters in microns

Definition at line 432 of file SiPixelGenError.cc.

References i.

432  {
433  // Find the index corresponding to id
434 
435  if(id != id_current_) {
436 
437  index_id_ = -1;
438  for( int i=0; i<(int)thePixelTemp_.size(); ++i) {
439  if(id == thePixelTemp_[i].head.ID) {
440  index_id_ = i;
441  id_current_ = id;
442  //
443  lorywidth_ = thePixelTemp_[i].head.lorywidth;
444  lorxwidth_ = thePixelTemp_[i].head.lorxwidth;
445  lorybias_ = thePixelTemp_[i].head.lorybias;
446  lorxbias_ = thePixelTemp_[i].head.lorxbias;
447 
448  //for(int j=0; j<3; ++j) {fbin_[j] = thePixelTemp_[i].head.fbin[j];}
449 
450  // Pixel sizes to the private variables
451  xsize_ = thePixelTemp_[i].head.xsize;
452  ysize_ = thePixelTemp_[i].head.ysize;
453  zsize_ = thePixelTemp_[i].head.zsize;
454 
455  break;
456  }
457  }
458  }
459  return index_id_;
460 }
float xsize_
Pixel x-size.
int i
Definition: DBlmapReader.cc:9
float lorxbias_
Lorentz x-width.
float lorywidth_
Lorentz y-width (sign corrected for fpix frame)
float ysize_
Pixel y-size.
float zsize_
Pixel z-size (thickness)
float lorxwidth_
Lorentz x-width.
int id_current_
current id
const std::vector< SiPixelGenErrorStore > & thePixelTemp_
float lorybias_
Lorentz y-width (sign corrected for fpix frame)
int index_id_
current index
float SiPixelGenError::xsize ( )
inline

pixel x-size (microns)

Definition at line 135 of file SiPixelGenError.h.

References xsize_.

float SiPixelGenError::ysize ( )
inline

pixel y-size (microns)

Definition at line 136 of file SiPixelGenError.h.

References ysize_.

float SiPixelGenError::zsize ( )
inline

pixel z-size or thickness (microns)

Definition at line 137 of file SiPixelGenError.h.

References zsize_.

Member Data Documentation

float SiPixelGenError::fbin_[3]
private

The QBin definitions in Q_clus/Q_avg.

Definition at line 153 of file SiPixelGenError.h.

Referenced by fbin().

int SiPixelGenError::id_current_
private

current id

Definition at line 143 of file SiPixelGenError.h.

Referenced by SiPixelGenError().

int SiPixelGenError::index_id_
private

current index

Definition at line 144 of file SiPixelGenError.h.

Referenced by SiPixelGenError().

float SiPixelGenError::lorxbias_
private

Lorentz x-width.

Definition at line 151 of file SiPixelGenError.h.

Referenced by lorxbias().

float SiPixelGenError::lorxwidth_
private

Lorentz x-width.

Definition at line 149 of file SiPixelGenError.h.

Referenced by lorxwidth().

float SiPixelGenError::lorybias_
private

Lorentz y-width (sign corrected for fpix frame)

Definition at line 152 of file SiPixelGenError.h.

Referenced by lorybias().

float SiPixelGenError::lorywidth_
private

Lorentz y-width (sign corrected for fpix frame)

Definition at line 150 of file SiPixelGenError.h.

Referenced by lorywidth().

const std::vector< SiPixelGenErrorStore >& SiPixelGenError::thePixelTemp_
private

Definition at line 161 of file SiPixelGenError.h.

float SiPixelGenError::xsize_
private

Pixel x-size.

Definition at line 154 of file SiPixelGenError.h.

Referenced by xsize().

float SiPixelGenError::ysize_
private

Pixel y-size.

Definition at line 155 of file SiPixelGenError.h.

Referenced by ysize().

float SiPixelGenError::zsize_
private

Pixel z-size (thickness)

Definition at line 156 of file SiPixelGenError.h.

Referenced by zsize().