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/data/refman/pasoursint/CMSSW_4_4_5_patch3/src/RecoLocalTracker/SiPixelRecHits/interface/SiPixelTemplate.h

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00001 //
00002 //  SiPixelTemplate.h (v8.13)
00003 //
00004 //  Add goodness-of-fit info and spare entries to templates, version number in template header, more error checking
00005 //  Add correction for (Q_F-Q_L)/(Q_F+Q_L) bias
00006 //  Add cot(beta) reflection to reduce y-entries and more sophisticated x-interpolation
00007 //  Fix small index searching bug in interpolate method
00008 //  Change interpolation indexing to avoid complier complaining about possible un-initialized variables
00009 //  Replace containers with static arrays in calls to ysigma2 and xsigma2
00010 //  Add external threshold to calls to ysigma2 and xsigma2, fix parameter signal max for xsigma2
00011 //  Return to 5 pixel spanning but adjust boundaries to use only when needed
00012 //  Implement improved (faster) chi2min search that depends on pixel types
00013 //  Fill template arrays in single calls to this object
00014 //  Add qmin to the template
00015 //  Add qscale to match charge scales
00016 //  Small improvement to x-chisquare interpolation
00017 //  Enlarge SiPixelTemplateStore to accommodate larger templates and increased alpha acceptance (reduce PT threshold to ~200 MeV)
00018 //  Store x and y cluster sizes in fractional pixels to facilitate cluster splitting
00019 //  Keep interpolated central 9 template bins in private storage and expand/shift in the getter functions (faster for speed=2/3) and easier to build 3d templates
00020 //  Store error and bias information for the simple chi^2 min position analysis (no interpolation or Q_{FB} corrections) to use in cluster splitting
00021 //  To save time, the gaussian centers and sigma are not interpolated right now (they aren't currently used).  They can be restored by un-commenting lines in the interpolate method.
00022 //  Add a new method to calculate qbin for input cotbeta and cluster charge.  To be used for error estimation of merged clusters in PixelCPEGeneric.
00023 //  Add bias info for Barrel and FPix separately in the header
00024 //  Improve the charge estimation for larger cot(alpha) tracks
00025 //  Change interpolate method to return false boolean if track angles are outside of range
00026 //  Add template info and method for truncation information
00027 //  Change to allow template sizes to be changed at compile time
00028 //  Fix bug in track angle checking
00029 //  Accommodate Dave's new DB pushfile which overloads the old method (file input)
00030 //  Add CPEGeneric error information and expand qbin method to access useful info for PixelCPEGeneric
00031 //  Fix large cot(alpha) bug in qmin interpolation
00032 //  Add second qmin to allow a qbin=5 state
00033 //  Use interpolated chi^2 info for one-pixel clusters
00034 //  Separate BPix and FPix charge scales and thresholds
00035 //  Fix DB pushfile version number checking bug.
00036 //  Remove assert from qbin method
00037 //  Replace asserts with exceptions in CMSSW
00038 //  Change calling sequence to interpolate method to handle cot(beta)<0 for FPix cosmics
00039 //  Add getter for pixelav Lorentz width estimates to qbin method
00040 //  Add check on template size to interpolate and qbin methods
00041 //  Add qbin population information, charge distribution information
00042 //
00043 //  V7.00 - Decouple BPix and FPix information into separate templates
00044 //  Add methods to facilitate improved cluster splitting
00045 //  Fix small charge scaling bug (affects FPix only)
00046 //  Change y-slice used for the x-template to be closer to the actual cotalpha-cotbeta point 
00047 //  (there is some weak breakdown of x-y factorization in the FPix after irradiation)
00048 //
00049 //  V8.00 - Add method to calculate a simple 2D template
00050 //  Reorganize the interpolate method to extract header info only once per ID
00051 //  V8.01 - Improve simple template normalization
00052 //  V8.05 - Change qbin normalization to work better after irradiation
00053 //  V8.10 - Add Vavilov distribution interpolation
00054 //  V8.11 - Renormalize the x-templates for Guofan's cluster size calculation
00055 //  V8.12 - Technical fix to qavg issue.
00056 //  V8.13 - Fix qbin and fastsim interpolaters to avoid changing class variables
00057 //
00058 // Created by Morris Swartz on 10/27/06.
00059 // Copyright 2006 __TheJohnsHopkinsUniversity__. All rights reserved.
00060 //
00061 //
00062  
00063 // Build the template storage structure from several pieces 
00064 
00065 #ifndef SiPixelTemplate_h
00066 #define SiPixelTemplate_h 1
00067 
00068 #include "SiPixelTemplateDefs.h"
00069 
00070 #include<vector>
00071 #include<cassert>
00072 #include "boost/multi_array.hpp"
00073 
00074 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00075 #include "CondFormats/SiPixelObjects/interface/SiPixelTemplateDBObject.h"
00076 #include "FWCore/Utilities/interface/Exception.h"
00077 #endif
00078 
00079 typedef boost::multi_array<float, 3> array_3d;
00080 
00081 struct SiPixelTemplateEntry { 
00082   int runnum;              
00083   float alpha;             
00084   float cotalpha;          
00085   float beta;              
00086   float cotbeta;           
00087   float costrk[3];            
00088   float qavg;              
00089   float pixmax;            
00090   float symax;             
00091   float dyone;             
00092   float syone;             
00093   float sxmax;             
00094   float dxone;             
00095   float sxone;             
00096   float dytwo;             
00097   float sytwo;             
00098   float dxtwo;             
00099   float sxtwo;             
00100   float qmin;              
00101   float qmin2;             
00102   float clsleny;           
00103   float clslenx;           
00104   float mpvvav;            
00105   float sigmavav;          
00106   float kappavav;          
00107   float ypar[2][5];        
00108   float ytemp[9][TYSIZE];  
00109   float xpar[2][5];        
00110   float xtemp[9][TXSIZE];  
00111   float yavg[4];           
00112   float yrms[4];           
00113   float ygx0[4];           
00114   float ygsig[4];          
00115   float yflpar[4][6];      
00116   float xavg[4];           
00117   float xrms[4];           
00118   float xgx0[4];           
00119   float xgsig[4];          
00120   float xflpar[4][6];      
00121   float chi2yavg[4];       
00122   float chi2ymin[4];       
00123   float chi2xavg[4];       
00124   float chi2xmin[4];       
00125   float chi2yavgone;       
00126   float chi2yminone;       
00127   float chi2xavgone;       
00128   float chi2xminone;       
00129   float yavgc2m[4];        
00130   float yrmsc2m[4];        
00131   float ygx0c2m[4];        
00132   float ygsigc2m[4];       
00133   float xavgc2m[4];        
00134   float xrmsc2m[4];        
00135   float xgx0c2m[4];        
00136   float xgsigc2m[4];       
00137   float yavggen[4];        
00138   float yrmsgen[4];        
00139   float ygx0gen[4];        
00140   float ygsiggen[4];       
00141   float xavggen[4];        
00142   float xrmsgen[4];        
00143   float xgx0gen[4];        
00144   float xgsiggen[4];       
00145   float qbfrac[3];         
00146   float fracyone;          
00147   float fracxone;          
00148   float fracytwo;          
00149   float fracxtwo;          
00150   float qavg_avg;          
00151   float qavg_spare;        
00152   float spare[4];
00153 } ;
00154 
00155 
00156 
00157 
00158 struct SiPixelTemplateHeader {           
00159   char title[80];         
00160   int ID;                 
00161   int templ_version;      
00162   float Bfield;           
00163   int NTy;                
00164   int NTyx;               
00165   int NTxx;               
00166   int Dtype;              
00167   float Vbias;            
00168   float temperature;      
00169   float fluence;          
00170   float qscale;           
00171   float s50;              
00172   float lorywidth;        
00173   float lorxwidth;        
00174   float xsize;            
00175   float ysize;            
00176   float zsize;            
00177 } ;
00178 
00179 
00180 
00181 struct SiPixelTemplateStore { 
00182   SiPixelTemplateHeader head;
00183   SiPixelTemplateEntry enty[60];     
00184   SiPixelTemplateEntry entx[5][29];  
00185 } ;
00186 
00187 
00188 // ******************************************************************************************
00206 // ******************************************************************************************
00207 class SiPixelTemplate {
00208  public:
00209   SiPixelTemplate() {id_current = -1; index_id = -1; cota_current = 0.; cotb_current = 0.;} 
00210   bool pushfile(int filenum);     // load the private store with info from the 
00211                                   // file with the index (int) filenum
00212                                                                   
00213 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00214   bool pushfile(const SiPixelTemplateDBObject& dbobject);     // load the private store with info from db
00215 #endif
00216   
00217         
00218 // Interpolate input alpha and beta angles to produce a working template for each individual hit. 
00219   bool interpolate(int id, float cotalpha, float cotbeta, float locBz);
00220         
00221 // overload for compatibility. 
00222   bool interpolate(int id, float cotalpha, float cotbeta);
00223   
00224 // retreive interpolated templates. 
00225   void ytemp(int fybin, int lybin, float ytemplate[41][BYSIZE]);
00226   
00227   void xtemp(int fxbin, int lxbin, float xtemplate[41][BXSIZE]);
00228   
00229 // new methods to build templates from two interpolated clusters (for splitting) 
00230   void ytemp3d(int nypix, array_3d& ytemplate);
00231   
00232   void xtemp3d(int nxpix, array_3d& xtemplate);
00233   
00234 // Convert vector of projected signals into uncertainties for fitting. 
00235   void ysigma2(int fypix, int lypix, float sythr, float ysum[BYSIZE], float ysig2[BYSIZE]);
00236         
00237   void ysigma2(float qpixel, int index, float& ysig2);
00238 
00239   void xsigma2(int fxpix, int lxpix, float sxthr, float xsum[BXSIZE], float xsig2[BXSIZE]);
00240   
00241 // Interpolate qfl correction in y. 
00242   float yflcorr(int binq, float qfly);
00243   
00244 // Interpolate qfl correction in x. 
00245   float xflcorr(int binq, float qflx);
00246   
00247 // Interpolate input beta angle to estimate the average charge. return qbin flag for input cluster charge, and estimate y/x errors and biases for the Generic Algorithm. 
00248   int qbin(int id, float cotalpha, float cotbeta, float locBz, float qclus, float& pixmx, float& sigmay, float& deltay, float& sigmax, float& deltax, 
00249            float& sy1, float& dy1, float& sy2, float& dy2, float& sx1, float& dx1, float& sx2, float& dx2, float& lorywidth, float& lorxwidth);
00250         
00251 // Overload for backward compatibility. 
00252         int qbin(int id, float cotalpha, float cotbeta, float locBz, float qclus, float& pixmx, float& sigmay, float& deltay, float& sigmax, float& deltax, 
00253                          float& sy1, float& dy1, float& sy2, float& dy2, float& sx1, float& dx1, float& sx2, float& dx2);
00254         
00255 // Overload to keep legacy interface 
00256   int qbin(int id, float cotbeta, float qclus);
00257         
00258 // Method to return template errors for fastsim
00259   void temperrors(int id, float cotalpha, float cotbeta, int qBin, float& sigmay, float& sigmax, float& sy1, float& sy2, float& sx1, float& sx2);
00260         
00261 //Method to return qbin and size probabilities for fastsim
00262   void qbin_dist(int id, float cotalpha, float cotbeta, float qbin_frac[4], float& ny1_frac, float& ny2_frac, float& nx1_frac, float& nx2_frac);
00263         
00264 //Method to calculate simple 2D templates 
00265   bool simpletemplate2D(float xhitp, float yhitp, std::vector<bool>& ydouble, std::vector<bool>& xdouble, float template2d[BXM2][BYM2]);
00266         
00267 //Method to interpolate Vavilov distribution parameters
00268   void vavilov_pars(double& mpv, double& sigma, double& kappa);
00269         
00270    
00271   float qavg() {return pqavg;}        
00272   float pixmax() {return ppixmax;}         
00273   float qscale() {return pqscale;}         
00274   float s50() {return ps50;}               
00275   float symax() {return psymax;}             
00276   float dyone() {return pdyone;}             
00277   float syone() {return psyone;}             
00278   float dytwo() {return pdytwo;}             
00279   float sytwo() {return psytwo;}            
00280   float sxmax() {return psxmax;}            
00281   float dxone() {return pdxone;}             
00282   float sxone() {return psxone;}             
00283   float dxtwo() {return pdxtwo;}             
00284   float sxtwo() {return psxtwo;}             
00285   float qmin() {return pqmin;}               
00286   float qmin(int i) {
00287 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00288           if(i < 0 || i > 1) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::qmin called with illegal index = " << i << std::endl;}
00289 #else
00290           assert(i>=0 && i<2); 
00291 #endif
00292      if(i==0){return pqmin;}else{return pqmin2;}} 
00293   float clsleny() {return pclsleny;}         
00294   float clslenx() {return pclslenx;}         
00295   float yratio() {return pyratio;}            
00296   float yxratio() {return pyxratio;}           
00297   float xxratio() {return pxxratio;}           
00298   float yavg(int i) {
00299 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00300           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::yavg called with illegal index = " << i << std::endl;}
00301 #else
00302           assert(i>=0 && i<4); 
00303 #endif
00304      return pyavg[i];}         
00305   float yrms(int i) {
00306 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00307           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::yrms called with illegal index = " << i << std::endl;}
00308 #else
00309           assert(i>=0 && i<4); 
00310 #endif
00311      return pyrms[i];}         
00312   float ygx0(int i) {
00313 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00314           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::ygx0 called with illegal index = " << i << std::endl;}
00315 #else
00316           assert(i>=0 && i<4); 
00317 #endif
00318      return pygx0[i];}         
00319   float ygsig(int i) {
00320 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00321           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::ygsig called with illegal index = " << i << std::endl;}
00322 #else     
00323      assert(i>=0 && i<4); 
00324 #endif
00325      return pygsig[i];}       
00326   float xavg(int i) {
00327 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00328           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xavg called with illegal index = " << i << std::endl;}
00329 #else     
00330           assert(i>=0 && i<4); 
00331 #endif
00332      return pxavg[i];}         
00333   float xrms(int i) {
00334 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00335           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xrms called with illegal index = " << i << std::endl;}
00336 #else     
00337           assert(i>=0 && i<4); 
00338 #endif
00339      return pxrms[i];}         
00340   float xgx0(int i) {
00341 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00342           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xgx0 called with illegal index = " << i << std::endl;}
00343 #else     
00344           assert(i>=0 && i<4); 
00345 #endif
00346      return pxgx0[i];}         
00347   float xgsig(int i) {
00348 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00349           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xgsig called with illegal index = " << i << std::endl;}
00350 #else     
00351           assert(i>=0 && i<4); 
00352 #endif
00353      return pxgsig[i];}       
00354   float chi2yavg(int i) {
00355 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00356           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::chi2yavg called with illegal index = " << i << std::endl;}
00357 #else     
00358           assert(i>=0 && i<4); 
00359 #endif
00360      return pchi2yavg[i];} 
00361   float chi2ymin(int i) {
00362 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00363           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::chi2ymin called with illegal index = " << i << std::endl;}
00364 #else             
00365      assert(i>=0 && i<4); 
00366 #endif
00367      return pchi2ymin[i];} 
00368   float chi2xavg(int i) {
00369 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00370           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::chi2xavg called with illegal index = " << i << std::endl;}
00371 #else     
00372           assert(i>=0 && i<4); 
00373 #endif
00374      return pchi2xavg[i];} 
00375   float chi2xmin(int i) {
00376 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00377           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::chi2xmin called with illegal index = " << i << std::endl;}
00378 #else     
00379           assert(i>=0 && i<4);
00380 #endif
00381      return pchi2xmin[i];} 
00382   float yavgc2m(int i) {
00383 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00384           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::yavgc2m called with illegal index = " << i << std::endl;}
00385 #else     
00386           assert(i>=0 && i<4); 
00387 #endif
00388      return pyavgc2m[i];}   
00389   float yrmsc2m(int i) {
00390 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00391           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::yrmsc2m called with illegal index = " << i << std::endl;}
00392 #else             
00393      assert(i>=0 && i<4); 
00394 #endif
00395      return pyrmsc2m[i];}   
00396   float ygx0c2m(int i) {
00397 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00398           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::ygx0c2m called with illegal index = " << i << std::endl;}
00399 #else     
00400           assert(i>=0 && i<4); 
00401 #endif
00402      return pygx0c2m[i];}   
00403   float ygsigc2m(int i) {
00404 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00405           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::ygsigc2m called with illegal index = " << i << std::endl;}
00406 #else     
00407           assert(i>=0 && i<4); 
00408 #endif
00409      return pygsigc2m[i];} 
00410   float xavgc2m(int i) {
00411 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00412           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xavgc2m called with illegal index = " << i << std::endl;}
00413 #else     
00414           assert(i>=0 && i<4); 
00415 #endif
00416      return pxavgc2m[i];}   
00417   float xrmsc2m(int i) {
00418 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00419           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xrmsc2m called with illegal index = " << i << std::endl;}
00420 #else     
00421           assert(i>=0 && i<4); 
00422 #endif
00423      return pxrmsc2m[i];}   
00424   float xgx0c2m(int i) {
00425 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00426           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xgx0cm2 called with illegal index = " << i << std::endl;}
00427 #else     
00428           assert(i>=0 && i<4); 
00429 #endif
00430      return pxgx0c2m[i];}   
00431   float xgsigc2m(int i) {
00432 #ifndef SI_PIXEL_TEMPLATE_STANDALONE
00433           if(i < 0 || i > 3) {throw cms::Exception("DataCorrupt") << "SiPixelTemplate::xgsigc2m called with illegal index = " << i << std::endl;}
00434 #else     
00435           assert(i>=0 && i<4); 
00436 #endif
00437      return pxgsigc2m[i];} 
00438   float chi2yavgone() {return pchi2yavgone;}                        
00439   float chi2yminone() {return pchi2yminone;}                        
00440   float chi2xavgone() {return pchi2xavgone;}                        
00441   float chi2xminone() {return pchi2xminone;}                        
00442   float lorywidth() {return plorywidth;}                            
00443   float lorxwidth() {return plorxwidth;}                            
00444   float mpvvav() {return pmpvvav;}                                  
00445   float sigmavav() {return psigmavav;}                              
00446   float kappavav() {return pkappavav;}                              
00447   float xsize() {return pxsize;}                                    
00448   float ysize() {return pysize;}                                    
00449   float zsize() {return pzsize;}                                    
00450 //  float yspare(int i) {assert(i>=0 && i<5); return pyspare[i];}    //!< vector of 5 spares interpolated in beta only
00451 //  float xspare(int i) {assert(i>=0 && i<10); return pxspare[i];}    //!< vector of 10 spares interpolated in alpha and beta
00452   
00453   
00454  private:
00455   
00456   // Keep current template interpolaion parameters      
00457   
00458   int id_current;           
00459   int index_id;             
00460   float cota_current;       
00461   float cotb_current;       
00462   float abs_cotb;           
00463   bool success;             
00464   
00465   
00466   // Keep results of last interpolation to return through member functions
00467   
00468   float pqavg;              
00469   float ppixmax;            
00470   float pqscale;            
00471   float ps50;               
00472   float psymax;             
00473   float psyparmax;          
00474   float pdyone;             
00475   float psyone;             
00476   float pdytwo;             
00477   float psytwo;             
00478   float psxmax;             
00479   float psxparmax;          
00480   float pdxone;             
00481   float psxone;             
00482   float pdxtwo;             
00483   float psxtwo;             
00484   float pqmin;              
00485   float pclsleny;           
00486   float pclslenx;           
00487   float pyratio;            
00488   float pyparl[2][5];       
00489   float pyparh[2][5];       
00490   float pxparly0[2][5];     
00491   float pxparhy0[2][5];     
00492   float pytemp[9][BYSIZE];  
00493   float pyxratio;           
00494   float pxxratio;           
00495   float pxpar0[2][5];       
00496   float pxparl[2][5];       
00497   float pxparh[2][5];       
00498   float pxtemp[9][BXSIZE];  
00499   float pyavg[4];           
00500   float pyrms[4];           
00501   float pygx0[4];           
00502   float pygsig[4];          
00503   float pyflparl[4][6];     
00504   float pyflparh[4][6];     
00505   float pxavg[4];           
00506   float pxrms[4];           
00507   float pxgx0[4];           
00508   float pxgsig[4];           
00509   float pxflparll[4][6];    
00510   float pxflparlh[4][6];    
00511   float pxflparhl[4][6];    
00512   float pxflparhh[4][6];    
00513   float pchi2yavg[4];       
00514   float pchi2ymin[4];       
00515   float pchi2xavg[4];       
00516   float pchi2xmin[4];       
00517   float pyavgc2m[4];        
00518   float pyrmsc2m[4];        
00519   float pygx0c2m[4];        
00520   float pygsigc2m[4];       
00521   float pxavgc2m[4];        
00522   float pxrmsc2m[4];        
00523   float pxgx0c2m[4];        
00524   float pxgsigc2m[4];       
00525   float pchi2yavgone;       
00526   float pchi2yminone;       
00527   float pchi2xavgone;       
00528   float pchi2xminone;       
00529   float pqmin2;             
00530   float pmpvvav;            
00531   float psigmavav;          
00532   float pkappavav;          
00533   float plorywidth;         
00534   float plorxwidth;         
00535   float pxsize;             
00536   float pysize;             
00537   float pzsize;             
00538   float pqavg_avg;          
00539 
00540   
00541   // The actual template store is a std::vector container
00542 
00543   std::vector< SiPixelTemplateStore > thePixelTemp;
00544 } ;
00545 
00546 
00547 #endif