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/data/refman/pasoursint/CMSSW_6_1_1/src/L1TriggerConfig/DTTPGConfig/src/DTConfigBti.cc

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00001 //-------------------------------------------------
00002 //
00003 //   Class: DTConfigBti
00004 //
00005 //   Description: Configurable parameters and constants for Level1 Mu DT Trigger - BTI chip
00006 //
00007 //
00008 //   Author List:
00009 //   S.Vanini
00010 //
00011 //   Modifications:
00012 //   April,10th : set BTI parameters from string
00013 //-----------------------------------------------------------------------
00014 
00015 //-----------------------
00016 // This Class's Header --
00017 //-----------------------
00018 #include "L1TriggerConfig/DTTPGConfig/interface/DTConfigBti.h"
00019 #include "FWCore/Utilities/interface/Exception.h"
00020 
00021 //---------------
00022 // C++ Headers --
00023 //---------------
00024 #include <cstdlib>
00025 #include <string>  
00026 #include <iostream>
00027 #include <fstream>
00028 #include <stdio.h>
00029 #include <stdlib.h>
00030 #include <math.h>
00031 #include <iomanip>
00032                
00033 //-------------------------------
00034 // Collaborating Class Headers --
00035 //-------------------------------
00036 
00037 //----------------
00038 // Constructors --
00039 //----------------
00040 DTConfigBti::DTConfigBti(const edm::ParameterSet& ps) { 
00041 
00042   setDefaults(ps);
00043   
00044 }
00045 
00046 DTConfigBti::DTConfigBti(int debugBTI, unsigned short int * buffer) {
00047 
00048         m_debug = debugBTI;
00049 
00050         // check if this is a BTI configuration string
00051         if (buffer[2]!=0x54){
00052                 throw cms::Exception("DTTPG") << "===> ConfigBti constructor : not a BTI string!" << std::endl;
00053         }
00054 
00055         // decode
00056         unsigned short int memory_bti[31];
00057         for(int i=0;i<31;i++){
00058                 memory_bti[i] = buffer[i+5];
00059                 //std::cout << hex << memory_bti[i] << "  ";
00060         }
00061         int wmask[9];
00062         int st43 = memory_bti[0] & 0x3f;
00063         wmask[6] = memory_bti[1] & 0x01;
00064         wmask[7] = (memory_bti[1] >> 1 )& 0x01;
00065         wmask[8] = (memory_bti[1] >> 2 )& 0x01;
00066         int re43 = (memory_bti[1] >> 4 )& 0x03;
00067         wmask[0] = memory_bti[2] & 0x01;
00068         wmask[1] = (memory_bti[2] >> 1) & 0x01;
00069         wmask[2] = (memory_bti[2] >> 2 )& 0x01;
00070         wmask[3] = (memory_bti[2] >> 3 )& 0x01;
00071         wmask[4] = (memory_bti[2] >> 4 )& 0x01;
00072         wmask[5] = (memory_bti[2] >> 5 )& 0x01;
00073         int dead = memory_bti[3] & 0x3F;
00074         int LH =  memory_bti[4] & 0x3F;
00075         int LL =  memory_bti[5] & 0x3F;
00076         int CH =  memory_bti[6] & 0x3F;
00077         int CL =  memory_bti[7] & 0x3F;
00078         int RH =  memory_bti[8] & 0x3F;
00079         int RL =  memory_bti[9] & 0x3F;
00080         int tston = ( memory_bti[10] & 0x20 ) != 0 ;
00081         int test = ( memory_bti[10] & 0x10 ) != 0 ;
00082         int ten = ( memory_bti[10] & 0x8 ) != 0 ;
00083         int xon = ( memory_bti[10] & 0x2 ) != 0 ;
00084         int ron = ( memory_bti[10] & 0x1 ) != 0 ;
00085         int set = ( memory_bti[11] & 0x38 ) >> 3 ;
00086         int lts = ( memory_bti[11] & 0x6 ) >> 1 ;
00087         int ac1 = ( memory_bti[12] & 0x30 ) >> 4 ;
00088         int ac2 = ( memory_bti[12] & 0xc ) >> 2 ;
00089         int acl = ( memory_bti[12] & 0x3 ) ;
00090         int ach = ( memory_bti[13] & 0x30 ) >> 4 ;
00091 
00092         int pmask[32];
00093         for(int ir=0; ir<6; ir++)
00094         {
00095                 pmask[0+6*ir] = memory_bti[19-ir] & 0x01;
00096                 pmask[1+6*ir] = (memory_bti[19-ir] >> 1 )& 0x01;        
00097                 if(ir!=5)
00098                 {
00099                         pmask[2+6*ir] = (memory_bti[19-ir] >> 2 )& 0x01;                
00100                         pmask[3+6*ir] = (memory_bti[19-ir] >> 3 )& 0x01;
00101                         pmask[4+6*ir] = (memory_bti[19-ir] >> 4 )& 0x01;        
00102                         pmask[5+6*ir] = (memory_bti[19-ir] >> 5 )& 0x01;
00103                 }
00104         }       
00105         
00106         // dump
00107         if(debug()==1){
00108                std::cout << std::dec << "st43=" << st43
00109                 << " re43=" << re43
00110                 << " dead=" << dead
00111                 << " LH=" << LH
00112                 << " LL=" << LL
00113                 << " CH=" << CH
00114                 << " CL=" << CL
00115                 << " RH=" << RH
00116                 << " RL=" << RL
00117                 << " tston=" << tston
00118                 << " test=" << test
00119                 << " ten=" << ten
00120                 << " xon=" << xon
00121                 << " ron=" << ron
00122                 << " set=" << set
00123                 << " lts=" << lts
00124                 << " ac1=" << ac1
00125                 << " ac2=" << ac2
00126                 << " acl=" << acl
00127                 << " ach=" << ach
00128                 << std::endl;
00129                 std::cout << std::dec << " wire masks= ";
00130                 for(int iw=0; iw<9; iw++)
00131                         std::cout << wmask[iw] << " ";
00132                 std::cout << std::dec << "\n pattern masks= ";
00133                 for(int ip=0; ip<32; ip++)
00134                         std::cout << pmask[ip] << " ";
00135                 std::cout << std::endl;
00136         }
00137         
00138         // set parameters
00139         // default for KCut and KAccTheta
00140         setKCut(64);
00141         setKAccTheta(1);
00142 
00143         for(int ip=0; ip<32; ip++)
00144                 setPTMSflag(pmask[ip],ip);
00145 
00146         for(int iw=0; iw<9; iw++)
00147                 setWENflag(wmask[iw],iw+1);
00148 
00149         setST43(st43);
00150         setRE43(re43);
00151         setDEADpar(dead);
00152         setLL(LL);
00153         setLH(LH);
00154         setCL(CL);
00155         setCH(CH);
00156         setRL(RL);
00157         setRH(RH);
00158         setXON(xon);
00159         setRONflag(ron);
00160         setSET(set);
00161         setLTS(lts);
00162         setAccPattAC1(ac1);
00163         setAccPattAC2(ac2);
00164         setAccPattACH(ach);
00165         setAccPattACL(acl);
00166 } 
00167 
00168 //--------------
00169 // Destructor --
00170 //--------------
00171 DTConfigBti::~DTConfigBti() {}
00172 
00173 //--------------
00174 // Operations --
00175 //--------------
00176 
00177 void
00178 DTConfigBti::setDefaults(const edm::ParameterSet& ps) {
00179 
00180   // Debug flag 
00181   m_debug  = ps.getUntrackedParameter<int>("Debug");
00182 
00183   // Max K param accepted  
00184   m_kcut = ps.getParameter<int>("KMAX");
00185  
00186   // BTI angular acceptance in theta view
00187   m_kacctheta = ps.getParameter<int>("KACCTHETA");
00188 
00189   // Time indep. K equation suppression (XON) 
00190   m_xon = ps.getParameter<bool>("XON");
00191   // LTS and SET for low trigger suppression 
00192   m_lts = ps.getParameter<int>("LTS");
00193   m_set = ps.getParameter<int>("SET");
00194   // pattern acceptance AC1, AC2, ACH, ACL
00195   m_ac1 = ps.getParameter<int>("AC1");
00196   m_ac2 = ps.getParameter<int>("AC2");
00197   m_ach = ps.getParameter<int>("ACH");
00198   m_acl = ps.getParameter<int>("ACL");
00199   // redundant patterns flag RON
00200   m_ron = ps.getParameter<bool>("RON");
00201 
00202   // pattern masks
00203   for(int p=0; p<32; p++)
00204   {
00205         std::string label = "PTMS";
00206         char patt0 = (p/10)+'0';
00207         char patt1 = (p%10)+'0';
00208         if ( patt0 != '0' )
00209                 label = label + patt0;
00210         label = label + patt1;
00211         
00212         m_pattmask.set(p,ps.getParameter<int>(label));
00213   }
00214 
00215   // wire masks
00216   for(int w=0; w<9; w++)
00217   {
00218         std::string label = "WEN";
00219         char wname = w+'0';
00220         label = label + wname;
00221         
00222         m_wiremask.set(w,ps.getParameter<int>(label));
00223   }
00224 
00225   // angular window limits for traco
00226   m_ll = ps.getParameter<int>("LL");
00227   m_lh = ps.getParameter<int>("LH");
00228   m_cl = ps.getParameter<int>("CL");
00229   m_ch = ps.getParameter<int>("CH");
00230   m_rl = ps.getParameter<int>("RL");
00231   m_rh = ps.getParameter<int>("RH");
00232   // drift velocity parameter 4ST3
00233   m_4st3 = ps.getParameter<int>("ST43");
00234   // drift velocity parameter 4RE3
00235   m_4re3 = ps.getParameter<int>("RE43");
00236   // DEAD parameter
00237   m_dead = ps.getParameter<int>("DEAD");
00238 }
00239 
00240 void 
00241 DTConfigBti::print() const {
00242   std::cout << "******************************************************************************" << std::endl;
00243   std::cout << "*              DTTrigger configuration : BTI chips                                 *" << std::endl;
00244   std::cout << "******************************************************************************" << std::endl;
00245   std::cout << "*                                                                            *" << std::endl;
00246   std::cout << "Debug flag : " <<  debug() << std::endl;
00247   std::cout << "Max K param accepted : " << KCut() << std::endl; 
00248   std::cout << "BTI angular acceptance in theta view : " << KAccTheta() << std::endl;
00249   std::cout << "Time indep. K equation suppression (XON) : " << XON() << std::endl;
00250   std::cout << "LTS for low trigger suppression : " << LTS() << std::endl;
00251   std::cout << "SET for low trigger suppression : " << SET() << std::endl;
00252   std::cout << "pattern acceptance AC1, AC2, ACH, ACL : " << 
00253         AccPattAC1() << ", " << AccPattAC2() << " , " << AccPattACH() << ", " << AccPattACL() << std::endl;
00254   std::cout << "redundant patterns flag RON : " << RONflag() << std::endl;
00255   std::cout << "pattern masks : "; 
00256   for(int p=0; p<32; p++)
00257         std::cout << PTMSflag(p) << " ";
00258   std::cout << std::endl;
00259  
00260   std::cout << "wire masks : "; 
00261   for(int w=1; w<=9; w++)
00262         std::cout << WENflag(w) << " ";
00263   std::cout << std::endl;
00264 
00265   std::cout << "angular window limits for traco : " << LL() << ", " << LH() << ", " 
00266         << CL() << ", " << CH() << ", " << RL() << ", " << RH() << std::endl;
00267   std::cout << "drift velocity parameter 4ST3 : " << ST43() << std::endl;
00268   std::cout << "drift velocity parameter 4RE3 : " << RE43() << std::endl;  
00269   std::cout << "DEAD parameter : " << DEADpar() << std::endl;
00270 
00271   std::cout << "******************************************************************************" << std::endl;
00272 
00273 }