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00001 //
00002 // F.Ratnikov (UMd), Dec 14, 2005
00003 // $Id: CastorDbHardcode.cc,v 1.3 2009/05/27 11:15:55 fabiocos Exp $
00004 // Adapted for Castor by L. Mundim
00005 //
00006 #include <vector>
00007 #include <string>
00008 
00009 #include "CLHEP/Random/RandGauss.h"
00010 #include "CondFormats/CastorObjects/interface/CastorElectronicsMap.h"
00011 #include "CalibCalorimetry/CastorCalib/interface/CastorDbHardcode.h"
00012 
00013 
00014 CastorPedestal CastorDbHardcode::makePedestal (HcalGenericDetId fId, bool fSmear) {
00015   CastorPedestalWidth width = makePedestalWidth (fId);
00016   float value0 = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 11. : 4.;  // fC
00017   float value [4] = {value0, value0, value0, value0};
00018   if (fSmear) {
00019     for (int i = 0; i < 4; i++) {
00020       value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i) / 100.); // ignore correlations, assume 10K pedestal run 
00021       while (value [i] <= 0) value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i));
00022     }
00023   }
00024   CastorPedestal result (fId.rawId (), 
00025                        value[0], value[1], value[2], value[3]
00026                        );
00027   return result;
00028 }
00029 
00030 CastorPedestalWidth CastorDbHardcode::makePedestalWidth (HcalGenericDetId fId) {
00031   float value = 0;
00032   /*
00033   if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel || 
00034       fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) value = 0.7;
00035   else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) value = 0.9;
00036   else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward) value = 2.5;
00037   */
00038   // everything in fC
00039   CastorPedestalWidth result (fId.rawId ());
00040   for (int i = 0; i < 4; i++) {
00041     double width = value;
00042     for (int j = 0; j < 4; j++) {
00043       result.setSigma (i, j, i == j ? width * width : 0);
00044     }
00045   } 
00046   return result;
00047 }
00048 
00049 CastorGain CastorDbHardcode::makeGain (HcalGenericDetId fId, bool fSmear) {
00050   CastorGainWidth width = makeGainWidth (fId);
00051   float value0 = 0;
00052   if (fId.genericSubdet() != HcalGenericDetId::HcalGenForward) value0 = 0.177;  // GeV/fC
00053   else {
00054     if (HcalDetId(fId).depth() == 1) value0 = 0.2146;
00055     else if (HcalDetId(fId).depth() == 2) value0 = 0.3375;
00056   }
00057   float value [4] = {value0, value0, value0, value0};
00058   if (fSmear) for (int i = 0; i < 4; i++) value [i] = CLHEP::RandGauss::shoot (value0, width.getValue (i)); 
00059   CastorGain result (fId.rawId (), value[0], value[1], value[2], value[3]);
00060   return result;
00061 }
00062 
00063 CastorGainWidth CastorDbHardcode::makeGainWidth (HcalGenericDetId fId) {
00064   float value = 0;
00065   CastorGainWidth result (fId.rawId (), value, value, value, value);
00066   return result;
00067 }
00068 
00069 CastorQIECoder CastorDbHardcode::makeQIECoder (HcalGenericDetId fId) {
00070   CastorQIECoder result (fId.rawId ());
00071   float offset = 0;
00072   float slope = fId.genericSubdet () == HcalGenericDetId::HcalGenForward ? 0.36 : 0.92;  // ADC/fC
00073   for (unsigned range = 0; range < 4; range++) {
00074     for (unsigned capid = 0; capid < 4; capid++) {
00075       result.setOffset (capid, range, offset);
00076       result.setSlope (capid, range, slope);
00077     }
00078   }
00079   return result;
00080 }
00081 
00082 CastorCalibrationQIECoder CastorDbHardcode::makeCalibrationQIECoder (HcalGenericDetId fId) {
00083   CastorCalibrationQIECoder result (fId.rawId ());
00084   float lowEdges [32];
00085   for (int i = 0; i < 32; i++) lowEdges[i] = -1.5 + i*0.35;
00086   result.setMinCharges (lowEdges);
00087   return result;
00088 }
00089 
00090 CastorQIEShape CastorDbHardcode::makeQIEShape () {
00091   return CastorQIEShape ();
00092 }
00093 
00094 
00095 #define EMAP_NHBHECR 9
00096 #define EMAP_NHFCR 3
00097 #define EMAP_NHOCR 4
00098 #define EMAP_NFBR 8
00099 #define EMAP_NFCH 3
00100 #define EMAP_NHTRS 3
00101 #define EMAP_NHSETS 4
00102 #define EMAP_NTOPBOT 2
00103 #define EMAP_NHTRSHO 4
00104 #define EMAP_NHSETSHO 3
00105 
00106 void CastorDbHardcode::makeHardcodeMap(CastorElectronicsMap& emap) {
00107 
00108   /* HBHE crate numbering */
00109   int hbhecrate[EMAP_NHBHECR]={0,1,4,5,10,11,14,15,17};
00110   /* HF crate numbering */
00111   int hfcrate[EMAP_NHFCR]={2,9,12};
00112   /* HO crate numbering */
00113   int hocrate[EMAP_NHOCR]={3,7,6,13};
00114   /* HBHE FED numbering of DCCs */
00115   int fedhbhenum[EMAP_NHBHECR][2]={{702,703},{704,705},{700,701},
00116                                    {706,707},{716,717},{708,709},
00117                                    {714,715},{710,711},{712,713}};
00118   /* HF FED numbering of DCCs */
00119   int fedhfnum[EMAP_NHFCR][2]={{718,719},{720,721},{722,723}};
00120   /* HO FED numbering of DCCs */
00121   int fedhonum[EMAP_NHOCR][2]={{724,725},{726,727},{728,729},{730,731}};
00122   /* HBHE/HF htr slot offsets for set of three htrs */
00123   int ihslot[EMAP_NHSETS]={2,5,13,16};
00124   /* HO htr slot offsets for three sets of four htrs */
00125   int ihslotho[EMAP_NHSETSHO][EMAP_NHTRSHO]={{2,3,4,5},{6,7,13,14},{15,16,17,18}};
00126   /* iphi (lower) starting index for each HBHE crate */
00127   int ihbhephis[EMAP_NHBHECR]={11,19,3,27,67,35,59,43,51};
00128   /* iphi (lower) starting index for each HF crate */
00129   int ihfphis[EMAP_NHFCR]={3,27,51};
00130   /* iphi (lower) starting index for each HO crate */
00131   int ihophis[EMAP_NHOCR]={71,17,35,53};
00132   /* ihbheetadepth - unique HBHE {eta,depth} assignments per fiber and fiber channel */
00133   int ihbheetadepth[EMAP_NHTRS][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2]={
00134     {{{{11,1},{ 7,1},{ 3,1}},  /* htr 0 (HB) -bot(+top) */
00135       {{ 5,1},{ 1,1},{ 9,1}},
00136       {{11,1},{ 7,1},{ 3,1}},
00137       {{ 5,1},{ 1,1},{ 9,1}},
00138       {{10,1},{ 6,1},{ 2,1}},
00139       {{ 8,1},{ 4,1},{12,1}},
00140       {{10,1},{ 6,1},{ 2,1}},
00141       {{ 8,1},{ 4,1},{12,1}}},
00142      {{{11,1},{ 7,1},{ 3,1}},  /* htr 0 (HB) +bot(-top) */
00143       {{ 5,1},{ 1,1},{ 9,1}},
00144       {{11,1},{ 7,1},{ 3,1}},
00145       {{ 5,1},{ 1,1},{ 9,1}},
00146       {{10,1},{ 6,1},{ 2,1}},
00147       {{ 8,1},{ 4,1},{12,1}},
00148       {{10,1},{ 6,1},{ 2,1}},
00149       {{ 8,1},{ 4,1},{12,1}}}},
00150     {{{{16,2},{15,2},{14,1}},  /* htr 1 (HBHE) -bot(+top) */
00151       {{15,1},{13,1},{16,1}},
00152       {{16,2},{15,2},{14,1}},
00153       {{15,1},{13,1},{16,1}},
00154       {{17,1},{16,3},{26,1}},
00155       {{18,1},{18,2},{26,2}},
00156       {{17,1},{16,3},{25,1}},
00157       {{18,1},{18,2},{25,2}}},
00158      {{{16,2},{15,2},{14,1}},  /* htr 1 (HBHE) +bot(-top) */
00159       {{15,1},{13,1},{16,1}},
00160       {{16,2},{15,2},{14,1}},
00161       {{15,1},{13,1},{16,1}},
00162       {{17,1},{16,3},{25,1}},
00163       {{18,1},{18,2},{25,2}},
00164       {{17,1},{16,3},{26,1}},
00165       {{18,1},{18,2},{26,2}}}},
00166     {{{{28,1},{28,2},{29,1}},  /* htr 2 (HE) -bot(+top) */
00167       {{28,3},{24,2},{24,1}},
00168       {{27,1},{27,2},{29,2}},
00169       {{27,3},{23,2},{23,1}},
00170       {{19,2},{20,1},{22,2}},
00171       {{19,1},{20,2},{22,1}},
00172       {{19,2},{20,1},{21,2}},
00173       {{19,1},{20,2},{21,1}}},
00174      {{{27,1},{27,2},{29,2}},  /* htr 2 (HE) +bot(-top) */
00175       {{27,3},{23,2},{23,1}},
00176       {{28,1},{28,2},{29,1}},
00177       {{28,3},{24,2},{24,1}},
00178       {{19,2},{20,1},{21,2}},
00179       {{19,1},{20,2},{21,1}},
00180       {{19,2},{20,1},{22,2}},
00181       {{19,1},{20,2},{22,1}}}}
00182   };
00183   /* ihfetadepth - unique HF {eta,depth} assignments per fiber and fiber channel */
00184   int ihfetadepth[EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2]={
00185     {{{33,1},{31,1},{29,1}},  /* top */
00186      {{32,1},{30,1},{34,1}},
00187      {{33,2},{31,2},{29,2}},
00188      {{32,2},{30,2},{34,2}},
00189      {{34,2},{32,2},{30,2}},
00190      {{31,2},{29,2},{33,2}},
00191      {{34,1},{32,1},{30,1}},
00192      {{31,1},{29,1},{33,1}}},
00193     {{{41,1},{37,1},{35,1}},  /* bot */
00194      {{38,1},{36,1},{39,1}},
00195      {{41,2},{37,2},{35,2}},
00196      {{38,2},{36,2},{39,2}},
00197      {{40,2},{38,2},{36,2}},
00198      {{37,2},{35,2},{39,2}},
00199      {{40,1},{38,1},{36,1}},
00200      {{37,1},{35,1},{39,1}}}
00201   };
00202   /* ihoetasidephi - unique HO {eta,side,phi} assignments per fiber and fiber channel */
00203   int ihoetasidephi[EMAP_NHTRSHO][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][3]={
00204     {{{{ 1,-1,0},{ 2,-1,0},{ 3,-1,0}},  /* htr 0 (HO) top */
00205       {{ 1,-1,1},{ 2,-1,1},{ 3,-1,1}},
00206       {{ 1,-1,2},{ 2,-1,2},{ 3,-1,2}},
00207       {{ 1,-1,3},{ 2,-1,3},{ 3,-1,3}},
00208       {{ 1,-1,4},{ 2,-1,4},{ 3,-1,4}},
00209       {{ 1,-1,5},{ 2,-1,5},{ 3,-1,5}},
00210       {{14, 1,0},{14, 1,1},{14, 1,2}},
00211       {{14, 1,3},{14, 1,4},{14, 1,5}}},
00212      {{{ 1, 1,0},{ 2, 1,0},{ 3, 1,0}},  /* htr 0 (HO) bot */
00213       {{ 1, 1,1},{ 2, 1,1},{ 3, 1,1}},
00214       {{ 1, 1,2},{ 2, 1,2},{ 3, 1,2}},
00215       {{ 1, 1,3},{ 2, 1,3},{ 3, 1,3}},
00216       {{ 1, 1,4},{ 2, 1,4},{ 3, 1,4}},
00217       {{ 1, 1,5},{ 2, 1,5},{ 3, 1,5}},
00218       {{15, 1,0},{15, 1,1},{15, 1,2}},
00219       {{15, 1,3},{15, 1,4},{15, 1,5}}}},
00220     {{{{ 6, 1,0},{ 6, 1,1},{ 6, 1,2}},  /* htr 1 (HO) top */
00221       {{ 6, 1,3},{ 6, 1,4},{ 6, 1,5}},
00222       {{ 7, 1,0},{ 7, 1,1},{ 7, 1,2}},
00223       {{ 7, 1,3},{ 7, 1,4},{ 7, 1,5}},
00224       {{ 8, 1,0},{ 8, 1,1},{ 8, 1,2}},
00225       {{ 8, 1,3},{ 8, 1,4},{ 8, 1,5}},
00226       {{ 9, 1,0},{ 9, 1,1},{ 9, 1,2}},
00227       {{ 9, 1,3},{ 9, 1,4},{ 9, 1,5}}},
00228      {{{10, 1,0},{10, 1,1},{10, 1,2}},  /* htr 1 (HO) bot */
00229       {{10, 1,3},{10, 1,4},{10, 1,5}},
00230       {{11, 1,0},{11, 1,1},{11, 1,2}},
00231       {{11, 1,3},{11, 1,4},{11, 1,5}},
00232       {{12, 1,0},{12, 1,1},{12, 1,2}},
00233       {{12, 1,3},{12, 1,4},{12, 1,5}},
00234       {{13, 1,0},{13, 1,1},{13, 1,2}},
00235       {{13, 1,3},{13, 1,4},{13, 1,5}}}},
00236     {{{{ 4,-1,0},{ 4,-1,1},{ 0, 0,0}},  /* htr 2 (HO) top */
00237       {{ 4,-1,2},{ 4,-1,3},{ 0, 0,0}},
00238       {{ 4,-1,4},{ 4,-1,5},{ 0, 0,0}},
00239       {{ 0, 0,0},{ 0, 0,0},{ 0, 0,0}},
00240       {{ 5,-1,0},{ 5,-1,1},{ 5,-1,2}},
00241       {{ 5,-1,3},{ 5,-1,4},{ 5,-1,5}},
00242       {{14,-1,0},{14,-1,1},{14,-1,2}},
00243       {{14,-1,3},{14,-1,4},{14,-1,5}}},
00244      {{{ 4, 1,0},{ 4, 1,1},{ 0, 0,0}},  /* htr 2 (HO) bot */
00245       {{ 4, 1,2},{ 4, 1,3},{ 0, 0,0}},
00246       {{ 4, 1,4},{ 4, 1,5},{ 0, 0,0}},
00247       {{ 0, 0,0},{ 0, 0,0},{ 0, 0,0}},
00248       {{ 5, 1,0},{ 5, 1,1},{ 5, 1,2}},
00249       {{ 5, 1,3},{ 5, 1,4},{ 5, 1,5}},
00250       {{15,-1,0},{15,-1,1},{15,-1,2}},
00251       {{15,-1,3},{15,-1,4},{15,-1,5}}}},
00252     {{{{ 6,-1,0},{ 6,-1,1},{ 6,-1,2}},  /* htr 3 (HO) top */
00253       {{ 6,-1,3},{ 6,-1,4},{ 6,-1,5}},
00254       {{ 7,-1,0},{ 7,-1,1},{ 7,-1,2}},
00255       {{ 7,-1,3},{ 7,-1,4},{ 7,-1,5}},
00256       {{ 8,-1,0},{ 8,-1,1},{ 8,-1,2}},
00257       {{ 8,-1,3},{ 8,-1,4},{ 8,-1,5}},
00258       {{ 9,-1,0},{ 9,-1,1},{ 9,-1,2}},
00259       {{ 9,-1,3},{ 9,-1,4},{ 9,-1,5}}},
00260      {{{10,-1,0},{10,-1,1},{10,-1,2}},  /* htr 3 (HO) bot */
00261       {{10,-1,3},{10,-1,4},{10,-1,5}},
00262       {{11,-1,0},{11,-1,1},{11,-1,2}},
00263       {{11,-1,3},{11,-1,4},{11,-1,5}},
00264       {{12,-1,0},{12,-1,1},{12,-1,2}},
00265       {{12,-1,3},{12,-1,4},{12,-1,5}},
00266       {{13,-1,0},{13,-1,1},{13,-1,2}},
00267       {{13,-1,3},{13,-1,4},{13,-1,5}}}} 
00268   };
00269   int ic,is,ih,itb,ifb,ifc,ifwtb,iphi_loc;
00270   int iside,ieta,iphi,idepth,icrate,ihtr,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed;
00271   std::string det;
00272   std::string fpga;
00273   // printf("      side       eta       phi     depth       det     crate       htr      fpga    htr_fi     fi_ch     spigo       dcc    dcc_sl     fedid\n");
00274   /* all HBHE crates */
00275   for(ic=0; ic<EMAP_NHBHECR; ic++){
00276     /* four sets of three htrs per crate */
00277     for(is=0; is<EMAP_NHSETS; is++){
00278       /* three htrs per set */
00279       for(ih=0; ih<EMAP_NHTRS; ih++){
00280         /* top and bottom */
00281         for(itb=0; itb<EMAP_NTOPBOT; itb++){
00282           /* eight fibers per HTR FPGA */
00283           for(ifb=0; ifb<EMAP_NFBR; ifb++){
00284             /* three channels per fiber */
00285             for(ifc=0; ifc<EMAP_NFCH; ifc++){
00286               icrate=hbhecrate[ic];
00287               iside=is<EMAP_NHSETS/2?-1:1;
00288               ifwtb=(is/2+itb+1)%2;
00289               ieta=ihbheetadepth[ih][ifwtb][ifb][ifc][0];
00290               idepth=ihbheetadepth[ih][ifwtb][ifb][ifc][1];
00291               ihtr=ihslot[is]+ih;
00292               det=((ieta>16||idepth>2)?("HE"):("HB"));
00293               fpga=((itb%2)==1)?("bot"):("top");
00294               ihtr_fi=ifb+1;
00295               ifi_ch=ifc;
00296               iphi=(ieta>20)?(ihbhephis[ic]+(is%2)*4+itb*2-1)%72+1:(ihbhephis[ic]+(is%2)*4+itb*2+(ifb/2+is/2+1)%2-1)%72+1;
00297               ispigot=(is%2)*6+ih*2+itb;
00298               idcc=is<EMAP_NHSETS/2?1:2;
00299               idcc_sl=idcc==1?9:19;
00300               ifed=fedhbhenum[ic][idcc-1];
00302               CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
00303               elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
00304               HcalDetId hId((det=="HB")?(HcalBarrel):(HcalEndcap),ieta*iside,iphi,idepth);
00305               emap.mapEId2chId(elId,hId);
00306               
00307               //              printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
00308             }}}}}}
00309   /* all HF crates */
00310   for(ic=0; ic<EMAP_NHFCR; ic++){
00311     /* four sets of three htrs per crate */
00312     for(is=0; is<EMAP_NHSETS; is++){
00313       /* three htrs per set */
00314       for(ih=0; ih<EMAP_NHTRS; ih++){
00315         /* top and bottom */
00316         for(itb=0; itb<EMAP_NTOPBOT; itb++){
00317           /* eight fibers per HTR FPGA */
00318           for(ifb=0; ifb<EMAP_NFBR; ifb++){
00319             /* three channels per fiber */
00320             for(ifc=0; ifc<EMAP_NFCH; ifc++){
00321               icrate=hfcrate[ic];
00322               iside=is<EMAP_NHSETS/2?-1:1;
00323               ieta=ihfetadepth[itb][ifb][ifc][0];
00324               idepth=ihfetadepth[itb][ifb][ifc][1];
00325               ihtr=ihslot[is]+ih;
00326               det="HF";
00327               fpga=((itb%2)==1)?("bot"):("top");
00328               ihtr_fi=ifb+1;
00329               ifi_ch=ifc;
00330               iphi=(ieta>39)?(ihfphis[ic]+(is%2)*12+ih*4-3)%72+1:(ihfphis[ic]+(is%2)*12+ih*4+(ifb/4)*2-1)%72+1;
00331               ispigot=(is%2)*6+ih*2+itb;
00332               idcc=is<EMAP_NHSETS/2?1:2;
00333               idcc_sl=idcc==1?9:19;
00334               ifed=fedhfnum[ic][idcc-1];
00335               CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
00336               elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
00337               HcalDetId hId(HcalForward,ieta*iside,iphi,idepth);
00338               emap.mapEId2chId(elId,hId);
00339               // printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
00340             }}}}}}
00341   /* all HO crates */
00342   for(ic=0; ic<EMAP_NHOCR; ic++){
00343     /* three sets of four htrs per crate */
00344     for(is=0; is<EMAP_NHSETSHO; is++){
00345       /* four htrs per set */
00346       for(ih=0; ih<EMAP_NHTRSHO; ih++){
00347         /* top and bottom */
00348         for(itb=0; itb<EMAP_NTOPBOT; itb++){
00349           /* eight fibers per HTR FPGA */
00350           for(ifb=0; ifb<EMAP_NFBR; ifb++){
00351             /* three channels per fiber */
00352             for(ifc=0; ifc<EMAP_NFCH; ifc++){
00353               icrate=hocrate[ic];
00354               idepth=1;
00355               ieta=ihoetasidephi[ih][itb][ifb][ifc][0];
00356               iside=ihoetasidephi[ih][itb][ifb][ifc][1];
00357               iphi_loc=ihoetasidephi[ih][itb][ifb][ifc][2];
00358               ihtr=ihslotho[is][ih];
00359               det="HO";
00360               fpga=((itb%2)==1)?("bot"):("top");
00361               ihtr_fi=ifb+1;
00362               ifi_ch=ifc;
00363               iphi=(ihophis[ic]+is*6+iphi_loc-1)%72+1;
00364               ispigot=ihtr<9?(ihtr-2)*2+itb:(ihtr-13)*2+itb;
00365               idcc=ihtr<9?1:2;
00366               idcc_sl=idcc==1?9:19;
00367               ifed=fedhonum[ic][idcc-1];
00368               CastorElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
00369               elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
00370               if (ieta==0) { // unmapped 
00371                 emap.mapEId2chId(elId,DetId(HcalDetId::Undefined));
00372               } else {
00373                 HcalDetId hId(HcalOuter,ieta*iside,iphi,idepth+3); // HO is officially "depth=4"
00374                 emap.mapEId2chId(elId,hId);
00375               }
00376               // printf(" %9d %9d %9d %9d %9s %9d %9d %9s %9d %9d %9d %9d %9d %9d\n",iside,ieta,iphi,idepth,&det,icrate,ihtr,&fpga,ihtr_fi,ifi_ch,ispigot,idcc,idcc_sl,ifed);
00377             }}}}}}
00378   
00379 
00380   emap.sort();
00381 
00382 }