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HcalDbHardcode.cc
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HcalDbHardcode.cc
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//
// F.Ratnikov (UMd), Dec 14, 2005
//
#include <vector>
#include <string>
#include "CLHEP/Random/RandGauss.h"
#include "CalibCalorimetry/HcalAlgos/interface/HcalDbHardcode.h"
HcalPedestal HcalDbHardcode::makePedestal (HcalGenericDetId fId, bool fSmear) {
HcalPedestalWidth width = makePedestalWidth (fId);
float value0 = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 11. : 18.; // fC
if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) value0 = 10.;
float value [4] = {value0, value0, value0, value0};
if (fSmear) {
for (int i = 0; i < 4; i++) {
value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i) / 100.); // ignore correlations, assume 10K pedestal run
while (value [i] <= 0) value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i));
}
}
HcalPedestal result (fId.rawId (),
value[0], value[1], value[2], value[3]
);
return result;
}
HcalPedestal HcalDbHardcode::makePedestal (HcalGenericDetId fId, bool fSmear, double lumi) {
HcalPedestalWidth width = makePedestalWidth (fId, lumi);
// float value0 = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 11. : 18.; // fC
// Temporary disabling of lumi-dependent pedestal to avoid it being too big
// for TDC evaluations...
// float value0 = 4.* width.getWidth(0); // to be far enough from 0
float value0 = fId.genericSubdet() == HcalGenericDetId::HcalGenForward ? 11. : 18.; // fC
float value [4] = {value0, value0, value0, value0};
if (fSmear) {
for (int i = 0; i < 4; i++) {
value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i) / 100.); // ignore correlations, assume 10K pedestal run
while (value [i] <= 0) value [i] = CLHEP::RandGauss::shoot (value0, width.getWidth (i));
}
}
HcalPedestal result (fId.rawId (),
value[0], value[1], value[2], value[3]
);
return result;
}
HcalPedestalWidth HcalDbHardcode::makePedestalWidth (HcalGenericDetId fId) {
float value = 0;
if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel) value = 5.0;
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) value = 5.0;
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) value = 1.5;
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward)value = 2.0;
// everything in fC
HcalPedestalWidth result (fId.rawId ());
for (int i = 0; i < 4; i++) {
double width = value;
for (int j = 0; j < 4; j++) {
result.setSigma (i, j, i == j ? width * width : 0);
}
}
return result;
}
// Upgrade option with lumi dependence, assuming factor ~20 for HB
// while factor ~8 (~2.5 less) for HE at 3000 fb-1
// Tab.1.6 (p.10) and Fig. 5.7 (p.91) of HCAL Upgrade TDR
HcalPedestalWidth HcalDbHardcode::makePedestalWidth (HcalGenericDetId fId, double lumi) {
float value = 0;
double eff_lumi = lumi - 200.; // offset to account for actual putting of SiPMs into
// operations
if(eff_lumi < 0.) eff_lumi = 0.;
if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel)
value = 5.0 + 1.7 * sqrt(eff_lumi);
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap)
value = 5.0 + 0.7 * sqrt(eff_lumi);
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) value = 1.5;
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward)value = 2.0;
// everything in fC
/*
if (fId.isHcalDetId()) {
HcalDetId cell = HcalDetId(fId);
int sub = cell.subdet();
int dep = cell.depth();
int ieta = cell.ieta();
int iphi = cell.iphi();
std::cout << "HCAL subdet " << sub << " (" << ieta << "," << iphi
<< "," << dep << ") " << " noise = " << value << std::endl;
}
*/
HcalPedestalWidth result (fId.rawId ());
for (int i = 0; i < 4; i++) {
double width = value;
for (int j = 0; j < 4; j++) {
result.setSigma (i, j, i == j ? width * width : 0);
}
}
return result;
}
HcalMCParam HcalDbHardcode::makeMCParam (HcalGenericDetId fId) {
/*
std::cout << std::endl << " HcalDbHardcode::makeMCParam fId "
<< fId
<< " fId.genericSubdet() = " << fId.genericSubdet() << std::endl;
if(fId.isHcalZDCDetId()) {
std::cout << "... ZDC " << std::endl;
HcalZDCDetId cell(fId);
int side = cell.zside();
int depth = cell.depth();
int ch = cell.channel();
std::cout << "ZDC side/depth/chanel = "
<< side << " " << depth << " " << ch
<< std::endl;
}
else if (fId.isHcalDetId()) {
HcalDetId cell = HcalDetId(fId);
int sub = cell.subdet();
int dep = cell.depth();
int ieta = cell.ieta();
int iphi = cell.iphi();
std::cout << " HCAL "
<< " subdet " << sub << " ieta " << ieta << " iphi " << iphi
<< " depth " << dep << std::endl;
}
else { std::cout << "...Something else ! " << std::endl; }
*/
int r1bit[5];
int pulseShapeID = 125; r1bit[0] = 9; // [0,9]
int syncPhase = 0; r1bit[1] = 1;
int binOfMaximum = 0; r1bit[2] = 4;
float phase = -25.0; // [-25.0,25.0]
float Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
int Iphase = Xphase; r1bit[3] = 8; // [0,256] offset 50ns, .25ns step
int timeSmearing = 0; r1bit[4] = 1; // bool
if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel) {
syncPhase = 1; // a0 bool
binOfMaximum = 5; // a1
phase = 5.0; // a2 [-25.0,25.0]
Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase;
timeSmearing = 1; // a3
pulseShapeID = 201; // a4 201 - Zecotec shape
// 202 - Hamamatsu
}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) {
syncPhase = 1; // a0 bool
binOfMaximum = 5; // a1
phase = 5.0; // a2 [-25.0,25.0]
Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase;
timeSmearing = 1; // a3
pulseShapeID = 201; // a4
}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) {
syncPhase = 1; // a0 bool
binOfMaximum = 5; // a1
phase = 5.0; // a2 [-25.0,25.0]
Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase;
timeSmearing = 0; // a3
pulseShapeID = 201; // a4
HcalDetId cell = HcalDetId(fId);
if (cell.ieta() == 1 && cell.iphi() == 1) pulseShapeID = 125;
}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward) {
syncPhase = 1; // a0 bool
binOfMaximum = 3; // a1
phase = 14.0; // a2 [-25.0,25.0]
Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase;
timeSmearing = 0; // a3
pulseShapeID = 301; // a4
}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenZDC) {
// std::cout << " >>> ZDC " << std::endl;
syncPhase = 1; // a0 bool
binOfMaximum = 5; // a1
phase = -4.0; // a2 [-25.0,25.0]
Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase;
timeSmearing = 0; // a3
pulseShapeID = 401; // a4
}
int rshift[7];
rshift[0]=0;
for(int k=0; k<5; k++) {
int j=k+1;
rshift[j]=rshift[k]+r1bit[k];
// cout<<" j= "<<j<<" shift "<< rshift[j]<<endl;
}
int packingScheme = 1;
unsigned int param = pulseShapeID |
syncPhase<<rshift[1] |
(binOfMaximum << rshift[2]) |
(Iphase << rshift[3]) |
(timeSmearing << rshift[4] | packingScheme << 27);
/*
int a0 = param%512;
int a1 = (param/512)%2;
int a2 = (param/(512*2))%16;
int a3 = (param/(512*2*16))%256;
int a4 = (param/(512*2*16*256))%2;
a3 = (a3/4)-32;
int a5 = (param/(512*2*16*256*2*16))%16;
*/
// unpacking a la CondFormats/HcalObjects/interface/HcalMCParam.h
/*
int shape = param&0x1FF;
syncPhase = (param>>9)&0x1;
binOfMaximum = (param>>10)&0xF;
int timePhase = ((param>>14)&0xFF)/4-32;
timeSmearing = (param>>22)&0x1;
int packingSc = (param>>27)&0xF;
std::cout << " shape " << shape << " sync.phase " << syncPhase
<< " binOfMaximum " << binOfMaximum
<< " timePhase " << timePhase
<< " timeSmear " << timeSmearing
<< " packingSc " << packingSc
<< std::endl;
*/
/*
if(shape != a0)
{ std::cout <<" error shape " << shape
<< " a0 " << a0 << std::endl; }
if(syncPhase != a1)
{ std::cout << " error syncPhase " << syncPhase
<< " a1 " << a1 << std::endl; }
if(binOfMaximum != a2)
{ std::cout << " error binOfMaximum " << binOfMaximum
<< " a2 " << a2 << std::endl; }
if(timePhase != a3)
{ std::cout << " error timePhase " << timePhase
<< " a3 " << a3 << std::endl; }
if(timeSmearing != a4)
{ std::cout << " error timeSmearing " << timeSmearing
<< " a4 " << a4 << std::endl; }
if(packingSc != a5)
{ std::cout << " error packing sceme " << packingSc
<< " a5 " << a5 << std::endl; }
*/
HcalMCParam result(fId.rawId(), param);
return result;
}
HcalRecoParam HcalDbHardcode::makeRecoParam (HcalGenericDetId fId) {
/*
if (fId.isHcalDetId()) {
HcalDetId cell = HcalDetId(fId);
int sub = cell.subdet();
int dep = cell.depth();
int ieta = cell.ieta();
int iphi = cell.iphi();
std::cout << " HCAL "
<< " subdet " << sub << " ieta " << ieta << " iphi " << iphi
<< " depth " << dep << std::endl;
}
*/
// Mostly comes from S.Kunori's macro
int p1bit[6];
// param1
int containmentCorrectionFlag = 0; p1bit[0]=1; // bool
int containmentCorrectionPreSample = 0; p1bit[1]=1; // bool
float phase = 13.0; // [-25.0,25.0]
float Xphase = (phase + 32.0) * 4.0; //never change this line
// (offset 50nsec, 0.25ns step)
int Iphase = Xphase; p1bit[2]=8; // [0,256]
// (offset 50ns, 0.25ns step
int firstSample = 4; p1bit[3]=4; // [0,9]
int samplesToAdd = 2; p1bit[4]=4; // [0,9]
int pulseShapeID = 105; p1bit[5]=9; // [0,9]
int q2bit[10];
// param2.
int useLeakCorrection = 0; q2bit[0]=1; // bool
int LeakCorrectionID = 0; q2bit[1]=4; // [0,15]
int correctForTimeslew = 0; q2bit[2]=1; // bool
int timeCorrectionID = 0; q2bit[3]=4; // [0,15]
int correctTiming = 0; q2bit[4]=1; // bool
int firstAuxTS = 0; q2bit[5]=4; // [0,15]
int specialCaseID = 0; q2bit[6]=4; // [0,15]
int noiseFlaggingID = 0; q2bit[7]=4; // [0,15]
int pileupCleaningID = 0; q2bit[8]=4; // [0,15]
int packingScheme = 1; q2bit[9]=4;
if((fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel) ||
(fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap)) {
// param1.
containmentCorrectionFlag = 1; // p0
containmentCorrectionPreSample = 0; // p1
float phase = 25.0;
float Xphase = (phase + 32.0) * 4.0; // never change this line
//(offset 50nsec, 0.25ns step)
Iphase = Xphase; // p2
firstSample = 4; // p3
samplesToAdd = 2; // p4
pulseShapeID = 201; // p5
// param2.
useLeakCorrection = 0; // q0
LeakCorrectionID = 0; // q1
correctForTimeslew = 1; // q2
timeCorrectionID = 0; // q3
correctTiming = 1; // q4
firstAuxTS = 4; // q5
specialCaseID = 0; // q6
noiseFlaggingID = 1; // q7
pileupCleaningID = 0; // q8
}
else if(fId.genericSubdet() == HcalGenericDetId::HcalGenOuter ) {
// param1.
containmentCorrectionFlag = 1; // p0
containmentCorrectionPreSample = 0; // p1
float phase = 13.0;
float Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase; // p2
firstSample = 4; // p3
samplesToAdd = 4; // p4
pulseShapeID = 201; // p5
// param2.
useLeakCorrection = 0; // q0
LeakCorrectionID = 0; // q1
correctForTimeslew = 1; // q2
timeCorrectionID = 0; // q3
correctTiming = 1; // q4
firstAuxTS = 4; // q5
specialCaseID = 0; // q6
noiseFlaggingID = 1; // q7
pileupCleaningID = 0; // q8
}
else if(fId.genericSubdet() == HcalGenericDetId::HcalGenForward ) {
// param1.
containmentCorrectionFlag = 0; // p0
containmentCorrectionPreSample = 0; // p1
float phase = 13.0;
float Xphase = (phase + 32.0) * 4.0; // never change this line
// (offset 50nsec, 0.25ns step)
Iphase = Xphase; // p2
pulseShapeID = 301; // p5
firstSample = 2; // p3
samplesToAdd = 1; // p4
pulseShapeID = 301; // p5
// param2.
useLeakCorrection = 0; // q0
LeakCorrectionID = 0; // q1
correctForTimeslew = 0; // q2
timeCorrectionID = 0; // q3
correctTiming = 1; // q4
firstAuxTS = 1; // q5
specialCaseID = 0; // q6
noiseFlaggingID = 1; // q7
pileupCleaningID = 0; // q8
}
// Packing parameters in two words
int p1shift[7]; p1shift[0] = 0;
for(int k = 0; k < 6; k++) {
int j = k + 1;
p1shift[j] = p1shift[k] + p1bit[k];
// cout<<" j= "<<j<<" shift "<< p1shift[j]<<endl;
}
int param1 = 0;
param1 = containmentCorrectionFlag |
(containmentCorrectionPreSample << p1shift[1]) |
(Iphase << p1shift[2]) |
(firstSample << p1shift[3]) |
(samplesToAdd << p1shift[4]) |
(pulseShapeID << p1shift[5]) ;
int q2shift[10]; q2shift[0] = 0;
for(int k = 0; k < 9; k++) {
int j = k + 1;
q2shift[j] = q2shift[k] + q2bit[k];
// cout<<" j= "<<j<<" shift "<< q2shift[j]<<endl;
}
int param2 = 0;
param2 = useLeakCorrection |
(LeakCorrectionID << q2shift[1]) |
(correctForTimeslew << q2shift[2]) |
(timeCorrectionID << q2shift[3]) |
(correctTiming << q2shift[4]) |
(firstAuxTS << q2shift[5]) |
(specialCaseID << q2shift[6]) |
(noiseFlaggingID << q2shift[7]) |
(pileupCleaningID << q2shift[8]) |
(packingScheme << q2shift[9]) ;
// Test printout
/*
int a0=param1%2;
int a1=(param1/2)%2;
int a2=(param1/(2*2))%256;
int a3=(param1/(2*2*256))%16;
int a4=(param1/(2*2*256*16))%16;
int a5=(param1/(2*2*256*16*16))%512;
a2=(a2/4)-32;
int b0=param2%2;
int b1=(param2/2)%16;
int b2=(param2/(2*16))%2;
int b3=(param2/(2*16*2))%16;
int b4=(param2/(2*16*2*16))%2;
int b5=(param2/(2*16*2*16*2))%16;
int b6=(param2/(2*16*2*16*2*16))%16;
int b7=(param2/(2*16*2*16*2*16*16))%16;
int b8=(param2/(2*16*2*16*2*16*16*16))%16;
int b9=(param2/(2*16*2*16*2*16*16*16*16))%16;
std::cout << " param1 (a012) " << a0 << " " <<a1 << " " << a2
<< " (a345) " << a3 << " " << a4 << " "<< a5
<< " param2 (b012) " << b0 << " " << b1 << " " <<b2
<< " (b345) " << b3 << " " << b4 << " " << b5
<< " (b678) " << b6 << " " << b7 << " " << b8 << " b9 " << b9
<< std::endl;
*/
HcalRecoParam result(fId.rawId(), param1, param2);
return result;
}
HcalTimingParam HcalDbHardcode::makeTimingParam (HcalGenericDetId fId) {
int nhits = 0;
float phase = 0.0;
float rms = 0.0;
if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel) {nhits=4; phase = 4.5; rms = 6.5;}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) {nhits=4;phase = 9.3; rms = 7.8;}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) {nhits=4;phase = 8.6; rms = 2.3;}
else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward) {nhits=4;phase = 12.4; rms = 12.29;}
HcalTimingParam result(fId.rawId(), nhits,phase, rms);
return result;
}
HcalGain HcalDbHardcode::makeGain (HcalGenericDetId fId, bool fSmear) {
HcalGainWidth width = makeGainWidth (fId);
float value0 = 0;
static float const hbhevalue = 1./90./10.; //90 is pe/GeV 10 is fC/pe.
if (fId.genericSubdet() == HcalGenericDetId::HcalGenBarrel) {
HcalDetId hid(fId);
if (hid.depth() == 1) value0 = hbhevalue;
else if (hid.depth() == 2) value0 = hbhevalue;
else if (hid.depth() == 3) value0 = hbhevalue;
else if (hid.depth() == 4) value0 = hbhevalue;
else value0 = hbhevalue; // GeV/fC
} else if (fId.genericSubdet() == HcalGenericDetId::HcalGenEndcap) {
HcalDetId hid(fId);
if (hid.depth() == 1) value0 = hbhevalue;
else if (hid.depth() == 2) value0 = hbhevalue;
else if (hid.depth() == 3) value0 = hbhevalue;
else if (hid.depth() == 4) value0 = hbhevalue;
else value0 = hbhevalue; // GeV/fC
// if (fId.genericSubdet() != HcalGenericDetId::HcalGenForward) value0 = 0.177; // GeV/fC
} else if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) {
HcalDetId hid(fId);
if ((hid.ieta() > -5) && (hid.ieta() < 5))
value0 = 0.0125;
else
value0 = 0.02083; // GeV/fC
} else if (fId.genericSubdet() == HcalGenericDetId::HcalGenForward) {
HcalDetId hid(fId);
if (hid.depth() == 1) value0 = 0.2146;
else if (hid.depth() == 2) value0 = 0.3375;
} else value0 = hbhevalue; // GeV/fC
float value [4] = {value0, value0, value0, value0};
if (fSmear) for (int i = 0; i < 4; i++) value [i] = CLHEP::RandGauss::shoot (value0, width.getValue (i));
HcalGain result (fId.rawId (), value[0], value[1], value[2], value[3]);
return result;
}
HcalGainWidth HcalDbHardcode::makeGainWidth (HcalGenericDetId fId) {
float value = 0;
HcalGainWidth result (fId.rawId (), value, value, value, value);
return result;
}
HcalQIECoder HcalDbHardcode::makeQIECoder (HcalGenericDetId fId) {
HcalQIECoder result (fId.rawId ());
float offset = 0.0;
float slope = fId.genericSubdet () == HcalGenericDetId::HcalGenForward ?
0.36 : 0.333; // ADC/fC
// qie8/qie10 attribution - 0/1
if (fId.genericSubdet() == HcalGenericDetId::HcalGenOuter) {
slope = 1.0;
}
for (unsigned range = 0; range < 4; range++) {
for (unsigned capid = 0; capid < 4; capid++) {
result.setOffset (capid, range, offset);
result.setSlope (capid, range, slope);
}
}
return result;
}
HcalCalibrationQIECoder HcalDbHardcode::makeCalibrationQIECoder (HcalGenericDetId fId) {
HcalCalibrationQIECoder result (fId.rawId ());
float lowEdges [64];
for (int i = 0; i < 64; i++) lowEdges[i] = -1.5 + i*1.0;
result.setMinCharges (lowEdges);
return result;
}
HcalQIEShape HcalDbHardcode::makeQIEShape () {
// std::cout << " !!! HcalDbHardcode::makeQIEShape " << std::endl;
return HcalQIEShape ();
}
#define EMAP_NHBHECR 9
#define EMAP_NHFCR 3
#define EMAP_NHOCR 4
#define EMAP_NFBR 8
#define EMAP_NFCH 3
#define EMAP_NHTRS 3
#define EMAP_NHSETS 4
#define EMAP_NTOPBOT 2
#define EMAP_NHTRSHO 4
#define EMAP_NHSETSHO 3
void HcalDbHardcode::makeHardcodeDcsMap(HcalDcsMap& dcs_map) {
dcs_map.mapGeomId2DcsId(HcalDetId(HcalBarrel, -16, 1, 1),
HcalDcsDetId(HcalDcsBarrel, -1, 1, HcalDcsDetId::HV, 2));
dcs_map.mapGeomId2DcsId(HcalDetId(HcalForward, -41, 3, 1),
HcalDcsDetId(HcalDcsForward, -1, 1, HcalDcsDetId::DYN8, 1));
dcs_map.mapGeomId2DcsId(HcalDetId(HcalForward, -26, 25, 2),
HcalDcsDetId(HcalDcsForward, -1, 7, HcalDcsDetId::HV, 1));
dcs_map.mapGeomId2DcsId(HcalDetId(HcalBarrel, -15, 68, 1),
HcalDcsDetId(HcalDcsBarrel, -1, 18, HcalDcsDetId::HV, 3));
dcs_map.mapGeomId2DcsId(HcalDetId(HcalOuter, -14, 1, 4),
HcalDcsDetId(HcalDcsOuter, -2, 2, HcalDcsDetId::HV, 4));
dcs_map.mapGeomId2DcsId(HcalDetId(HcalForward, 41, 71, 2),
HcalDcsDetId(HcalDcsForward, 1, 4, HcalDcsDetId::DYN8, 3));
}
void HcalDbHardcode::makeHardcodeMap(HcalElectronicsMap& emap) {
/* HBHE crate numbering */
int hbhecrate[EMAP_NHBHECR]={0,1,4,5,10,11,14,15,17};
/* HF crate numbering */
int hfcrate[EMAP_NHFCR]={2,9,12};
/* HO crate numbering */
int hocrate[EMAP_NHOCR]={3,7,6,13};
/* HBHE FED numbering of DCCs */
int fedhbhenum[EMAP_NHBHECR][2]={{702,703},{704,705},{700,701},
{706,707},{716,717},{708,709},
{714,715},{710,711},{712,713}};
/* HF FED numbering of DCCs */
int fedhfnum[EMAP_NHFCR][2]={{718,719},{720,721},{722,723}};
/* HO FED numbering of DCCs */
int fedhonum[EMAP_NHOCR][2]={{724,725},{726,727},{728,729},{730,731}};
/* HBHE/HF htr slot offsets for set of three htrs */
int ihslot[EMAP_NHSETS]={2,5,13,16};
/* HO htr slot offsets for three sets of four htrs */
int ihslotho[EMAP_NHSETSHO][EMAP_NHTRSHO]={{2,3,4,5},{6,7,13,14},{15,16,17,18}};
/* iphi (lower) starting index for each HBHE crate */
int ihbhephis[EMAP_NHBHECR]={11,19,3,27,67,35,59,43,51};
/* iphi (lower) starting index for each HF crate */
int ihfphis[EMAP_NHFCR]={3,27,51};
/* iphi (lower) starting index for each HO crate */
int ihophis[EMAP_NHOCR]={71,17,35,53};
/* ihbheetadepth - unique HBHE {eta,depth} assignments per fiber and fiber channel */
int ihbheetadepth[EMAP_NHTRS][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2]={
{{{{11,1},{ 7,1},{ 3,1}}, /* htr 0 (HB) -bot(+top) */
{{ 5,1},{ 1,1},{ 9,1}},
{{11,1},{ 7,1},{ 3,1}},
{{ 5,1},{ 1,1},{ 9,1}},
{{10,1},{ 6,1},{ 2,1}},
{{ 8,1},{ 4,1},{12,1}},
{{10,1},{ 6,1},{ 2,1}},
{{ 8,1},{ 4,1},{12,1}}},
{{{11,1},{ 7,1},{ 3,1}}, /* htr 0 (HB) +bot(-top) */
{{ 5,1},{ 1,1},{ 9,1}},
{{11,1},{ 7,1},{ 3,1}},
{{ 5,1},{ 1,1},{ 9,1}},
{{10,1},{ 6,1},{ 2,1}},
{{ 8,1},{ 4,1},{12,1}},
{{10,1},{ 6,1},{ 2,1}},
{{ 8,1},{ 4,1},{12,1}}}},
{{{{16,2},{15,2},{14,1}}, /* htr 1 (HBHE) -bot(+top) */
{{15,1},{13,1},{16,1}},
{{16,2},{15,2},{14,1}},
{{15,1},{13,1},{16,1}},
{{17,1},{16,3},{26,1}},
{{18,1},{18,2},{26,2}},
{{17,1},{16,3},{25,1}},
{{18,1},{18,2},{25,2}}},
{{{16,2},{15,2},{14,1}}, /* htr 1 (HBHE) +bot(-top) */
{{15,1},{13,1},{16,1}},
{{16,2},{15,2},{14,1}},
{{15,1},{13,1},{16,1}},
{{17,1},{16,3},{25,1}},
{{18,1},{18,2},{25,2}},
{{17,1},{16,3},{26,1}},
{{18,1},{18,2},{26,2}}}},
{{{{28,1},{28,2},{29,1}}, /* htr 2 (HE) -bot(+top) */
{{28,3},{24,2},{24,1}},
{{27,1},{27,2},{29,2}},
{{27,3},{23,2},{23,1}},
{{19,2},{20,1},{22,2}},
{{19,1},{20,2},{22,1}},
{{19,2},{20,1},{21,2}},
{{19,1},{20,2},{21,1}}},
{{{27,1},{27,2},{29,2}}, /* htr 2 (HE) +bot(-top) */
{{27,3},{23,2},{23,1}},
{{28,1},{28,2},{29,1}},
{{28,3},{24,2},{24,1}},
{{19,2},{20,1},{21,2}},
{{19,1},{20,2},{21,1}},
{{19,2},{20,1},{22,2}},
{{19,1},{20,2},{22,1}}}}
};
/* ihfetadepth - unique HF {eta,depth} assignments per fiber and fiber channel */
int ihfetadepth[EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][2]={
{{{33,1},{31,1},{29,1}}, /* top */
{{32,1},{30,1},{34,1}},
{{33,2},{31,2},{29,2}},
{{32,2},{30,2},{34,2}},
{{34,2},{32,2},{30,2}},
{{31,2},{29,2},{33,2}},
{{34,1},{32,1},{30,1}},
{{31,1},{29,1},{33,1}}},
{{{41,1},{37,1},{35,1}}, /* bot */
{{38,1},{36,1},{39,1}},
{{41,2},{37,2},{35,2}},
{{38,2},{36,2},{39,2}},
{{40,2},{38,2},{36,2}},
{{37,2},{35,2},{39,2}},
{{40,1},{38,1},{36,1}},
{{37,1},{35,1},{39,1}}}
};
/* ihoetasidephi - unique HO {eta,side,phi} assignments per fiber and fiber channel */
int ihoetasidephi[EMAP_NHTRSHO][EMAP_NTOPBOT][EMAP_NFBR][EMAP_NFCH][3]={
{{{{ 1,-1,0},{ 2,-1,0},{ 3,-1,0}}, /* htr 0 (HO) top */
{{ 1,-1,1},{ 2,-1,1},{ 3,-1,1}},
{{ 1,-1,2},{ 2,-1,2},{ 3,-1,2}},
{{ 1,-1,3},{ 2,-1,3},{ 3,-1,3}},
{{ 1,-1,4},{ 2,-1,4},{ 3,-1,4}},
{{ 1,-1,5},{ 2,-1,5},{ 3,-1,5}},
{{14, 1,0},{14, 1,1},{14, 1,2}},
{{14, 1,3},{14, 1,4},{14, 1,5}}},
{{{ 1, 1,0},{ 2, 1,0},{ 3, 1,0}}, /* htr 0 (HO) bot */
{{ 1, 1,1},{ 2, 1,1},{ 3, 1,1}},
{{ 1, 1,2},{ 2, 1,2},{ 3, 1,2}},
{{ 1, 1,3},{ 2, 1,3},{ 3, 1,3}},
{{ 1, 1,4},{ 2, 1,4},{ 3, 1,4}},
{{ 1, 1,5},{ 2, 1,5},{ 3, 1,5}},
{{15, 1,0},{15, 1,1},{15, 1,2}},
{{15, 1,3},{15, 1,4},{15, 1,5}}}},
{{{{ 6, 1,0},{ 6, 1,1},{ 6, 1,2}}, /* htr 1 (HO) top */
{{ 6, 1,3},{ 6, 1,4},{ 6, 1,5}},
{{ 7, 1,0},{ 7, 1,1},{ 7, 1,2}},
{{ 7, 1,3},{ 7, 1,4},{ 7, 1,5}},
{{ 8, 1,0},{ 8, 1,1},{ 8, 1,2}},
{{ 8, 1,3},{ 8, 1,4},{ 8, 1,5}},
{{ 9, 1,0},{ 9, 1,1},{ 9, 1,2}},
{{ 9, 1,3},{ 9, 1,4},{ 9, 1,5}}},
{{{10, 1,0},{10, 1,1},{10, 1,2}}, /* htr 1 (HO) bot */
{{10, 1,3},{10, 1,4},{10, 1,5}},
{{11, 1,0},{11, 1,1},{11, 1,2}},
{{11, 1,3},{11, 1,4},{11, 1,5}},
{{12, 1,0},{12, 1,1},{12, 1,2}},
{{12, 1,3},{12, 1,4},{12, 1,5}},
{{13, 1,0},{13, 1,1},{13, 1,2}},
{{13, 1,3},{13, 1,4},{13, 1,5}}}},
{{{{ 4,-1,0},{ 4,-1,1},{ 0, 0,0}}, /* htr 2 (HO) top */
{{ 4,-1,2},{ 4,-1,3},{ 0, 0,0}},
{{ 4,-1,4},{ 4,-1,5},{ 0, 0,0}},
{{ 0, 0,0},{ 0, 0,0},{ 0, 0,0}},
{{ 5,-1,0},{ 5,-1,1},{ 5,-1,2}},
{{ 5,-1,3},{ 5,-1,4},{ 5,-1,5}},
{{14,-1,0},{14,-1,1},{14,-1,2}},
{{14,-1,3},{14,-1,4},{14,-1,5}}},
{{{ 4, 1,0},{ 4, 1,1},{ 0, 0,0}}, /* htr 2 (HO) bot */
{{ 4, 1,2},{ 4, 1,3},{ 0, 0,0}},
{{ 4, 1,4},{ 4, 1,5},{ 0, 0,0}},
{{ 0, 0,0},{ 0, 0,0},{ 0, 0,0}},
{{ 5, 1,0},{ 5, 1,1},{ 5, 1,2}},
{{ 5, 1,3},{ 5, 1,4},{ 5, 1,5}},
{{15,-1,0},{15,-1,1},{15,-1,2}},
{{15,-1,3},{15,-1,4},{15,-1,5}}}},
{{{{ 6,-1,0},{ 6,-1,1},{ 6,-1,2}}, /* htr 3 (HO) top */
{{ 6,-1,3},{ 6,-1,4},{ 6,-1,5}},
{{ 7,-1,0},{ 7,-1,1},{ 7,-1,2}},
{{ 7,-1,3},{ 7,-1,4},{ 7,-1,5}},
{{ 8,-1,0},{ 8,-1,1},{ 8,-1,2}},
{{ 8,-1,3},{ 8,-1,4},{ 8,-1,5}},
{{ 9,-1,0},{ 9,-1,1},{ 9,-1,2}},
{{ 9,-1,3},{ 9,-1,4},{ 9,-1,5}}},
{{{10,-1,0},{10,-1,1},{10,-1,2}}, /* htr 3 (HO) bot */
{{10,-1,3},{10,-1,4},{10,-1,5}},
{{11,-1,0},{11,-1,1},{11,-1,2}},
{{11,-1,3},{11,-1,4},{11,-1,5}},
{{12,-1,0},{12,-1,1},{12,-1,2}},
{{12,-1,3},{12,-1,4},{12,-1,5}},
{{13,-1,0},{13,-1,1},{13,-1,2}},
{{13,-1,3},{13,-1,4},{13,-1,5}}}}
};
int ic,is,ih,itb,ifb,ifc,ifwtb,iphi_loc;
int iside,ieta,iphi,idepth,icrate,ihtr,ihtr_fi,ifi_ch,ispigot,idcc,ifed;
// int idcc_sl;
std::string det;
std::string fpga;
// printf(" side eta phi depth det crate htr fpga htr_fi fi_ch spigo dcc dcc_sl fedid\n");
/* all HBHE crates */
for(ic=0; ic<EMAP_NHBHECR; ic++){
/* four sets of three htrs per crate */
for(is=0; is<EMAP_NHSETS; is++){
/* three htrs per set */
for(ih=0; ih<EMAP_NHTRS; ih++){
/* top and bottom */
for(itb=0; itb<EMAP_NTOPBOT; itb++){
/* eight fibers per HTR FPGA */
for(ifb=0; ifb<EMAP_NFBR; ifb++){
/* three channels per fiber */
for(ifc=0; ifc<EMAP_NFCH; ifc++){
icrate=hbhecrate[ic];
iside=is<EMAP_NHSETS/2?-1:1;
ifwtb=(is/2+itb+1)%2;
ieta=ihbheetadepth[ih][ifwtb][ifb][ifc][0];
idepth=ihbheetadepth[ih][ifwtb][ifb][ifc][1];
ihtr=ihslot[is]+ih;
det=((ieta>16||idepth>2)?("HE"):("HB"));
fpga=((itb%2)==1)?("bot"):("top");
ihtr_fi=ifb+1;
ifi_ch=ifc;
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;
ispigot=(is%2)*6+ih*2+itb;
idcc=is<EMAP_NHSETS/2?1:2;
// idcc_sl=idcc==1?9:19;
ifed=fedhbhenum[ic][idcc-1];
/// load map
HcalElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
HcalDetId hId((det=="HB")?(HcalBarrel):(HcalEndcap),ieta*iside,iphi,idepth);
emap.mapEId2chId(elId,hId);
// 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);
}}}}}}
/* all HF crates */
for(ic=0; ic<EMAP_NHFCR; ic++){
/* four sets of three htrs per crate */
for(is=0; is<EMAP_NHSETS; is++){
/* three htrs per set */
for(ih=0; ih<EMAP_NHTRS; ih++){
/* top and bottom */
for(itb=0; itb<EMAP_NTOPBOT; itb++){
/* eight fibers per HTR FPGA */
for(ifb=0; ifb<EMAP_NFBR; ifb++){
/* three channels per fiber */
for(ifc=0; ifc<EMAP_NFCH; ifc++){
icrate=hfcrate[ic];
iside=is<EMAP_NHSETS/2?-1:1;
ieta=ihfetadepth[itb][ifb][ifc][0];
idepth=ihfetadepth[itb][ifb][ifc][1];
ihtr=ihslot[is]+ih;
det="HF";
fpga=((itb%2)==1)?("bot"):("top");
ihtr_fi=ifb+1;
ifi_ch=ifc;
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;
ispigot=(is%2)*6+ih*2+itb;
idcc=is<EMAP_NHSETS/2?1:2;
// idcc_sl=idcc==1?9:19;
ifed=fedhfnum[ic][idcc-1];
HcalElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
HcalDetId hId(HcalForward,ieta*iside,iphi,idepth);
emap.mapEId2chId(elId,hId);
// 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);
}}}}}}
/* all HO crates */
for(ic=0; ic<EMAP_NHOCR; ic++){
/* three sets of four htrs per crate */
for(is=0; is<EMAP_NHSETSHO; is++){
/* four htrs per set */
for(ih=0; ih<EMAP_NHTRSHO; ih++){
/* top and bottom */
for(itb=0; itb<EMAP_NTOPBOT; itb++){
/* eight fibers per HTR FPGA */
for(ifb=0; ifb<EMAP_NFBR; ifb++){
/* three channels per fiber */
for(ifc=0; ifc<EMAP_NFCH; ifc++){
icrate=hocrate[ic];
idepth=1;
ieta=ihoetasidephi[ih][itb][ifb][ifc][0];
iside=ihoetasidephi[ih][itb][ifb][ifc][1];
iphi_loc=ihoetasidephi[ih][itb][ifb][ifc][2];
ihtr=ihslotho[is][ih];
det="HO";
fpga=((itb%2)==1)?("bot"):("top");
ihtr_fi=ifb+1;
ifi_ch=ifc;
iphi=(ihophis[ic]+is*6+iphi_loc-1)%72+1;
ispigot=ihtr<9?(ihtr-2)*2+itb:(ihtr-13)*2+itb;
idcc=ihtr<9?1:2;
// idcc_sl=idcc==1?9:19;
ifed=fedhonum[ic][idcc-1];
HcalElectronicsId elId(ifi_ch, ihtr_fi, ispigot, ifed-700);
elId.setHTR(icrate, ihtr, (fpga=="top")?(1):(0));
if (ieta==0) { // unmapped
emap.mapEId2chId(elId,DetId(HcalDetId::Undefined));
} else {
HcalDetId hId(HcalOuter,ieta*iside,iphi,idepth+3); // HO is officially "depth=4"
emap.mapEId2chId(elId,hId);
}
// 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);
}}}}}}
emap.sort();
}