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rawtodigi_naive.h
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rawtodigi_naive.h
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#ifndef rawtodigi_naive_h_
#define rawtodigi_naive_h_
#include <cstdio>
#include <vector>
#include "pixelgpudetails.h"
namespace naive {
class Packing {
public:
using PackedDigiType = uint32_t;
// Constructor: pre-computes masks and shifts from field widths
inline constexpr Packing(unsigned int row_w, unsigned int column_w, unsigned int time_w, unsigned int adc_w)
: row_width(row_w),
column_width(column_w),
adc_width(adc_w),
row_shift(0),
column_shift(row_shift + row_w),
time_shift(column_shift + column_w),
adc_shift(time_shift + time_w),
row_mask(~(~0U << row_w)),
column_mask(~(~0U << column_w)),
time_mask(~(~0U << time_w)),
adc_mask(~(~0U << adc_w)),
rowcol_mask(~(~0U << (column_w + row_w))),
max_row(row_mask),
max_column(column_mask),
max_adc(adc_mask) {}
uint32_t row_width;
uint32_t column_width;
uint32_t adc_width;
uint32_t row_shift;
uint32_t column_shift;
uint32_t time_shift;
uint32_t adc_shift;
PackedDigiType row_mask;
PackedDigiType column_mask;
PackedDigiType time_mask;
PackedDigiType adc_mask;
PackedDigiType rowcol_mask;
uint32_t max_row;
uint32_t max_column;
uint32_t max_adc;
};
inline constexpr Packing packing() { return Packing(11, 11, 0, 10); }
inline uint32_t pack(uint32_t row, uint32_t col, uint32_t adc) {
constexpr Packing thePacking = packing();
adc = std::min(adc, thePacking.max_adc);
return (row << thePacking.row_shift) | (col << thePacking.column_shift) | (adc << thePacking.adc_shift);
}
uint32_t getLink(uint32_t ww) { return ((ww >> pixelgpudetails::LINK_shift) & pixelgpudetails::LINK_mask); }
uint32_t getRoc(uint32_t ww) { return ((ww >> pixelgpudetails::ROC_shift) & pixelgpudetails::ROC_mask); }
uint32_t getADC(uint32_t ww) { return ((ww >> pixelgpudetails::ADC_shift) & pixelgpudetails::ADC_mask); }
bool isBarrel(uint32_t rawId) { return (1 == ((rawId >> 25) & 0x7)); }
bool rocRowColIsValid(uint32_t rocRow, uint32_t rocCol) {
constexpr uint32_t numRowsInRoc = 80;
constexpr uint32_t numColsInRoc = 52;
/// row and collumn in ROC representation
return ((rocRow < numRowsInRoc) & (rocCol < numColsInRoc));
}
bool dcolIsValid(uint32_t dcol, uint32_t pxid) { return ((dcol < 26) & (2 <= pxid) & (pxid < 162)); }
pixelgpudetails::DetIdGPU getRawId(const SiPixelFedCablingMapGPU *cablingMap,
uint8_t fed,
uint32_t link,
uint32_t roc) {
uint32_t index =
fed * pixelgpudetails::MAX_LINK * pixelgpudetails::MAX_ROC + (link - 1) * pixelgpudetails::MAX_ROC + roc;
pixelgpudetails::DetIdGPU detId = {
cablingMap->RawId[index], cablingMap->rocInDet[index], cablingMap->moduleId[index]};
return detId;
}
pixelgpudetails::Pixel frameConversion(
bool bpix, int side, uint32_t layer, uint32_t rocIdInDetUnit, pixelgpudetails::Pixel local) {
int slopeRow = 0, slopeCol = 0;
int rowOffset = 0, colOffset = 0;
if (bpix) {
if (side == -1 && layer != 1) { // -Z side: 4 non-flipped modules oriented like 'dddd', except Layer 1
if (rocIdInDetUnit < 8) {
slopeRow = 1;
slopeCol = -1;
rowOffset = 0;
colOffset = (8 - rocIdInDetUnit) * pixelgpudetails::numColsInRoc - 1;
} else {
slopeRow = -1;
slopeCol = 1;
rowOffset = 2 * pixelgpudetails::numRowsInRoc - 1;
colOffset = (rocIdInDetUnit - 8) * pixelgpudetails::numColsInRoc;
} // if roc
} else { // +Z side: 4 non-flipped modules oriented like 'pppp', but all 8 in layer1
if (rocIdInDetUnit < 8) {
slopeRow = -1;
slopeCol = 1;
rowOffset = 2 * pixelgpudetails::numRowsInRoc - 1;
colOffset = rocIdInDetUnit * pixelgpudetails::numColsInRoc;
} else {
slopeRow = 1;
slopeCol = -1;
rowOffset = 0;
colOffset = (16 - rocIdInDetUnit) * pixelgpudetails::numColsInRoc - 1;
}
}
} else { // fpix
if (side == -1) { // pannel 1
if (rocIdInDetUnit < 8) {
slopeRow = 1;
slopeCol = -1;
rowOffset = 0;
colOffset = (8 - rocIdInDetUnit) * pixelgpudetails::numColsInRoc - 1;
} else {
slopeRow = -1;
slopeCol = 1;
rowOffset = 2 * pixelgpudetails::numRowsInRoc - 1;
colOffset = (rocIdInDetUnit - 8) * pixelgpudetails::numColsInRoc;
}
} else { // pannel 2
if (rocIdInDetUnit < 8) {
slopeRow = 1;
slopeCol = -1;
rowOffset = 0;
colOffset = (8 - rocIdInDetUnit) * pixelgpudetails::numColsInRoc - 1;
} else {
slopeRow = -1;
slopeCol = 1;
rowOffset = 2 * pixelgpudetails::numRowsInRoc - 1;
colOffset = (rocIdInDetUnit - 8) * pixelgpudetails::numColsInRoc;
}
} // side
}
uint32_t gRow = rowOffset + slopeRow * local.row;
uint32_t gCol = colOffset + slopeCol * local.col;
//printf("Inside frameConversion row: %u, column: %u\n", gRow, gCol);
pixelgpudetails::Pixel global = {gRow, gCol};
return global;
}
uint8_t conversionError(uint8_t fedId, uint8_t status, bool debug = false) {
// debug = true;
if (debug) {
switch (status) {
case (1): {
printf("Error in Fed: %i, invalid channel Id (errorType = 35\n)", fedId);
break;
}
case (2): {
printf("Error in Fed: %i, invalid ROC Id (errorType = 36)\n", fedId);
break;
}
case (3): {
printf("Error in Fed: %i, invalid dcol/pixel value (errorType = 37)\n", fedId);
break;
}
case (4): {
printf("Error in Fed: %i, dcol/pixel read out of order (errorType = 38)\n", fedId);
break;
}
default:
if (debug)
printf("Cabling check returned unexpected result, status = %i\n", status);
};
}
if (status >= 1 and status <= 4) {
return status + 34;
}
return 0;
}
uint32_t getErrRawID(uint8_t fedId,
uint32_t errWord,
uint32_t errorType,
const SiPixelFedCablingMapGPU *cablingMap,
bool debug = false) {
uint32_t rID = 0xffffffff;
switch (errorType) {
case 25:
case 30:
case 31:
case 36:
case 40: {
//set dummy values for cabling just to get detId from link
//cabling.dcol = 0;
//cabling.pxid = 2;
constexpr uint32_t roc = 1;
const uint32_t link = (errWord >> pixelgpudetails::LINK_shift) & pixelgpudetails::LINK_mask;
const uint32_t rID_temp = getRawId(cablingMap, fedId, link, roc).RawId;
if (rID_temp != 9999)
rID = rID_temp;
break;
}
case 29: {
int chanNmbr = 0;
constexpr int DB0_shift = 0;
constexpr int DB1_shift = DB0_shift + 1;
constexpr int DB2_shift = DB1_shift + 1;
constexpr int DB3_shift = DB2_shift + 1;
constexpr int DB4_shift = DB3_shift + 1;
constexpr uint32_t DataBit_mask = ~(~uint32_t(0) << 1);
const int CH1 = (errWord >> DB0_shift) & DataBit_mask;
const int CH2 = (errWord >> DB1_shift) & DataBit_mask;
const int CH3 = (errWord >> DB2_shift) & DataBit_mask;
const int CH4 = (errWord >> DB3_shift) & DataBit_mask;
const int CH5 = (errWord >> DB4_shift) & DataBit_mask;
constexpr int BLOCK_bits = 3;
constexpr int BLOCK_shift = 8;
constexpr uint32_t BLOCK_mask = ~(~uint32_t(0) << BLOCK_bits);
const int BLOCK = (errWord >> BLOCK_shift) & BLOCK_mask;
const int localCH = 1 * CH1 + 2 * CH2 + 3 * CH3 + 4 * CH4 + 5 * CH5;
if (BLOCK % 2 == 0)
chanNmbr = (BLOCK / 2) * 9 + localCH;
else
chanNmbr = ((BLOCK - 1) / 2) * 9 + 4 + localCH;
if ((chanNmbr < 1) || (chanNmbr > 36))
break; // signifies unexpected result
// set dummy values for cabling just to get detId from link if in Barrel
//cabling.dcol = 0;
//cabling.pxid = 2;
constexpr uint32_t roc = 1;
const uint32_t link = chanNmbr;
const uint32_t rID_temp = getRawId(cablingMap, fedId, link, roc).RawId;
if (rID_temp != 9999)
rID = rID_temp;
break;
}
case 37:
case 38: {
//cabling.dcol = 0;
//cabling.pxid = 2;
const uint32_t roc = (errWord >> pixelgpudetails::ROC_shift) & pixelgpudetails::ROC_mask;
const uint32_t link = (errWord >> pixelgpudetails::LINK_shift) & pixelgpudetails::LINK_mask;
const uint32_t rID_temp = getRawId(cablingMap, fedId, link, roc).RawId;
if (rID_temp != 9999)
rID = rID_temp;
break;
}
default:
break;
};
return rID;
}
uint8_t checkROC(
uint32_t errorWord, uint8_t fedId, uint32_t link, const SiPixelFedCablingMapGPU *cablingMap, bool debug = false) {
uint8_t errorType = (errorWord >> pixelgpudetails::ROC_shift) & pixelgpudetails::ERROR_mask;
if (errorType < 25)
return 0;
bool errorFound = false;
switch (errorType) {
case (25): {
errorFound = true;
uint32_t index =
fedId * pixelgpudetails::MAX_LINK * pixelgpudetails::MAX_ROC + (link - 1) * pixelgpudetails::MAX_ROC + 1;
if (index > 1 && index <= cablingMap->size) {
if (!(link == cablingMap->link[index] && 1 == cablingMap->roc[index]))
errorFound = false;
}
if (debug and errorFound)
printf("Invalid ROC = 25 found (errorType = 25)\n");
break;
}
case (26): {
if (debug)
printf("Gap word found (errorType = 26)\n");
errorFound = true;
break;
}
case (27): {
if (debug)
printf("Dummy word found (errorType = 27)\n");
errorFound = true;
break;
}
case (28): {
if (debug)
printf("Error fifo nearly full (errorType = 28)\n");
errorFound = true;
break;
}
case (29): {
if (debug)
printf("Timeout on a channel (errorType = 29)\n");
if ((errorWord >> pixelgpudetails::OMIT_ERR_shift) & pixelgpudetails::OMIT_ERR_mask) {
if (debug)
printf("...first errorType=29 error, this gets masked out\n");
}
errorFound = true;
break;
}
case (30): {
if (debug)
printf("TBM error trailer (errorType = 30)\n");
int StateMatch_bits = 4;
int StateMatch_shift = 8;
uint32_t StateMatch_mask = ~(~uint32_t(0) << StateMatch_bits);
int StateMatch = (errorWord >> StateMatch_shift) & StateMatch_mask;
if (StateMatch != 1 && StateMatch != 8) {
if (debug)
printf("FED error 30 with unexpected State Bits (errorType = 30)\n");
}
if (StateMatch == 1)
errorType = 40; // 1=Overflow -> 40, 8=number of ROCs -> 30
errorFound = true;
break;
}
case (31): {
if (debug)
printf("Event number error (errorType = 31)\n");
errorFound = true;
break;
}
default:
errorFound = false;
};
return errorFound ? errorType : 0;
}
void rawtodigi(const SiPixelFedCablingMapGPU *cablingMap,
const uint32_t wordCounter,
const uint32_t *word,
const uint8_t *fedIds,
uint16_t *xx,
uint16_t *yy,
uint16_t *adc,
uint32_t *pdigi,
uint32_t *rawIdArr,
uint16_t *moduleId,
std::vector<PixelErrorCompact> *err,
bool useQualityInfo,
bool includeErrors,
bool debug) {
int32_t first = 0;
for (int32_t iloop = first, nend = wordCounter; iloop < nend; ++iloop) {
auto gIndex = iloop;
xx[gIndex] = 0;
yy[gIndex] = 0;
adc[gIndex] = 0;
bool skipROC = false;
uint8_t fedId = fedIds[gIndex / 2]; // +1200;
// initialize (too many coninue below)
pdigi[gIndex] = 0;
rawIdArr[gIndex] = 0;
moduleId[gIndex] = 9999;
uint32_t ww = word[gIndex]; // Array containing 32 bit raw data
if (ww == 0) {
// 0 is an indicator of a noise/dead channel, skip these pixels during clusterization
continue;
}
uint32_t link = getLink(ww); // Extract link
uint32_t roc = getRoc(ww); // Extract Roc in link
pixelgpudetails::DetIdGPU detId = getRawId(cablingMap, fedId, link, roc);
uint8_t errorType = checkROC(ww, fedId, link, cablingMap, debug);
skipROC = (roc < pixelgpudetails::maxROCIndex) ? false : (errorType != 0);
if (includeErrors and skipROC) {
uint32_t rID = getErrRawID(fedId, ww, errorType, cablingMap, debug);
err->push_back(PixelErrorCompact{rID, ww, errorType, fedId});
continue;
}
uint32_t rawId = detId.RawId;
uint32_t rocIdInDetUnit = detId.rocInDet;
bool barrel = isBarrel(rawId);
uint32_t index =
fedId * pixelgpudetails::MAX_LINK * pixelgpudetails::MAX_ROC + (link - 1) * pixelgpudetails::MAX_ROC + roc;
if (useQualityInfo) {
skipROC = cablingMap->badRocs[index];
if (skipROC)
continue;
}
uint32_t layer = 0; //, ladder =0;
int side = 0, panel = 0, module = 0; //disk = 0, blade = 0
if (barrel) {
layer = (rawId >> pixelgpudetails::layerStartBit) & pixelgpudetails::layerMask;
module = (rawId >> pixelgpudetails::moduleStartBit) & pixelgpudetails::moduleMask;
side = (module < 5) ? -1 : 1;
} else {
// endcap ids
layer = 0;
panel = (rawId >> pixelgpudetails::panelStartBit) & pixelgpudetails::panelMask;
//disk = (rawId >> diskStartBit_) & diskMask_;
side = (panel == 1) ? -1 : 1;
//blade = (rawId >> bladeStartBit_) & bladeMask_;
}
// ***special case of layer to 1 be handled here
pixelgpudetails::Pixel localPix;
if (layer == 1) {
uint32_t col = (ww >> pixelgpudetails::COL_shift) & pixelgpudetails::COL_mask;
uint32_t row = (ww >> pixelgpudetails::ROW_shift) & pixelgpudetails::ROW_mask;
localPix.row = row;
localPix.col = col;
if (includeErrors) {
if (not rocRowColIsValid(row, col)) {
uint8_t error = conversionError(fedId, 3, debug); //use the device function and fill the arrays
err->push_back(PixelErrorCompact{rawId, ww, error, fedId});
if (debug)
printf("BPIX1 Error status: %i\n", error);
continue;
}
}
} else {
// ***conversion rules for dcol and pxid
uint32_t dcol = (ww >> pixelgpudetails::DCOL_shift) & pixelgpudetails::DCOL_mask;
uint32_t pxid = (ww >> pixelgpudetails::PXID_shift) & pixelgpudetails::PXID_mask;
uint32_t row = pixelgpudetails::numRowsInRoc - pxid / 2;
uint32_t col = dcol * 2 + pxid % 2;
localPix.row = row;
localPix.col = col;
if (includeErrors and not dcolIsValid(dcol, pxid)) {
uint8_t error = conversionError(fedId, 3, debug);
err->push_back(PixelErrorCompact{rawId, ww, error, fedId});
if (debug)
printf("Error status: %i %d %d %d %d\n", error, dcol, pxid, fedId, roc);
continue;
}
}
pixelgpudetails::Pixel globalPix = frameConversion(barrel, side, layer, rocIdInDetUnit, localPix);
xx[gIndex] = globalPix.row; // origin shifting by 1 0-159
yy[gIndex] = globalPix.col; // origin shifting by 1 0-415
adc[gIndex] = getADC(ww);
pdigi[gIndex] = pack(globalPix.row, globalPix.col, adc[gIndex]);
moduleId[gIndex] = detId.moduleId;
rawIdArr[gIndex] = rawId;
} // end of loop (gIndex < end)
} // end of Raw to Digi kernel
} // end namespace naive
#endif // rawtodigi_naive_h_