1 /**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
18 ///////////////////////////////////////////////////////////////////////////////
20 // TRD raw data conversion class //
22 ///////////////////////////////////////////////////////////////////////////////
28 #include "AliRawDataHeaderSim.h"
29 #include "AliRawReader.h"
31 #include "AliFstream.h"
33 #include "AliTRDrawData.h"
34 #include "AliTRDdigitsManager.h"
35 #include "AliTRDgeometry.h"
36 #include "AliTRDarrayDictionary.h"
37 #include "AliTRDarrayADC.h"
38 #include "AliTRDrawStreamBase.h"
39 #include "AliTRDrawOldStream.h"
40 #include "AliTRDRawStreamV2.h"
41 #include "AliTRDcalibDB.h"
42 #include "AliTRDSignalIndex.h"
43 #include "AliTRDfeeParam.h"
44 #include "AliTRDmcmSim.h"
46 ClassImp(AliTRDrawData)
48 Int_t AliTRDrawData::fgRawFormatVersion = AliTRDrawData::kRawNewFormat;
49 Int_t AliTRDrawData::fgDataSuppressionLevel = 1;
51 //_____________________________________________________________________________
52 AliTRDrawData::AliTRDrawData()
62 // Default constructor
65 fFee = AliTRDfeeParam::Instance();
66 fNumberOfDDLs = AliDAQ::NumberOfDdls("TRD");
70 //_____________________________________________________________________________
71 AliTRDrawData::AliTRDrawData(const AliTRDrawData &r)
84 fFee = AliTRDfeeParam::Instance();
85 fNumberOfDDLs = AliDAQ::NumberOfDdls("TRD");
89 //_____________________________________________________________________________
90 AliTRDrawData::~AliTRDrawData()
98 //_____________________________________________________________________________
99 Bool_t AliTRDrawData::Digits2Raw(TTree *digitsTree, TTree *tracks )
102 // Initialize necessary parameters and call one
103 // of the raw data simulator selected by SetRawVersion.
105 // Currently tracklet output is not spported yet and it
106 // will be supported in higher version simulator.
109 AliTRDdigitsManager* digitsManager = new AliTRDdigitsManager();
111 if (!digitsManager->ReadDigits(digitsTree)) {
112 delete digitsManager;
116 if (tracks != NULL) {
117 delete digitsManager;
118 AliError("Tracklet input is not supported yet.");
122 fGeo = new AliTRDgeometry();
124 if (!AliTRDcalibDB::Instance()) {
125 AliError("Could not get calibration object");
127 delete digitsManager;
131 Int_t retval = kTRUE;
132 Int_t rv = fFee->GetRAWversion();
134 // Call appropriate Raw Simulator
135 if ( rv > 0 && rv <= 3 ) retval = Digits2Raw(digitsManager);
138 AliWarning(Form("Unsupported raw version (%d).", rv));
143 delete digitsManager;
149 //_____________________________________________________________________________
150 Bool_t AliTRDrawData::Digits2Raw(AliTRDdigitsManager *digitsManager)
153 // Raw data simulator for all versions > 0. This is prepared for real data.
154 // This version simulate only raw data with ADC data and not with tracklet.
157 const Int_t kMaxHcWords = (fGeo->TBmax()/3)
163 // Buffer to temporary store half chamber data
164 UInt_t *hcBuffer = new UInt_t[kMaxHcWords];
166 Bool_t newEvent = kFALSE; // only for correct readout tree
167 Bool_t newSM = kFALSE; // new SM flag, for writing SM index words
168 Bool_t newStack = kFALSE; // new stack flag, for writing stack index words
170 // sect is same as iDDL, so I use only sect here.
171 for (Int_t sect = 0; sect < fGeo->Nsector(); sect++) {
174 sprintf(name,"TRD_%d.ddl",sect + AliTRDrawOldStream::kDDLOffset);
176 AliFstream* of = new AliFstream(name);
178 // Write a dummy data header
179 AliRawDataHeaderSim header; // the event header
180 UInt_t hpos = of->Tellp();
181 of->WriteBuffer((char *) (& header), sizeof(header));
183 // Reset payload byte size (payload does not include header).
184 Int_t npayloadbyte = 0;
187 if ( fgRawFormatVersion == 0 ){
188 // GTU common data header (5x4 bytes per super module, shows link mask)
189 for( Int_t stack = 0; stack < fGeo->Nstack(); stack++ ) {
190 UInt_t gtuCdh = (UInt_t)(0xe << 28);
191 for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
192 Int_t iDet = fGeo->GetDetector(layer, stack, sect);
194 // If chamber status is ok, we assume that the optical link is also OK.
195 // This is shown in the GTU link mask.
196 if ( AliTRDcalibDB::Instance()->GetChamberStatus(iDet) )
197 gtuCdh = gtuCdh | (3 << (2*layer));
199 of->WriteBuffer((char *) (& gtuCdh), sizeof(gtuCdh));
205 // check the existance of the data
206 // SM index word and Stack index word
207 if ( fgRawFormatVersion == 1 ){
208 UInt_t *iwbuffer = new UInt_t[42]; // index word buffer; max 42 = 2 SM headers + 5*8 stack headers
210 UInt_t StackMask = 0x0;
211 Bool_t StackHasData = kFALSE;
212 Bool_t SMHasData = kFALSE;
213 iwbuffer[nheader++] = 0x0001a020; // SM index words
214 iwbuffer[nheader++] = 0x10404071; // SM header
216 for ( Int_t stack= 0; stack < fGeo->Nstack(); stack++) {
217 UInt_t LinkMask = 0x0;
218 for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
219 Int_t iDet = fGeo->GetDetector(layer,stack,sect);
220 AliTRDarrayADC *digits = (AliTRDarrayADC *) digitsManager->GetDigits(iDet);
221 if ( digits->HasData() ) {
222 StackMask = StackMask | ( 1 << stack ); // active stack mask for new stack
223 LinkMask = LinkMask | ( 3 << (2*layer) ); // 3 = 0011
224 StackHasData = kTRUE;
229 if ( fgDataSuppressionLevel==0 || StackHasData ){
230 //if ( StackHasData ){
231 iwbuffer[nheader++] = 0x0007a000 | LinkMask; // stack index word + link masks
232 //if (fgDataSuppressionLevel==0) iwbuffer[nheader-1] = 0x0007afff; // no suppression
233 iwbuffer[nheader++] = 0x04045b01; // stack header
234 for (Int_t i=0;i<6;i++) iwbuffer[nheader++] = 0x00000000; // 6 dummy words
235 StackHasData = kFALSE;
239 if ( fgDataSuppressionLevel==0 || SMHasData ){
240 iwbuffer[0] = iwbuffer[0] | StackMask; // add stack masks to SM index word
241 if (fgDataSuppressionLevel==0) iwbuffer[0] = 0x0001a03f; // no suppression
242 of->WriteBuffer((char *) iwbuffer, nheader*4);
243 AliDebug(11, Form("SM %d index word: %08x", iwbuffer[0]));
244 AliDebug(11, Form("SM %d header: %08x", iwbuffer[1]));
247 // end of SM & stack header ------------------------------------------------------------------------
248 // -------------------------------------------------------------------------------------------------
250 // Prepare chamber data
251 for( Int_t stack = 0; stack < fGeo->Nstack(); stack++) {
252 for( Int_t layer = 0; layer < fGeo->Nlayer(); layer++) {
254 Int_t iDet = fGeo->GetDetector(layer,stack,sect);
256 newEvent = kTRUE; // it is expected that each event has at least one tracklet;
257 // this is only needed for correct readout tree
259 AliDebug(11, Form("New event!! Event counter: %d",fEventCounter));
262 if ( stack==0 && layer==0 ) newSM = kTRUE; // new SM flag
263 if ( layer==0 ) newStack = kTRUE; // new stack flag
264 AliDebug(15, Form("stack : %d, layer : %d, iDec : %d\n",stack,layer,iDet));
265 // Get the digits array
266 AliTRDarrayADC *digits = (AliTRDarrayADC *) digitsManager->GetDigits(iDet);
267 if (fgDataSuppressionLevel==0 || digits->HasData() ) { // second part is new!! and is for indicating a new event
269 if (digits->HasData()) digits->Expand();
272 Int_t rv = fFee->GetRAWversion();
275 if ( fgRawFormatVersion == 0 ){
276 // Process A side of the chamber
277 if ( rv >= 1 && rv <= 2 ) {
278 hcwords = ProduceHcDataV1andV2(digits,0,iDet,hcBuffer,kMaxHcWords);
282 hcwords = ProduceHcDataV3 (digits,0,iDet,hcBuffer,kMaxHcWords,newEvent);
283 //hcwords = ProduceHcDataV3 (digits,0,iDet,hcBuffer,kMaxHcWords);
284 if(newEvent == kTRUE) newEvent = kFALSE;
287 of->WriteBuffer((char *) hcBuffer, hcwords*4);
288 npayloadbyte += hcwords*4;
290 // Process B side of the chamber
291 if ( rv >= 1 && rv <= 2 ) {
292 hcwords = ProduceHcDataV1andV2(digits,1,iDet,hcBuffer,kMaxHcWords);
296 hcwords = ProduceHcDataV3 (digits,1,iDet,hcBuffer,kMaxHcWords,newEvent);
297 //hcwords = ProduceHcDataV3 (digits,1,iDet,hcBuffer,kMaxHcWords);
300 of->WriteBuffer((char *) hcBuffer, hcwords*4);
301 npayloadbyte += hcwords*4;
303 } else { // real data format
305 if (digits->HasData()){
306 // Process A side of the chamber
307 hcwords = ProduceHcData(digits,0,iDet,hcBuffer,kMaxHcWords,newEvent,newSM);
309 // AssignStackMask(hcBuffer, stack); // active stack mask for this stack
310 // hcwords += AddStackIndexWords(hcBuffer, stack, hcwords);
311 // newStack = kFALSE;
313 //if ( newSM ) newSM = kFALSE;
314 if ( newEvent ) newEvent = kFALSE;
315 //AssignLinkMask(hcBuffer, layer); // active link mask for this layer(2*HC)
316 of->WriteBuffer((char *) hcBuffer, hcwords*4);
317 npayloadbyte += hcwords*4;
318 //for ( Int_t i=0; i<hcwords; i++ ) AliInfo(Form("Buf : %X",hcBuffer[i]));
320 // Process B side of the chamber
321 hcwords = ProduceHcData(digits,1,iDet,hcBuffer,kMaxHcWords,newEvent,newSM);
322 of->WriteBuffer((char *) hcBuffer, hcwords*4);
323 npayloadbyte += hcwords*4;
325 hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
326 hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
327 hcBuffer[hcwords++] = (1<<31) | (0<<24) | (0<<17) | (1<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (0<<2) | 1;
328 hcBuffer[hcwords++] = (24<<26) | (99<<10) | (15<<6) | (11<<2) | 1;
329 hcBuffer[hcwords++] = kEndofrawdatamarker;
330 hcBuffer[hcwords++] = kEndofrawdatamarker;
331 hcBuffer[hcwords++] = kEndofrawdatamarker;
332 hcBuffer[hcwords++] = kEndofrawdatamarker;
333 npayloadbyte += hcwords*4;
335 hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
336 hcBuffer[hcwords++] = fgkEndOfTrackletMarker;
337 hcBuffer[hcwords++] = (1<<31) | (0<<24) | (0<<17) | (1<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (1<<2) | 1;
338 hcBuffer[hcwords++] = (24<<26) | (99<<10) | (15<<6) | (11<<2) | 1;
339 hcBuffer[hcwords++] = kEndofrawdatamarker;
340 hcBuffer[hcwords++] = kEndofrawdatamarker;
341 hcBuffer[hcwords++] = kEndofrawdatamarker;
342 hcBuffer[hcwords++] = kEndofrawdatamarker;
343 npayloadbyte += hcwords*4;
345 of->WriteBuffer((char *) hcBuffer, hcwords*4);
355 header.fSize = UInt_t(of->Tellp()) - hpos;
356 header.SetAttribute(0); // Valid data
357 of->Seekp(hpos); // Rewind to header position
358 of->WriteBuffer((char *) (& header), sizeof(header));
368 //_____________________________________________________________________________
369 void AliTRDrawData::ProduceSMIndexData(UInt_t *buf, Int_t& nw){
371 // This function generates
372 // 1) SM index words : ssssssss ssssssss vvvv rrrr r d t mmmmm
373 // - s : size of SM header (number of header, default = 0x0001)
374 // - v : SM header version (default = 0xa)
375 // - r : reserved for future use (default = 00000)
376 // - d : track data enabled bit (default = 0)
377 // - t : tracklet data enabled bit (default = 1)
378 // - m : stack mask (each bit corresponds a stack, default = 11111)
380 // 2) SM header : rrr c vvvv vvvvvvvv vvvv rrrr bbbbbbbb
381 // - r : reserved for future use (default = 000)
382 // - c : clean check out flag (default = 1)
383 // - v : hardware design revision (default = 0x0404)
384 // - r : reserved for future use (default = 0x0)
385 // - b : physical board ID (default = 0x71)
387 // 3) stack index words : ssssssss ssssssss vvvv mmmm mmmmmmmm
388 // - s : size of stack header (number of header, (default = 0x0007)
389 // - v : header version (default = 0xa)
390 // - m : link mask (default = 0xfff)
392 // 4) stack header : vvvvvvvv vvvvvvvv bbbbbbbb rrrr rrr c
393 // - v : hardware design revision (default = 0x0404)
394 // - b : physical board ID (default = 0x5b)
395 // - r : reserved for future use (default = 0000 000)
396 // - c : clean checkout flag (default = 1)
398 // and 6 dummy words(0x00000000)
401 //buf[nw++] = 0x0001a03f; // SM index words
402 fSMindexPos = nw; // memorize position of the SM index word for re-allocating stack mask
403 buf[nw++] = 0x0001a020; // SM index words
404 buf[nw++] = 0x10404071; // SM header
406 fStackindexPos = nw; // memorize position of the stack index word for future adding
408 for (Int_t istack=0; istack<5; istack++){
409 buf[nw++] = 0x0007afff; // stack index words
410 buf[nw++] = 0x04045b01; // stack header
411 for (Int_t i=0;i<6;i++) buf[nw++] = 0x00000000; // 6 dummy words
412 } // loop over 5 stacks
416 //_____________________________________________________________________________
417 void AliTRDrawData::AssignStackMask(UInt_t *buf, Int_t nStack){
419 // This function re-assign stack mask active(from 0 to 1) in the SM index word
421 buf[fSMindexPos] = buf[fSMindexPos] | ( 1 << nStack );
424 //_____________________________________________________________________________
425 Int_t AliTRDrawData::AddStackIndexWords(UInt_t *buf, Int_t nStack, Int_t nMax){
427 // This function add stack index words and stack header when there is data for the stack
429 // 1) stack index words : ssssssss ssssssss vvvv mmmm mmmmmmmm
430 // - s : size of stack header (number of header, (default = 0x0007)
431 // - v : header version (default = 0xa)
432 // - m : link mask (default = 0xfff)
433 // - m : link mask (starting value = 0x000)
435 // 2) stack header : vvvvvvvv vvvvvvvv bbbbbbbb rrrr rrr c
436 // - v : hardware design revision (default = 0x0404)
437 // - b : physical board ID (default = 0x5b)
438 // - r : reserved for future use (default = 0000 000)
439 // - c : clean checkout flag (default = 1)
441 // and 6 dummy words(0x00000000)
444 Int_t nAddedWords = 0; // Number of added words
445 if ( ShiftWords(buf, fStackindexPos, 8, nMax)== kFALSE ){
446 AliError("Adding stack header failed.");
450 buf[fStackindexPos++] = 0x0007a000; // stack index words
451 buf[fStackindexPos++] = 0x04045b01; // stack header
452 for (Int_t i=0;i<6;i++) buf[fStackindexPos++] = 0x00000000; // 6 dummy words
458 //_____________________________________________________________________________
459 void AliTRDrawData::AssignLinkMask(UInt_t *buf, Int_t nLayer){
461 // This function re-assign link mask active(from 0 to 1) in the stack index word
463 buf[fStackindexPos-8] = buf[fStackindexPos-8] | ( 3 << (2*nLayer) ); // 3 = 0011
466 //_____________________________________________________________________________
467 Bool_t AliTRDrawData::ShiftWords(UInt_t *buf, Int_t nStart, Int_t nWords, Int_t nMax){
469 // This function shifts n words
471 //if ( nStart+nWords > sizeof(buf)/sizeof(UInt_t) ){
472 // AliError("Words shift failed. No more buffer space.");
476 for ( Int_t iw=nMax; iw>nStart-1; iw--){
477 buf[iw+nWords] = buf[iw];
482 //_____________________________________________________________________________
483 Int_t AliTRDrawData::ProduceHcData(AliTRDarrayADC *digits, Int_t side, Int_t det, UInt_t *buf, Int_t maxSize, Bool_t newEvent = kFALSE, Bool_t newSM = kFALSE){
485 // This function can be used for both ZS and NZS data
488 Int_t nw = 0; // Number of written words
489 Int_t of = 0; // Number of overflowed words
490 Int_t layer = fGeo->GetLayer( det ); // Layer
491 Int_t stack = fGeo->GetStack( det ); // Stack
492 Int_t sect = fGeo->GetSector( det ); // Sector (=iDDL)
493 Int_t nRow = fGeo->GetRowMax( layer, stack, sect );
494 Int_t nCol = fGeo->GetColMax( layer );
495 const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
496 Int_t kCtype = 0; // Chamber type (0:C0, 1:C1)
498 Bool_t tracklet_on = fFee->GetTracklet(); // **new**
500 // Check the nCol and nRow.
501 if ((nCol == 144) && (nRow == 16 || nRow == 12)) {
502 kCtype = (nRow-12) / 4;
504 AliError(Form("This type of chamber is not supported (nRow=%d, nCol=%d).",nRow,nCol));
508 AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d",sect,layer,stack,side));
510 AliTRDmcmSim** mcm = new AliTRDmcmSim*[(kCtype + 3)*(fGeo->MCMmax())];
512 //if (newEvent) ProduceSMIndexData(buf, nw); // SM index words , Stack index words
514 if (!tracklet_on) WriteIntermediateWordsV2(buf,nw,of,maxSize,det,side); // no tracklet or NZS
517 // scanning direction such, that tracklet-words are sorted in ascending z and then in ascending y order
518 // ROB numbering on chamber and MCM numbering on ROB increase with decreasing z and increasing y
519 //for (Int_t iRobRow = (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
520 for (Int_t iRobRow = 0; iRobRow <= (kCtype + 3)-1; iRobRow++ ) { // ROB number should be increasing
521 Int_t iRob = iRobRow * 2 + side;
523 for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
524 Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
525 Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm;
527 mcm[entry] = new AliTRDmcmSim();
528 mcm[entry]->Init( det, iRob, iMcm , newEvent);
529 //mcm[entry]->Init( det, iRob, iMcm);
530 if (newEvent == kTRUE) newEvent = kFALSE; // only one mcm is concerned with new event
531 Int_t padrow = mcm[entry]->GetRow();
533 // Copy ADC data to MCM simulator
534 for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
535 Int_t padcol = mcm[entry]->GetCol( iAdc );
536 if ((padcol >= 0) && (padcol < nCol)) {
537 for (Int_t iT = 0; iT < kNTBin; iT++) {
538 mcm[entry]->SetData( iAdc, iT, digits->GetData( padrow, padcol, iT) );
541 else { // this means it is out of chamber, and masked ADC
542 mcm[entry]->SetDataPedestal( iAdc );
546 // Simulate process in MCM
547 // mcm[entry]->Filter(); // Apply filter
548 // mcm[entry]->ZSMapping(); // Calculate zero suppression mapping
549 mcm[entry]->CopyArrays();
550 mcm[entry]->GeneratefZSM1Dim();
551 mcm[entry]->RestoreZeros();
554 mcm[entry]->Tracklet();
555 Int_t tempNw = mcm[entry]->ProduceTrackletStream( &buf[nw], maxSize - nw );
560 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
564 } else { // no tracklets: write raw-data already in this loop
565 // Write MCM data to buffer
566 Int_t tempNw = mcm[entry]->ProduceRawStreamV2( &buf[nw], maxSize - nw, fEventCounter );
570 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
578 //mcm->DumpData( "trdmcmdata.txt", "RFZS" ); // debugging purpose
582 // if tracklets are switched on, raw-data can be written only after all tracklets
584 WriteIntermediateWordsV2(buf,nw,of,maxSize,det,side);
586 // Scan for ROB and MCM
587 for (Int_t iRobRow = (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
588 //Int_t iRob = iRobRow * 2 + side;
590 for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
591 Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
593 Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm;
595 // Write MCM data to buffer
596 Int_t tempNw = mcm[entry]->ProduceRawStreamV2( &buf[nw], maxSize - nw, fEventCounter );
600 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
613 // Write end of raw data marker
614 if (nw+3 < maxSize) {
615 buf[nw++] = kEndofrawdatamarker;
616 buf[nw++] = kEndofrawdatamarker;
617 buf[nw++] = kEndofrawdatamarker;
618 buf[nw++] = kEndofrawdatamarker;
624 AliError("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
631 //_____________________________________________________________________________
632 Int_t AliTRDrawData::ProduceHcDataV1andV2(AliTRDarrayADC *digits, Int_t side
633 , Int_t det, UInt_t *buf, Int_t maxSize)
636 // This function simulates: 1) SM-I commissiong data Oct. 06 (Raw Version == 1).
637 // 2) Full Raw Production Version (Raw Version == 2)
639 // Produce half chamber data (= an ORI data) for the given chamber (det) and side (side)
642 // side=0 means A side with ROB positions 0, 2, 4, 6.
643 // side=1 means B side with ROB positions 1, 3, 5, 7.
645 // Chamber type (C0 orC1) is determined by "det" automatically.
646 // Appropriate size of buffer (*buf) must be prepared prior to calling this function.
647 // Pointer to the buffer and its size must be given to "buf" and "maxSize".
648 // Return value is the number of valid data filled in the buffer in unit of 32 bits
650 // If buffer size if too small, the data is truncated with the buffer size however
651 // the function will finish without crash (this behaviour is similar to the MCM).
654 Int_t nw = 0; // Number of written words
655 Int_t of = 0; // Number of overflowed words
656 Int_t layer = fGeo->GetLayer( det ); // Layer
657 Int_t stack = fGeo->GetStack( det ); // Stack
658 Int_t sect = fGeo->GetSector( det ); // Sector (=iDDL)
659 Int_t nRow = fGeo->GetRowMax( layer, stack, sect );
660 Int_t nCol = fGeo->GetColMax( layer );
661 const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
662 Int_t kCtype = 0; // Chamber type (0:C0, 1:C1)
663 Int_t iEv = 0xA; // Event ID. Now fixed to 10, how do I get event id?
664 UInt_t x = 0; // General used number
665 Int_t rv = fFee->GetRAWversion();
667 // Check the nCol and nRow.
669 (nRow == 16 || nRow == 12)) {
670 kCtype = (nRow-12) / 4;
673 AliError(Form("This type of chamber is not supported (nRow=%d, nCol=%d)."
678 AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d"
679 ,sect,layer,stack,side));
681 // Tracklet should be processed here but not implemented yet
683 // Write end of tracklet marker
685 buf[nw++] = kEndoftrackletmarker;
691 // Half Chamber header
693 // Now it is the same version as used in SM-I commissioning.
694 Int_t dcs = det+100; // DCS Serial (in simulation, it is meaningless
695 x = (dcs<<20) | (sect<<15) | (layer<<12) | (stack<<9) | (side<<8) | 1;
703 else if ( rv == 2 ) {
704 // h[0] (there are 3 HC header)
705 Int_t minorv = 0; // The minor version number
706 Int_t add = 2; // The number of additional header words to follow
707 x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
715 Int_t bcCtr = 99; // bunch crossing counter. Here it is set to 99 always for no reason
716 Int_t ptCtr = 15; // pretrigger counter. Here it is set to 15 always for no reason
717 Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
718 x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1;
726 Int_t pedSetup = 1; // Pedestal filter setup (0:1). Here it is always 1 for no reason
727 Int_t gainSetup = 1; // Gain filter setup (0:1). Here it is always 1 for no reason
728 Int_t tailSetup = 1; // Tail filter setup (0:1). Here it is always 1 for no reason
729 Int_t xtSetup = 0; // Cross talk filter setup (0:1). Here it is always 0 for no reason
730 Int_t nonlinSetup = 0; // Nonlinearity filter setup (0:1). Here it is always 0 for no reason
731 Int_t bypassSetup = 0; // Filter bypass (for raw data) setup (0:1). Here it is always 0 for no reason
732 Int_t commonAdditive = 10; // Digital filter common additive (0:63). Here it is always 10 for no reason
733 x = (pedSetup<<31) | (gainSetup<<30) | (tailSetup<<29) | (xtSetup<<28) | (nonlinSetup<<27)
734 | (bypassSetup<<26) | (commonAdditive<<20) | 1;
743 // Scan for ROB and MCM
744 for (Int_t iRobRow = 0; iRobRow < (kCtype + 3); iRobRow++ ) {
745 Int_t iRob = iRobRow * 2 + side;
746 for (Int_t iMcm = 0; iMcm < fGeo->MCMmax(); iMcm++ ) {
747 Int_t padrow = iRobRow * 4 + iMcm / 4;
750 x = ((iRob * fGeo->MCMmax() + iMcm) << 24) | ((iEv % 0x100000) << 4) | 0xC;
759 for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
760 Int_t padcol = fFee->GetPadColFromADC(iRob, iMcm, iAdc);
761 UInt_t aa = !(iAdc & 1) + 2; // 3 for the even ADC channel , 2 for the odd ADC channel
762 UInt_t *a = new UInt_t[kNTBin+2];
763 // 3 timebins are packed into one 32 bits word
764 for (Int_t iT = 0; iT < kNTBin; iT+=3) {
765 if ((padcol >= 0) && (padcol < nCol)) {
766 a[iT ] = ((iT ) < kNTBin ) ? digits->GetData(padrow,padcol,iT ) : 0;
767 a[iT+1] = ((iT + 1) < kNTBin ) ? digits->GetData(padrow,padcol,iT + 1) : 0;
768 a[iT+2] = ((iT + 2) < kNTBin ) ? digits->GetData(padrow,padcol,iT + 2) : 0;
771 a[iT] = a[iT+1] = a[iT+2] = 0; // This happenes at the edge of chamber (should be pedestal! How?)
773 x = (a[iT+2] << 22) | (a[iT+1] << 12) | (a[iT] << 2) | aa;
784 for (Int_t iT = 0; iT < kNTBin; iT++) {
785 avg += (Float_t) (a[iT]);
787 avg /= (Float_t) kNTBin;
788 for (Int_t iT = 0; iT < kNTBin; iT++) {
789 rms += ((Float_t) (a[iT]) - avg) * ((Float_t) (a[iT]) - avg);
791 rms = TMath::Sqrt(rms / (Float_t) kNTBin);
793 AliDebug(2,Form("Large RMS (>1.7) (ROB,MCM,ADC)=(%02d,%02d,%02d), avg=%03.1f, rms=%03.1f"
794 ,iRob,iMcm,iAdc,avg,rms));
801 // Write end of raw data marker
803 buf[nw++] = kEndofrawdatamarker;
809 AliWarning("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
816 //_____________________________________________________________________________
818 //Int_t AliTRDrawData::ProduceHcDataV3(AliTRDarrayADC *digits, Int_t side , Int_t det, UInt_t *buf, Int_t maxSize)
819 Int_t AliTRDrawData::ProduceHcDataV3(AliTRDarrayADC *digits, Int_t side , Int_t det, UInt_t *buf, Int_t maxSize, Bool_t newEvent = kFALSE)
822 // This function simulates: Raw Version == 3 (Zero Suppression Prototype)
825 Int_t nw = 0; // Number of written words
826 Int_t of = 0; // Number of overflowed words
827 Int_t layer = fGeo->GetLayer( det ); // Layer
828 Int_t stack = fGeo->GetStack( det ); // Stack
829 Int_t sect = fGeo->GetSector( det ); // Sector (=iDDL)
830 Int_t nRow = fGeo->GetRowMax( layer, stack, sect );
831 Int_t nCol = fGeo->GetColMax( layer );
832 const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
833 Int_t kCtype = 0; // Chamber type (0:C0, 1:C1)
834 //Int_t iEv = 0xA; // Event ID. Now fixed to 10, how do I get event id?
838 Bool_t tracklet_on = fFee->GetTracklet(); // **new**
840 // Check the nCol and nRow.
842 (nRow == 16 || nRow == 12)) {
843 kCtype = (nRow-12) / 4;
846 AliError(Form("This type of chamber is not supported (nRow=%d, nCol=%d)."
851 AliDebug(1,Form("Producing raw data for sect=%d layer=%d stack=%d side=%d"
852 ,sect,layer,stack,side));
854 AliTRDmcmSim** mcm = new AliTRDmcmSim*[(kCtype + 3)*(fGeo->MCMmax())];
856 // in case no tracklet-words are processed: write the tracklet-endmarker as well as all additional words immediately and write
857 // raw-data in one go; if tracklet-processing is enabled, first all tracklet-words of a half-chamber have to be processed before the
858 // additional words (tracklet-endmarker,headers,...)are written. Raw-data is written in a second loop;
861 WriteIntermediateWords(buf,nw,of,maxSize,det,side);
864 // Scan for ROB and MCM
865 // scanning direction such, that tracklet-words are sorted in ascending z and then in ascending y order
866 // ROB numbering on chamber and MCM numbering on ROB increase with decreasing z and increasing y
867 for (Int_t iRobRow = (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
868 Int_t iRob = iRobRow * 2 + side;
870 for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
871 Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
872 Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm;
874 mcm[entry] = new AliTRDmcmSim();
875 mcm[entry]->Init( det, iRob, iMcm , newEvent);
876 //mcm[entry]->Init( det, iRob, iMcm);
877 if (newEvent == kTRUE) newEvent = kFALSE; // only one mcm is concerned with new event
878 Int_t padrow = mcm[entry]->GetRow();
880 // Copy ADC data to MCM simulator
881 for (Int_t iAdc = 0; iAdc < 21; iAdc++ ) {
882 Int_t padcol = mcm[entry]->GetCol( iAdc );
883 if ((padcol >= 0) && (padcol < nCol)) {
884 for (Int_t iT = 0; iT < kNTBin; iT++) {
885 mcm[entry]->SetData( iAdc, iT, digits->GetData( padrow, padcol, iT) );
888 else { // this means it is out of chamber, and masked ADC
889 mcm[entry]->SetDataPedestal( iAdc );
893 // Simulate process in MCM
894 // mcm[entry]->Filter(); // Apply filter
895 // mcm[entry]->ZSMapping(); // Calculate zero suppression mapping
896 mcm[entry]->CopyArrays();
897 mcm[entry]->GeneratefZSM1Dim();
898 mcm[entry]->RestoreZeros();
901 mcm[entry]->Tracklet();
902 Int_t tempNw = mcm[entry]->ProduceTrackletStream( &buf[nw], maxSize - nw );
907 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
912 // no tracklets: write raw-data already in this loop
914 // Write MCM data to buffer
915 Int_t tempNw = mcm[entry]->ProduceRawStream( &buf[nw], maxSize - nw );
919 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
930 //mcm->DumpData( "trdmcmdata.txt", "RFZS" ); // debugging purpose
934 // if tracklets are switched on, raw-data can be written only after all tracklets
936 WriteIntermediateWords(buf,nw,of,maxSize,det,side);
939 // Scan for ROB and MCM
940 for (Int_t iRobRow = (kCtype + 3)-1; iRobRow >= 0; iRobRow-- ) {
941 //Int_t iRob = iRobRow * 2 + side;
943 for (Int_t iMcmRB = 0; iMcmRB < fGeo->MCMmax(); iMcmRB++ ) {
944 Int_t iMcm = 16 - 4*(iMcmRB/4 + 1) + (iMcmRB%4);
946 Int_t entry = iRobRow*(fGeo->MCMmax()) + iMcm;
948 // Write MCM data to buffer
949 Int_t tempNw = mcm[entry]->ProduceRawStream( &buf[nw], maxSize - nw );
953 AliError(Form("Buffer overflow detected. Please increase the buffer size and recompile."));
966 // Write end of raw data marker
968 buf[nw++] = kEndofrawdatamarker;
974 AliError("Buffer overflow. Data is truncated. Please increase buffer size and recompile.");
982 //_____________________________________________________________________________
983 AliTRDdigitsManager *AliTRDrawData::Raw2Digits(AliRawReader *rawReader)
986 // Vx of the raw data reading
989 AliTRDarrayADC *digits = 0;
990 AliTRDarrayDictionary *track0 = 0;
991 AliTRDarrayDictionary *track1 = 0;
992 AliTRDarrayDictionary *track2 = 0;
994 //AliTRDSignalIndex *indexes = 0;
995 // Create the digits manager
996 AliTRDdigitsManager* digitsManager = new AliTRDdigitsManager();
997 digitsManager->CreateArrays();
999 //AliTRDrawOldStream input(rawReader);
1000 // AliTRDRawStreamV2 input(rawReader);
1001 // input.SetRawVersion( fFee->GetRAWversion() );
1004 AliTRDrawStreamBase *pinput = AliTRDrawStreamBase::GetRawStream(rawReader);
1005 AliTRDrawStreamBase &input = *pinput;
1006 input.SetRawVersion( fFee->GetRAWversion() ); //<= ADDED by MinJung
1008 AliInfo(Form("Stream version: %s", input.IsA()->GetName()));
1010 // Loop through the digits
1015 det = input.NextChamber(digitsManager);
1019 digits = (AliTRDarrayADC *) digitsManager->GetDigits(det);
1020 track0 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,0);
1021 track1 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,1);
1022 track2 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,2);
1024 if (digits) digits->Compress();
1025 if (track0) track0->Compress();
1026 if (track1) track1->Compress();
1027 if (track2) track2->Compress();
1034 return digitsManager;
1038 //_____________________________________________________________________________
1039 void AliTRDrawData::WriteIntermediateWords(UInt_t* buf, Int_t& nw, Int_t& of, const Int_t& maxSize, const Int_t& det, const Int_t& side) {
1041 Int_t layer = fGeo->GetLayer( det ); // Layer
1042 Int_t stack = fGeo->GetStack( det ); // Stack
1043 Int_t sect = fGeo->GetSector( det ); // Sector (=iDDL)
1044 Int_t rv = fFee->GetRAWversion();
1045 const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
1048 // Write end of tracklet marker
1050 buf[nw++] = kEndoftrackletmarker;
1056 // Half Chamber header
1057 // h[0] (there are 3 HC header)
1058 Int_t minorv = 0; // The minor version number
1059 Int_t add = 2; // The number of additional header words to follow
1060 x = (1<<31) | (rv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
1068 Int_t bcCtr = 99; // bunch crossing counter. Here it is set to 99 always for no reason
1069 Int_t ptCtr = 15; // pretrigger counter. Here it is set to 15 always for no reason
1070 Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
1071 x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1;
1079 Int_t pedSetup = 1; // Pedestal filter setup (0:1). Here it is always 1 for no reason
1080 Int_t gainSetup = 1; // Gain filter setup (0:1). Here it is always 1 for no reason
1081 Int_t tailSetup = 1; // Tail filter setup (0:1). Here it is always 1 for no reason
1082 Int_t xtSetup = 0; // Cross talk filter setup (0:1). Here it is always 0 for no reason
1083 Int_t nonlinSetup = 0; // Nonlinearity filter setup (0:1). Here it is always 0 for no reason
1084 Int_t bypassSetup = 0; // Filter bypass (for raw data) setup (0:1). Here it is always 0 for no reason
1085 Int_t commonAdditive = 10; // Digital filter common additive (0:63). Here it is always 10 for no reason
1086 x = (pedSetup<<31) | (gainSetup<<30) | (tailSetup<<29) | (xtSetup<<28) | (nonlinSetup<<27)
1087 | (bypassSetup<<26) | (commonAdditive<<20) | 1;
1096 //_____________________________________________________________________________
1097 void AliTRDrawData::WriteIntermediateWordsV2(UInt_t* buf, Int_t& nw, Int_t& of, const Int_t& maxSize, const Int_t& det, const Int_t& side) {
1099 Int_t layer = fGeo->GetLayer( det ); // Layer
1100 Int_t stack = fGeo->GetStack( det ); // Stack
1101 Int_t sect = fGeo->GetSector( det ); // Sector (=iDDL)
1102 Int_t rv = fFee->GetRAWversion();
1103 const Int_t kNTBin = AliTRDcalibDB::Instance()->GetNumberOfTimeBins();
1104 Bool_t tracklet_on = fFee->GetTracklet();
1107 // Write end of tracklet marker
1109 buf[nw++] = fgkEndOfTrackletMarker;
1110 buf[nw++] = fgkEndOfTrackletMarker; // the number of tracklet end marker should be more than 2
1117 // Half Chamber header
1118 // h[0] (there are 2 HC headers) xmmm mmmm nnnn nnnq qqss sssp ppcc ci01
1119 // , where x : Raw version speacial number (=1)
1120 // m : Raw version major number (test pattern, ZS, disable tracklet, 0, options)
1121 // n : Raw version minor number
1122 // q : number of addtional header words (default = 1)
1123 // s : SM sector number (ALICE numbering)
1124 // p : plane(layer) number
1125 // c : chamber(stack) number
1126 // i : side number (0:A, 1:B)
1127 Int_t majorv = 0; // The major version number
1128 Int_t minorv = 0; // The minor version number
1129 Int_t add = 1; // The number of additional header words to follow : now 1, previous 2
1130 Int_t TP = 0; // test pattern (default=0)
1131 Int_t ZS = (rv==3) ? 1 : 0; // zero suppression
1132 Int_t DT = (tracklet_on) ? 0 : 1; // disable tracklet
1134 majorv = (TP<<6) | (ZS<<5) | (DT<<4) | 1; // major version
1136 x = (1<<31) | (majorv<<24) | (minorv<<17) | (add<<14) | (sect<<9) | (layer<<6) | (stack<<3) | (side<<2) | 1;
1137 if (nw < maxSize) buf[nw++] = x; else of++;
1139 // h[1] tttt ttbb bbbb bbbb bbbb bbpp pphh hh01
1140 // , where t : number of time bins
1141 // b : bunch crossing number
1142 // p : pretrigger counter
1143 // h : pretrigger phase
1144 Int_t bcCtr = 99; // bunch crossing counter. Here it is set to 99 always for no reason
1145 Int_t ptCtr = 15; // pretrigger counter. Here it is set to 15 always for no reason
1146 Int_t ptPhase = 11; // pretrigger phase. Here it is set to 11 always for no reason
1147 //x = (bcCtr<<16) | (ptCtr<<12) | (ptPhase<<8) | ((kNTBin-1)<<2) | 1; // old format
1148 x = ((kNTBin)<<26) | (bcCtr<<10) | (ptCtr<<6) | (ptPhase<<2) | 1;
1149 if (nw < maxSize) buf[nw++] = x; else of++;
1153 //_____________________________________________________________________________
1154 AliTRDdigitsManager *AliTRDrawData::Raw2DigitsOLD(AliRawReader *rawReader)
1157 // Vx of the raw data reading
1160 AliTRDarrayADC *digits = 0;
1161 AliTRDarrayDictionary *track0 = 0;
1162 AliTRDarrayDictionary *track1 = 0;
1163 AliTRDarrayDictionary *track2 = 0;
1165 AliTRDSignalIndex *indexes = 0;
1166 // Create the digits manager
1167 AliTRDdigitsManager* digitsManager = new AliTRDdigitsManager();
1168 digitsManager->CreateArrays();
1170 //AliTRDrawOldStream input(rawReader);
1171 AliTRDRawStreamV2 input(rawReader);
1172 input.SetRawVersion( fFee->GetRAWversion() );
1175 AliInfo(Form("Stream version: %s", input.IsA()->GetName()));
1177 // Loop through the digits
1181 while (input.Next()) {
1183 det = input.GetDet();
1185 if (det != lastdet) { // If new detector found
1189 if (digits) digits->Compress();
1190 if (track0) track0->Compress();
1191 if (track1) track1->Compress();
1192 if (track2) track2->Compress();
1194 // Add a container for the digits of this detector
1195 digits = (AliTRDarrayADC *) digitsManager->GetDigits(det);
1196 track0 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,0);
1197 track1 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,1);
1198 track2 = (AliTRDarrayDictionary *) digitsManager->GetDictionary(det,2);
1200 // Allocate memory space for the digits buffer
1201 if (digits->GetNtime() == 0)
1203 digits->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
1204 track0->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
1205 track1->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
1206 track2->Allocate(input.GetMaxRow(),input.GetMaxCol(), input.GetNumberOfTimeBins());
1209 indexes = digitsManager->GetIndexes(det);
1210 indexes->SetSM(input.GetSM());
1211 indexes->SetStack(input.GetStack());
1212 indexes->SetLayer(input.GetLayer());
1213 indexes->SetDetNumber(det);
1214 if (indexes->IsAllocated() == kFALSE)
1215 indexes->Allocate(input.GetMaxRow(), input.GetMaxCol(), input.GetNumberOfTimeBins());
1218 // 3 timebin data are stored per word
1219 for (it = 0; it < 3; it++)
1221 if ( input.GetTimeBin() + it < input.GetNumberOfTimeBins() )
1223 if (input.GetSignals()[it] > 0)
1225 digits->SetData(input.GetRow(), input.GetCol(),input.GetTimeBin() + it, input.GetSignals()[it]);
1227 indexes->AddIndexRC(input.GetRow(), input.GetCol());
1228 track0->SetData(input.GetRow(), input.GetCol(), input.GetTimeBin() + it, 0);
1229 track1->SetData(input.GetRow(), input.GetCol(), input.GetTimeBin() + it, 0);
1230 track2->SetData(input.GetRow(), input.GetCol(), input.GetTimeBin() + it, 0);
1236 if (digits) digits->Compress();
1237 if (track0) track0->Compress();
1238 if (track1) track1->Compress();
1239 if (track2) track2->Compress();
1241 return digitsManager;