source: Sophya/trunk/AddOn/TAcq/brviscalc.cc@ 3911

Last change on this file since 3911 was 3911, checked in by ansari, 15 years ago

debug/amelioration print pour les modifs pour preparation Pittsburgh-Nov2010, Reza 21/11/2010
File size: 20.1 KB
Line 
1//----------------------------------------------------------------
2// Projet BAORadio - (C) LAL/IRFU 2008-2010
3// Classes de threads de calcul de visibilites pour BAORadio
4//----------------------------------------------------------------
5
6#include <stdlib.h>
7#include <string.h>
8#include <unistd.h>
9#include <fstream>
10#include <signal.h>
11
12#include "pexceptions.h"
13#include "fioarr.h"
14#include "matharr.h"
15#include "timestamp.h"
16#include "ctimer.h"
17
18#include "brviscalc.h"
19
20
21//---------------------------------------------------------------------
22// Classe de traitement - calcul de visibilite pour n fibres
23//---------------------------------------------------------------------
24
25/* --Methode-- */
26BRVisibilityCalculator::BRVisibilityCalculator(RAcqMemZoneMgr& memgr, string outpath, uint_4 nmean, size_t nthr)
27 : BRBaseProcessor(memgr), paralex_(*this, nthr), nparthr_(nthr),
28 outpath_(outpath), nmean_(nmean), nbcalc_(1), calcid_(0), vpdata_(2*memgr.NbFibres())
29 // , dtfos_(outpath+"visdt.fits", Fits_Create), visdt_(dtfos_, 1024, true);
30{
31 DefineRank(1,0);
32
33 uint_4 maxnpairs = (2*memgr_.NbFibres()+1)*memgr_.NbFibres();
34 chanids_.SetSize(2*memgr_.NbFibres());
35 chanpairnumall_.SetSize(maxnpairs);
36 chanpairsall_.SetSize(maxnpairs,2);
37 for(size_t i=0; i<2*memgr_.NbFibres(); i++) vpdata_[i]=NULL;
38 SelectPairs();
39
40 // visdt_.AddFloatColumn("mfc");
41 visdt_.AddDoubleColumn("mfc");
42 visdt_.AddDoubleColumn("mtt");
43 visdt_.AddIntegerColumn("jfreq");
44 visdt_.AddIntegerColumn("numch");
45 visdt_.AddFloatColumn("vre");
46 visdt_.AddFloatColumn("vim");
47
48 if (nmean_ < 1) nmean_=memgr_.NbPaquets();
49 if (nmean_ < 1) nmean_=1;
50
51 cout << " BRVisibilityCalculator::/Info nmean=" << nmean_ << endl;
52
53 totnbpaq_=0;
54 numfile_=0;
55 nb_flop_=0.;
56 moyfc_=moytt_=0.;
57
58 fgallfibok=NULL;
59 fgcktt_=false;
60 setNameId("viscalc", 0);
61}
62
63/* --Methode-- */
64BRVisibilityCalculator::~BRVisibilityCalculator()
65{
66 if (totnbpaq_<1) return;
67 cout << " ~BRVisibilityCalculator - Visibility Datatable : " << endl;
68 cout << visdt_;
69
70 string filename;
71 filename = outpath_+"visdt.ppf";
72 if (nbcalc_>1) {
73 char sbuff[32];
74 sprintf(sbuff,"visdt_%d.ppf",(int)calcid_);
75 filename = outpath_+sbuff;
76 }
77 POutPersist po(filename);
78 po << visdt_;
79 if (calcid_ == 0) {
80
81 if (fgcktt_) {
82 cout << " BRVisibilityCalculator - Check TimeTag done: TotNPaqProc= " << totnbpaq_ << endl;
83 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
84 cout << " BRTTCheck-Fiber[" << fib << "] NBadTT=" << vbadtt_[fib] << " NDiffTT>5="
85 << vndiff5tt_[fib] << " NotSameTT=" << vnsamett_[fib] << endl;
86 }
87 POutPersist pott(outpath_+"ttfcmtx.ppf");
88 pott << PPFNameTag("FC") << fcmtx_;
89 pott << PPFNameTag("TT") << ttmtx_;
90 }
91 }
92}
93
94/* --Methode-- */
95void BRVisibilityCalculator::DefineRank(uint_4 nbc, uint_4 cid)
96{
97 if ((nbc>6)||(cid>=nbc))
98 throw ParmError("BRVisibilityCalculator::DefineRank() NbCalc > 6 !");
99 nbcalc_=nbc;
100 calcid_=cid;
101 if (nbcalc_>1) {
102 uint_4 maxnpairs = (2*memgr_.NbFibres()+1)*memgr_.NbFibres();
103 uint_4 npairs=maxnpairs/nbcalc_;
104 if (calcid_==(nbcalc_-1))
105 SelectPairs(calcid_*npairs, maxnpairs-calcid_*npairs);
106 else
107 SelectPairs(calcid_*npairs, npairs);
108 MemZaction mmzas[6]={MemZA_ProcA,MemZA_ProcB,MemZA_ProcC,MemZA_ProcD,MemZA_ProcE,MemZA_ProcF};
109 SetMemZAction(mmzas[calcid_]);
110 setNameId("viscalc_grp", calcid_);
111 }
112 return ;
113}
114
115/* --Methode-- */
116uint_4 BRVisibilityCalculator::SelectPairs(uint_4 pair1, uint_4 nbpairs)
117{
118 BRPaquet paq(memgr_.PaqSize());
119 uint_4 maxnpairs = (2*memgr_.NbFibres()+1)*memgr_.NbFibres();
120
121 if (pair1 >= maxnpairs) pair1=maxnpairs-1;
122 if (nbpairs > maxnpairs-pair1) nbpairs=maxnpairs-pair1;
123 pairst_=pair1;
124 nbpairs_=nbpairs;
125 vismtx_.SetSize(nbpairs_, paq.DataSize()/4);
126
127 chanpairnum_.SetSize(nbpairs_);
128 chanpairs_.SetSize(nbpairs_,2);
129
130 return nbpairs_;
131}
132
133/* --Methode-- */
134int BRVisibilityCalculator::SelectFreqBinning(uint_4 freq1, uint_4 freq2, uint_4 nbfreq)
135{
136 jf1_=freq1; jf2_=freq2;
137 if ((jf1_<1)||(jf1_>=vismtx_.NCols())) jf1_=1;
138 if ((jf2_<1)||(jf2_>=vismtx_.NCols())||(jf2_<jf1_)) jf2_=vismtx_.NCols()-1;
139 if (nbfreq<1) nbfreq=(jf2_-jf1_);
140 djf_=(jf2_-jf1_)/nbfreq;
141 if (djf_<1) djf_=1;
142 cout << " BRVisibilityCalculator::SelectFreqBinning/Info JF1=" << jf1_
143 << " JF2=" << jf2_ << " DJF=" << djf_ << endl;
144
145}
146
147/* --Methode-- */
148void BRVisibilityCalculator::UpdateChanIds()
149{
150
151 for(size_t i=0; i<memgr_.NbFibres(); i++) {
152 chanids_(2*i)=memgr_.FiberId(i)*2-1;
153 chanids_(2*i+1)=memgr_.FiberId(i)*2;
154 }
155 sa_size_t k=0; // numero de ligne dans la matrice des visibilites
156 for(size_t i=0; i<vpdata_.size(); i++) {
157 for(size_t j=i; j<vpdata_.size(); j++) {
158 chanpairnumall_(k)=chanids_(i)*CHANPAIRCONVFAC+chanids_(j);
159 chanpairsall_(k,0)=chanids_(i); chanpairsall_(k,1)=chanids_(j); k++;
160 }
161 }
162 sa_size_t kpair=0;
163 k=0; // numero de ligne dans la matrice des visibilites
164 for(size_t i=0; i<vpdata_.size(); i++) {
165 for(size_t j=i; j<vpdata_.size(); j++) {
166 kpair++;
167 if (kpair<(pairst_+1)) continue;
168 if (kpair>=(pairst_+nbpairs_+1)) break;
169 chanpairnum_(k)=chanids_(i)*CHANPAIRCONVFAC+chanids_(j);
170 chanpairs_(k,0)=chanids_(i); chanpairs_(k,1)=chanids_(j); k++;
171 }
172 }
173
174 string filename;
175 filename = outpath_+"chanum.ppf";
176 if (nbcalc_>1) {
177 char sbuff[32];
178 sprintf(sbuff,"chanum_%d.ppf",(int)calcid_);
179 filename = outpath_+sbuff;
180 }
181 POutPersist poc(filename);
182 poc << PPFNameTag("chanids") << chanids_;
183 poc << PPFNameTag("chanpairs") << chanpairs_;
184 poc << PPFNameTag("chanpairnum") << chanpairnum_;
185 poc << PPFNameTag("chanpairsall") << chanpairsall_;
186 poc << PPFNameTag("chanpairnumall") << chanpairnumall_;
187 cout << "BRVisibilityCalculator[" << calcid_ << "]::UpdateChanIds() Channel Ids/Pairs saved to PPF file "
188 << filename << endl;
189 cout << " ... ChannelPairs= " ;
190 for(sa_size_t ir=0; ir<chanpairs_.NRows(); ir++) {
191 if (ir%10==0) cout << endl;
192 cout << "(" << chanpairs_(ir,0) << "," << chanpairs_(ir,1) << ") ";
193 }
194 cout << endl;
195 return;
196}
197
198/* --Methode-- */
199int BRVisibilityCalculator::ActivateTimeTagCheck(uint_8 maxnpaq)
200{
201 mindeltatt_=memgr_.PaqSize()/2;
202 if (mindeltatt_<1) mindeltatt_=1;
203 fcmtx_.SetSize(memgr_.NbFibres(), maxnpaq);
204 ttmtx_.SetSize(memgr_.NbFibres(), maxnpaq);
205 vlasttt_.resize(memgr_.NbFibres(), 0);
206 vbadtt_.resize(memgr_.NbFibres(), 0);
207 vnsamett_.resize(memgr_.NbFibres(), 0);
208 vndiff5tt_.resize(memgr_.NbFibres(), 0);
209
210 fgcktt_=true;
211 cout << " BRVisibilityCalculator::ActivateTimeTagCheck() - TT/Fc matrix NCols=" << maxnpaq
212 << " MinDeltaTT=" << mindeltatt_ << endl;
213
214 return 0;
215}
216
217
218/* --Methode-- */
219void BRVisibilityCalculator::run()
220{
221 cout << " BRVisibilityCalculator[" << calcid_ << "/" << nbcalc_
222 << "]::run() - Starting " << " NFibers=" << memgr_.NbFibres()
223 << " NChan=" << 2*memgr_.NbFibres() << " NPairs=" << nbpairs_ << " First:" << pairst_ << endl;
224
225 if (nparthr_ < 2) return BRBaseProcessor::run();
226 // Execution multithread parallele
227 setRC(1);
228 int rc=0;
229 try {
230 if ((nmean_%memgr_.NbPaquets())!=0) {
231 uint_4 mnmean = (nmean_/memgr_.NbPaquets()+1)*memgr_.NbPaquets();
232 cout << " BRVisibilityCalculator::run()/Info changing nmean=" << nmean_ << " to multiple of"
233 << " memgr_.NbPaquets() -> " << mnmean << endl;
234 nmean_=mnmean;
235 }
236 paralex_.SetParallelTask(*this);
237 cout << " BRVisibilityCalculator::run()/Info : starting ParallelExecutor with nThreads="
238 << paralex_.nThreads() << " ... " << endl;
239 paralex_.start();
240
241 fgallfibok = new bool[memgr_.NbPaquets()];
242
243 size_t paqsz=memgr_.PaqSize();
244 bool fgrun=true;
245 while (fgrun) {
246 if (stop_) break;
247 if (memgr_.GetRunState() == MemZR_Stopped) break;
248 int mid = memgr_.FindMemZoneId(mmact_); // (MemZA_ProcA);
249 // Byte* buffg = memgr_.GetMemZone(mid);
250 // if (buffg == NULL) {
251 if (mid < 0) {
252 cout << "BRVisibilityCalculator[" << calcid_ << "]::run()/ERROR FindMemZoneId("
253 << (int)mmact_ << ") ->" << mid << ") -> NULL" << endl;
254 setRC(7); fgrun=false;
255 break;
256 }
257 cts_=memgr_.GetAuxData(mid)->FillTime(); // get associated date/time (DATEOBS)
258 if (totnbpaq_==0) UpdateChanIds(); // Appele ici pour etre sur que le thread de remplissage a mis l'info a jour.
259
260 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
261 fbuff_[fib] = memgr_.GetMemZone(mid,fib);
262 if (fbuff_[fib] == NULL) { // cela ne devrait pas arriver
263 cout << "BRVisibilityCalculator[" << calcid_ << "]::run()/ERROR memgr.GetMemZone(" << mid << "," << fib << ") -> NULL" << endl;
264 setRC(9); fgrun=false;
265 break;
266 }
267 }
268
269 if (totnbpaq_%nmean_ == 0) {
270 if (totnbpaq_ > 0) {
271 moyfc_/=nmean_;
272 moytt_/=nmean_;
273 UpdateVisMtxInfo(); // add/update keywords in the Info DVList
274 // ATTENTION : Matrice visibilites non moyennee
275 char nfile[48];
276 if (nbcalc_==1)
277 sprintf(nfile,"vismtx%d.ppf",numfile_);
278 else
279 sprintf(nfile,"vismtx_%d_%d.ppf",(int)calcid_,numfile_);
280 string flnm=outpath_+nfile;
281 POutPersist po(flnm);
282 po << vismtx_;
283 cout << numfile_ << "-BRVisCalc[" << calcid_ << "/" << nbcalc_ << "]::run() NPaqProc="
284 << totnbpaq_ << " TotMegaFLOP=" << (uint_8)TotNbMegaFLOP() << " -> VisibMtx in " << flnm << endl;
285
286 FillVisibTable(moyfc_, moytt_);
287 numfile_++;
288 }
289 vismtx_ = complex<r_4>((r_4)0.,(r_4)0.);
290 moyfc_=moytt_=0.;
291 // first_tmstamp_.SetNow(); // Current date and time
292 first_tmstamp_=cts_; // Current date and time
293 }
294
295 for(size_t jp=0; jp<memgr_.NbPaquets(); jp++) { // boucle sur les paquets d'une zone
296 fgallfibok[jp]=fgokallfibers_=true;
297 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
298 vpaq_[fib].Set(fbuff_[fib]+jp*paqsz);
299 vfgok_[fib] = vpchk_[fib].Check(vpaq_[fib],curfc_[fib]);
300 if (!vfgok_[fib]) fgallfibok[jp]=fgokallfibers_=false;
301 }
302 if (fgokallfibers_) {
303 if (totprocnpaq_==0) {
304 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
305 fcfirst_[fib]=curfc_[fib];
306 ttfirst_[fib]=vpaq_[fib].TimeTag();
307 }
308 }
309 totprocnpaq_++;
310 moyfc_ += curfc_[0];
311 moytt_ += (vpaq_[0].TimeTag()-ttfirst_[0]);
312 if ((fgcktt_)&&(calcid_==0)) CheckTimeTag();
313 if (totnbpaq_%nmean_ == 0) {
314 first_fc_=curfc_[0];
315 first_tt_= (vpaq_[0].TimeTag()-ttfirst_[0]);
316 }
317 totnbpaq_++;
318 }
319 } // Fin de boucle sur les paquets
320
321 // Execution parallele pour calcul des visibilites par bandes de frequence
322 int rcpex=paralex_.execute();
323 if (rcpex!=0) cout << " BRVisibilityCalculator[" << calcid_ << "]::run() / Error Rc[paralex_.execute()]=" << rcpex << endl;
324
325 memgr_.FreeMemZone(mid, mmsta_); // (MemZS_ProcA);
326 } // Fin de boucle sur les zones a traiter
327 //------------------------------------
328 cout << " --------- END BRVisibilityCalculator[" << calcid_ << "]::run() , TotNbProcPaq=" << totprocnpaq_ << endl;
329 /*
330 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) vpchk_[fib].Print();
331 cout << " ------------------------------------ " << endl;
332 */
333 delete[] fgallfibok;
334 }
335 catch (std::exception& exc) {
336 cout << " BRVisibilityCalculator[" << calcid_ << "]::run()/catched std::exception " << exc.what() << endl;
337 setRC(98);
338 return;
339 }
340 catch(...) {
341 cout << " BRVisibilityCalculator[" << calcid_ << "]::run()/catched unknown ... exception " << endl;
342 setRC(99);
343 return;
344 }
345
346}
347
348/* --Methode-- */
349int BRVisibilityCalculator::Process()
350{
351 if (totnbpaq_==0) UpdateChanIds(); // Appele ici pour etre sur que le thread de remplissage a mis l'info a jour.
352 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
353 vpdata_[2*fib] = vpaq_[fib].Data1C();
354 vpdata_[2*fib+1] = vpaq_[fib].Data2C();
355 }
356
357 if (totnbpaq_%nmean_ == 0) {
358 if (totnbpaq_ > 0) {
359 moyfc_/=nmean_;
360 moytt_/=nmean_;
361 UpdateVisMtxInfo(); // add/update keywords in the Info DVList
362 // ATTENTION : Matrice visibilites non moyennee
363 char nfile[48];
364 if (nbcalc_==1)
365 sprintf(nfile,"vismtx%d.ppf",numfile_);
366 else
367 sprintf(nfile,"vismtx_%d_%d.ppf",(int)calcid_,numfile_);
368 string flnm=outpath_+nfile;
369 POutPersist po(flnm);
370 po << vismtx_;
371 cout << numfile_ << "-BRVisCalc[" << calcid_ << "/" << nbcalc_ << "]::Process() NPaqProc="
372 << totnbpaq_ << " TotMegaFLOP=" << (uint_8)TotNbMegaFLOP() << " -> VisibMtx in " << flnm << endl;
373 FillVisibTable(moyfc_, moytt_);
374 numfile_++;
375 }
376 vismtx_ = complex<r_4>((r_4)0.,(r_4)0.);
377 moyfc_=moytt_=0.;
378 first_fc_=curfc_[0];
379 first_tt_= (vpaq_[0].TimeTag()-ttfirst_[0]);
380 // first_tmstamp_.SetNow(); // Current date and time
381 first_tmstamp_=cts_; // Current date and time
382 }
383
384// kpair=numero sequentiel de la paire: 0->(0,0), 1->(0,1), 2->(0,2), 3->(0,3), 4->(1,1), 5->(1,2) ...
385 sa_size_t kpair=0;
386 sa_size_t k=0; // numero de ligne dans la matrice des visibilites
387 for(size_t i=0; i<vpdata_.size(); i++) {
388 for(size_t j=i; j<vpdata_.size(); j++) {
389 kpair++;
390 if (kpair<(pairst_+1)) continue;
391 if (kpair>=(pairst_+nbpairs_+1)) break;
392 TVector< complex<r_4> > vis = vismtx_.Row(k); k++;
393 for(sa_size_t f=1; f<vis.Size(); f++) {
394 vis(f) += complex<r_4>((r_4)vpdata_[i][f].realB(), (r_4)vpdata_[i][f].imagB()) *
395 complex<r_4>((r_4)vpdata_[j][f].realB(), -(r_4)vpdata_[j][f].imagB());
396 }
397 nb_flop_ += (8.*(r_8)(vis.Size()-1));
398 }
399 }
400
401 moyfc_ += curfc_[0];
402 moytt_ += (vpaq_[0].TimeTag()-ttfirst_[0]);
403 if ((fgcktt_)&&(calcid_==0)) CheckTimeTag();
404 totnbpaq_++;
405 return 0;
406}
407
408/* --Methode-- */
409void BRVisibilityCalculator::UpdateVisMtxInfo()
410{
411 string ikey,ikdesc;
412 ikey="DATEOBS"; ikdesc=" Date/Time corresponding to TimeTagFirst";
413 vismtx_.Info().SetS(ikey,first_tmstamp_.ToString());
414 vismtx_.Info().SetComment(ikey,ikdesc);
415 ikey="FirstFC"; ikdesc="First FrameCounter";
416 vismtx_.Info().SetI(ikey,first_fc_);
417 vismtx_.Info().SetComment(ikey,ikdesc);
418 ikey="FirstTT"; ikdesc="First TimeTag";
419 vismtx_.Info().SetI(ikey,first_tt_);
420 vismtx_.Info().SetComment(ikey,ikdesc);
421 ikey="LastFC"; ikdesc="Last FrameCounter";
422 vismtx_.Info().SetI(ikey,curfc_[0]);
423 vismtx_.Info().SetComment(ikey,ikdesc);
424 ikey="LastTT"; ikdesc="Last TimeTag";
425 vismtx_.Info().SetI(ikey,vpaq_[0].TimeTag()-ttfirst_[0]);
426 vismtx_.Info().SetComment(ikey,ikdesc);
427 ikey="MeanFC"; ikdesc="Mean FrameCounter";
428 vismtx_.Info().SetD(ikey,moyfc_);
429 vismtx_.Info().SetComment(ikey,ikdesc);
430 ikey="MeanTT"; ikdesc="Mean TimeTag";
431 vismtx_.Info().SetD(ikey,moytt_);
432 vismtx_.Info().SetComment(ikey,ikdesc);
433 ikey="NPAQSUM"; ikdesc="Number of paquets summed";
434 vismtx_.Info().SetI(ikey,nmean_);
435}
436
437
438/* --Methode-- */
439int BRVisibilityCalculator::execute(int tid)
440{
441 vector<TwoByteComplex*> pvpdata(2*memgr_.NbFibres());
442 size_t paqsz=memgr_.PaqSize();
443 BRPaquet ppaq(paqsz);
444
445
446 sa_size_t fdelt = vismtx_.NCols()/nparthr_;
447 sa_size_t fdeb = tid*fdelt;
448 sa_size_t ffin = (tid+1)*fdelt;
449
450 if (fdeb<1) fdeb=1;
451 if ((ffin>vismtx_.NCols())||(tid==(nparthr_-1))) ffin=vismtx_.NCols();
452
453 for(size_t jp=0; jp<memgr_.NbPaquets(); jp++) { // boucle sur les paquets d'une zone
454 if (!fgallfibok[jp]) continue;
455 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
456 ppaq.Set(fbuff_[fib]+jp*paqsz);
457 pvpdata[2*fib] = ppaq.Data1C();
458 pvpdata[2*fib+1] = ppaq.Data2C();
459 }
460
461
462// kpair=numero sequentiel de la paire: 0->(0,0), 1->(0,1), 2->(0,2), 3->(0,3), 4->(1,1), 5->(1,2) ...
463 sa_size_t kpair=0;
464 sa_size_t k=0; // numero de ligne dans la matrice des visibilites
465 for(size_t i=0; i<vpdata_.size(); i++) {
466 for(size_t j=i; j<vpdata_.size(); j++) {
467 kpair++;
468 if (kpair<(pairst_+1)) continue;
469 if (kpair>=(pairst_+nbpairs_+1)) break;
470 TVector< complex<r_4> > vis = vismtx_.Row(k); k++;
471 for(sa_size_t f=fdeb; f<ffin; f++) {
472 vis(f) += complex<r_4>((r_4)pvpdata[i][f].realB(), (r_4)pvpdata[i][f].imagB()) *
473 complex<r_4>((r_4)pvpdata[j][f].realB(), -(r_4)pvpdata[j][f].imagB());
474 }
475 nb_flop_ += (8.*(r_8)(ffin-fdeb));
476 }
477 }
478
479 } // Fin de boucle sur les paquets
480
481 return 0;
482}
483
484/* --Methode-- */
485int BRVisibilityCalculator::FillVisibTable(double fcm, double ttm)
486{
487 double xnt[10];
488 xnt[0]=fcm; xnt[1]=ttm/1.25e8;
489
490 if (djf_<2) {
491 for(sa_size_t rv=0; rv<vismtx_.NRows(); rv++) {
492 for(sa_size_t jf=jf1_; jf<jf2_; jf++) {
493 xnt[2]=jf;
494 xnt[3]=chanpairnumall_(rv+pairst_);
495 xnt[4]=vismtx_(rv,jf).real()/(r_4)(nmean_);
496 xnt[5]=vismtx_(rv,jf).imag()/(r_4)(nmean_);
497 visdt_.AddRow(xnt);
498 }
499 }
500 }
501 else {
502 for(sa_size_t rv=0; rv<vismtx_.NRows(); rv++) {
503 for(sa_size_t jf=jf1_; jf<jf2_; jf+=djf_) {
504 r_4 moyreal=0.;
505 r_4 moyimag=0.;
506 sa_size_t jjfmx=jf+djf_;
507 if (jjfmx > vismtx_.NCols()) jjfmx=vismtx_.NCols();
508 for(sa_size_t jjf=jf; jjf<jjfmx; jjf++) {
509 moyreal+=vismtx_(rv,jjf).real();
510 moyimag+=vismtx_(rv,jjf).imag();
511 }
512 xnt[2]=jf+djf_/2;
513 xnt[3]=chanpairnumall_(rv+pairst_);
514 xnt[4]=moyreal/(r_4)(nmean_*djf_);
515 xnt[5]=moyimag/(r_4)(nmean_*djf_);
516 visdt_.AddRow(xnt);
517 }
518 }
519 }
520 return 0;
521}
522
523/* --Methode-- */
524int BRVisibilityCalculator::CheckTimeTag()
525{
526 if (totnbpaq_==0) {
527 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
528 vlasttt_[fib]=ttfirst_[fib];
529 if (ttmtx_.NCols()>0) {
530 fcmtx_(fib,totnbpaq_) = curfc_[fib];
531 ttmtx_(fib,totnbpaq_) = vlasttt_[fib];
532 }
533 }
534 return 0;
535 }
536 for(size_t fib=0; fib<(size_t)memgr_.NbFibres(); fib++) {
537 int_8 ld = (int_8)vpaq_[fib].TimeTag()-(int_8)vlasttt_[fib];
538 int_8 fd = (int_8)vpaq_[fib].TimeTag()-(int_8)ttfirst_[fib]-(int_8)vpaq_[0].TimeTag()+(int_8)ttfirst_[0];
539 /* if ( (ld < mindeltatt_) || (fd<-5) || (fd>5)) { vbadtt_[fib]++; vnsamett_[fib]++; }
540 else {
541 if (fd!=0) vnsamett_[fib]++;
542 }
543 */
544 if (ld < mindeltatt_) vbadtt_[fib]++;
545 else {
546 if (fd != 0) vnsamett_[fib]++;
547 if ((fd<-5)||(fd>5)) vndiff5tt_[fib]++;
548 }
549 vlasttt_[fib]=vpaq_[fib].TimeTag();
550 if (totnbpaq_<ttmtx_.NCols()) {
551 fcmtx_(fib,totnbpaq_) = curfc_[fib];
552 ttmtx_(fib,totnbpaq_) = vlasttt_[fib];
553 }
554 }
555 return 0;
556}
557
558//-------------------------------------------------------------------------------
559// Classe Groupe (ensemble) de Calculateur de Visibilites, tournant en parallele
560//-------------------------------------------------------------------------------
561
562/* --Methode-- */
563BRVisCalcGroup::BRVisCalcGroup(size_t nbcalc, RAcqMemZoneMgr& memgr, string outpath, uint_4 nmean, size_t nthr)
564 : tm_(false)
565{
566 if ((nbcalc<1)||(nbcalc>6))
567 throw ParmError("BRVisCalcGroup::BRVisCalcGroup NbCalc > 6 !");
568 for(size_t i=0; i<nbcalc; i++) {
569 BRVisibilityCalculator * viscp=new BRVisibilityCalculator(memgr, outpath, nmean, nthr);
570 viscp->DefineRank(nbcalc, i);
571 viscalcp_.push_back(viscp);
572 }
573}
574/* --Methode-- */
575BRVisCalcGroup::~BRVisCalcGroup()
576{
577 for(size_t i=0; i<viscalcp_.size(); i++)
578 delete viscalcp_[i];
579}
580/* --Methode-- */
581int BRVisCalcGroup::SelectFreqBinning(uint_4 freq1, uint_4 freq2, uint_4 nbfreq)
582{
583 int rc=0;
584 for(size_t i=0; i<viscalcp_.size(); i++)
585 rc=viscalcp_[i]->SelectFreqBinning(freq1, freq2, nbfreq);
586 return rc;
587}
588/* --Methode-- */
589void BRVisCalcGroup::start()
590{
591 for(size_t i=0; i<viscalcp_.size(); i++)
592 viscalcp_[i]->start();
593 tm_.SplitQ();
594}
595/* --Methode-- */
596void BRVisCalcGroup::join()
597{
598 r_8 totflop=0.;
599 for(size_t i=0; i<viscalcp_.size(); i++) {
600 viscalcp_[i]->join();
601 // cout << " BRVisCalcGroup::join()/ VisibCalc[" << i << "]->TotNbMegaFLOP()="
602 // << viscalcp_[i]->TotNbFLOP()/1024e3 << endl;
603 totflop += viscalcp_[i]->TotNbFLOP();
604 }
605 tm_.SplitQ();
606 cout << " ----------------------------------------------------------" << endl;
607 cout << " BRVisCalcGroup::join() : Finished " << viscalcp_.size() << " VisibilityCalculator(s)" << endl;
608 cout << " ... Elaspsed time: " << tm_.PartialElapsedTimems()
609 << " ms (total:" << tm_.TotalElapsedTimems() << ")" << endl;
610 double mflopsrate=totflop/(r_8)tm_.PartialElapsedTimems()/(1024.);
611 cout << " ... TotalMegaFLOP= " << totflop/(1024.e3) << " @ "
612 << mflopsrate << " MFLOP/s" << " (=" << mflopsrate/(r_8)viscalcp_.size() << "/VisibCalcObject)" << endl;
613 cout << " ----------------------------------------------------------" << endl;
614 return;
615}
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