num_cpus           27 src/biosav.c   static ITG *kon1,*ipkon1,*ne1,*mi1,num_cpus,*nkapar=NULL,*nkepar=NULL;
num_cpus           44 src/biosav.c       num_cpus = 0;
num_cpus           66 src/biosav.c   	num_cpus=atoi(envloc);
num_cpus           67 src/biosav.c   	if(num_cpus<0){
num_cpus           68 src/biosav.c   	    num_cpus=0;
num_cpus           69 src/biosav.c   	}else if(num_cpus>sys_cpus){
num_cpus           70 src/biosav.c   	    num_cpus=sys_cpus;
num_cpus           77 src/biosav.c       if(num_cpus==0){
num_cpus           79 src/biosav.c   	    num_cpus = atoi(env);
num_cpus           80 src/biosav.c   	if (num_cpus < 1) {
num_cpus           81 src/biosav.c   	    num_cpus=1;
num_cpus           82 src/biosav.c   	}else if(num_cpus>sys_cpus){
num_cpus           83 src/biosav.c   	    num_cpus=sys_cpus;
num_cpus           89 src/biosav.c       NNEW(nkapar,ITG,num_cpus);
num_cpus           90 src/biosav.c       NNEW(nkepar,ITG,num_cpus);
num_cpus           99 src/biosav.c       if(nkphi<num_cpus) num_cpus=nkphi;
num_cpus          101 src/biosav.c       idelta=nkphi/num_cpus;
num_cpus          106 src/biosav.c       for(i=0;i<num_cpus;i++){
num_cpus          108 src/biosav.c   	if(i!=num_cpus-1){
num_cpus          123 src/biosav.c   	if(j==num_cpus) break;
num_cpus          159 src/biosav.c       printf(" Using up to %" ITGFORMAT " cpu(s) for the Biot-Savart calculation.\n\n", num_cpus);
num_cpus          163 src/biosav.c       pthread_t tid[num_cpus];
num_cpus          165 src/biosav.c       NNEW(ithread,ITG,num_cpus);
num_cpus          166 src/biosav.c       for(i=0;i<num_cpus;i++){
num_cpus          170 src/biosav.c       for(i=0;i<num_cpus;i++)pthread_join(tid[i], NULL);
num_cpus           37 src/compfluid.c static ITG num_cpus;
num_cpus          125 src/compfluid.c   num_cpus = 0;
num_cpus          147 src/compfluid.c       num_cpus=atoi(envloc);
num_cpus          148 src/compfluid.c       if(num_cpus<0){
num_cpus          149 src/compfluid.c 	  num_cpus=0;
num_cpus          150 src/compfluid.c       }else if(num_cpus>sys_cpus){
num_cpus          151 src/compfluid.c 	  num_cpus=sys_cpus;
num_cpus          158 src/compfluid.c   if(num_cpus==0){
num_cpus          160 src/compfluid.c 	  num_cpus = atoi(env);
num_cpus          161 src/compfluid.c       if (num_cpus < 1) {
num_cpus          162 src/compfluid.c 	  num_cpus=1;
num_cpus          163 src/compfluid.c       }else if(num_cpus>sys_cpus){
num_cpus          164 src/compfluid.c 	  num_cpus=sys_cpus;
num_cpus          170 src/compfluid.c   if(*nef<num_cpus) num_cpus=*nef;
num_cpus          172 src/compfluid.c   printf(" Using up to %" ITGFORMAT " cpu(s) for CFD.\n", num_cpus);
num_cpus          174 src/compfluid.c   pthread_t tid[num_cpus];
num_cpus           40 src/radflowload.c     *irowrad1,*nzsrad1,num_cpus,*ntri1,*ntr1;
num_cpus          310 src/radflowload.c       num_cpus = 0;
num_cpus          332 src/radflowload.c 	  num_cpus=atoi(envloc);
num_cpus          333 src/radflowload.c 	  if(num_cpus<0){
num_cpus          334 src/radflowload.c 	      num_cpus=0;
num_cpus          335 src/radflowload.c 	  }else if(num_cpus>sys_cpus){
num_cpus          336 src/radflowload.c 	      num_cpus=sys_cpus;
num_cpus          344 src/radflowload.c       if(num_cpus==0){
num_cpus          346 src/radflowload.c 	      num_cpus = atoi(env);
num_cpus          347 src/radflowload.c 	  if (num_cpus < 1) {
num_cpus          348 src/radflowload.c 	      num_cpus=1;
num_cpus          349 src/radflowload.c 	  }else if(num_cpus>sys_cpus){
num_cpus          350 src/radflowload.c 	      num_cpus=sys_cpus;
num_cpus          356 src/radflowload.c       if(*ntr<num_cpus) num_cpus=*ntr;
num_cpus          358 src/radflowload.c       pthread_t tid[num_cpus];
num_cpus          398 src/radflowload.c 	      RENEW(adview,double,num_cpus**ntr);
num_cpus          399 src/radflowload.c 	      RENEW(auview,double,num_cpus*2**nzsrad);
num_cpus          401 src/radflowload.c 	      NNEW(dist,double,num_cpus**ntrit);
num_cpus          402 src/radflowload.c 	      NNEW(idist,ITG,num_cpus**ntrit);
num_cpus          404 src/radflowload.c 	      DMEMSET(adview,0,num_cpus**ntr,0.);
num_cpus          405 src/radflowload.c 	      DMEMSET(auview,0,num_cpus*2**nzsrad,0.);
num_cpus          415 src/radflowload.c 	      printf(" Using up to %" ITGFORMAT " cpu(s) for the viewfactor calculation.\n\n", num_cpus);
num_cpus          419 src/radflowload.c 	      NNEW(ithread,ITG,num_cpus);
num_cpus          420 src/radflowload.c 	      for(i=0; i<num_cpus; i++)  {
num_cpus          424 src/radflowload.c 	      for(i=0; i<num_cpus; i++)  pthread_join(tid[i], NULL);
num_cpus          427 src/radflowload.c 		  for(j=1;j<num_cpus;j++){
num_cpus          434 src/radflowload.c 		  for(j=1;j<num_cpus;j++){
num_cpus          557 src/radflowload.c     nedelta=(ITG)ceil(*ntri1/(double)num_cpus);
num_cpus           32 src/results.c      num_cpus,mt1,*nk1,*ne01,*nshcon1,*nelemload1,*nload1,*mortar1,
num_cpus          105 src/results.c      num_cpus = 0;
num_cpus          127 src/results.c  	num_cpus=atoi(envloc);
num_cpus          128 src/results.c  	if(num_cpus<0){
num_cpus          129 src/results.c  	    num_cpus=0;
num_cpus          130 src/results.c  	}else if(num_cpus>sys_cpus){
num_cpus          131 src/results.c  	    num_cpus=sys_cpus;
num_cpus          139 src/results.c      if(num_cpus==0){
num_cpus          141 src/results.c  	    num_cpus = atoi(env);
num_cpus          142 src/results.c  	if (num_cpus < 1) {
num_cpus          143 src/results.c  	    num_cpus=1;
num_cpus          144 src/results.c  	}else if(num_cpus>sys_cpus){
num_cpus          145 src/results.c  	    num_cpus=sys_cpus;
num_cpus          151 src/results.c      if(*ne<num_cpus) num_cpus=*ne;
num_cpus          153 src/results.c      pthread_t tid[num_cpus];
num_cpus          178 src/results.c  	NNEW(fn1,double,num_cpus*mt**nk);
num_cpus          179 src/results.c  	NNEW(qa1,double,num_cpus*3);
num_cpus          180 src/results.c  	NNEW(nal,ITG,num_cpus);
num_cpus          203 src/results.c  		printf(" Using up to %" ITGFORMAT " cpu(s) for the stress calculation.\n\n", num_cpus);
num_cpus          208 src/results.c  	NNEW(ithread,ITG,num_cpus);
num_cpus          209 src/results.c  	for(i=0; i<num_cpus; i++)  {
num_cpus          213 src/results.c  	for(i=0; i<num_cpus; i++)  pthread_join(tid[i], NULL);
num_cpus          219 src/results.c  	    for(j=1;j<num_cpus;j++){
num_cpus          228 src/results.c  	for(j=1;j<num_cpus;j++){
num_cpus          235 src/results.c          for(j=0;j<num_cpus;j++){
num_cpus          247 src/results.c  	for(j=1;j<num_cpus;j++){
num_cpus          264 src/results.c  	NNEW(fn1,double,num_cpus*mt**nk);
num_cpus          265 src/results.c  	NNEW(qa1,double,num_cpus*3);
num_cpus          266 src/results.c  	NNEW(nal,ITG,num_cpus);
num_cpus          288 src/results.c  	printf(" Using up to %" ITGFORMAT " cpu(s) for the heat flux calculation.\n\n", num_cpus);
num_cpus          292 src/results.c  	NNEW(ithread,ITG,num_cpus);
num_cpus          293 src/results.c  	for(i=0; i<num_cpus; i++)  {
num_cpus          297 src/results.c  	for(i=0; i<num_cpus; i++)  pthread_join(tid[i], NULL);
num_cpus          303 src/results.c  	    for(j=1;j<num_cpus;j++){
num_cpus          312 src/results.c  	for(j=1;j<num_cpus;j++){
num_cpus          318 src/results.c  	for(j=1;j<num_cpus;j++){
num_cpus          366 src/results.c      nedelta=(ITG)floor(*ne1/(double)num_cpus);
num_cpus          370 src/results.c      if((*i==num_cpus-1)&&(neb<*ne1)) neb=*ne1;
num_cpus          397 src/results.c      nedelta=(ITG)floor(*ne1/(double)num_cpus);
num_cpus          400 src/results.c      if((*i==num_cpus-1)&&(neb<*ne1)) neb=*ne1;
num_cpus           32 src/resultsinduction.c     num_cpus,mt1,*nk1,*nshcon1,*nelemload1,*nload1,mortar1,
num_cpus          106 src/resultsinduction.c     num_cpus=0;
num_cpus          128 src/resultsinduction.c 	num_cpus=atoi(envloc);
num_cpus          129 src/resultsinduction.c 	if(num_cpus<0){
num_cpus          130 src/resultsinduction.c 	    num_cpus=0;
num_cpus          131 src/resultsinduction.c 	}else if(num_cpus>sys_cpus){
num_cpus          132 src/resultsinduction.c 	    num_cpus=sys_cpus;
num_cpus          140 src/resultsinduction.c     if(num_cpus==0){
num_cpus          142 src/resultsinduction.c 	    num_cpus = atoi(env);
num_cpus          143 src/resultsinduction.c 	if (num_cpus < 1) {
num_cpus          144 src/resultsinduction.c 	    num_cpus=1;
num_cpus          145 src/resultsinduction.c 	}else if(num_cpus>sys_cpus){
num_cpus          146 src/resultsinduction.c 	    num_cpus=sys_cpus;
num_cpus          152 src/resultsinduction.c     if(*ne<num_cpus) num_cpus=*ne;
num_cpus          154 src/resultsinduction.c     pthread_t tid[num_cpus];
num_cpus          194 src/resultsinduction.c 		printf(" Using up to %" ITGFORMAT " cpu(s) for the magnetic field calculation.\n\n", num_cpus);
num_cpus          199 src/resultsinduction.c 	NNEW(ithread,ITG,num_cpus);
num_cpus          200 src/resultsinduction.c 	for(i=0; i<num_cpus; i++)  {
num_cpus          204 src/resultsinduction.c 	for(i=0; i<num_cpus; i++)  pthread_join(tid[i], NULL);
num_cpus          215 src/resultsinduction.c 	NNEW(fn1,double,num_cpus*mt**nk);
num_cpus          216 src/resultsinduction.c 	NNEW(qa1,double,num_cpus*3);
num_cpus          217 src/resultsinduction.c 	NNEW(nal,ITG,num_cpus);
num_cpus          239 src/resultsinduction.c 	printf(" Using up to %" ITGFORMAT " cpu(s) for the heat flux calculation.\n\n", num_cpus);
num_cpus          243 src/resultsinduction.c 	NNEW(ithread,ITG,num_cpus);
num_cpus          244 src/resultsinduction.c 	for(i=0; i<num_cpus; i++)  {
num_cpus          248 src/resultsinduction.c 	for(i=0; i<num_cpus; i++)  pthread_join(tid[i], NULL);
num_cpus          254 src/resultsinduction.c 	    for(j=1;j<num_cpus;j++){
num_cpus          263 src/resultsinduction.c 	for(j=1;j<num_cpus;j++){
num_cpus          269 src/resultsinduction.c 	for(j=1;j<num_cpus;j++){
num_cpus          311 src/resultsinduction.c     nedelta=(ITG)floor(*ne1/(double)num_cpus);
num_cpus          315 src/resultsinduction.c     if((*i==num_cpus-1)&&(neb<*ne1)) neb=*ne1;
num_cpus          334 src/resultsinduction.c     nedelta=(ITG)floor(*ne1/(double)num_cpus);
num_cpus          337 src/resultsinduction.c     if((*i==num_cpus-1)&&(neb<*ne1)) neb=*ne1;
num_cpus           44 src/spooles.c  int num_cpus = -1;
num_cpus          321 src/spooles.c  		pfi->nthread = num_cpus;
num_cpus          637 src/spooles.c  	if (num_cpus < 0) {
num_cpus          641 src/spooles.c  	    num_cpus = 0;
num_cpus          663 src/spooles.c  		num_cpus=atoi(envloc);
num_cpus          664 src/spooles.c  		if(num_cpus<0){
num_cpus          665 src/spooles.c  		    num_cpus=0;
num_cpus          666 src/spooles.c  		}else if(num_cpus>sys_cpus){
num_cpus          667 src/spooles.c  		    num_cpus=sys_cpus;
num_cpus          674 src/spooles.c  	    if(num_cpus==0){
num_cpus          676 src/spooles.c  		    num_cpus = atoi(env);
num_cpus          677 src/spooles.c  		if (num_cpus < 1) {
num_cpus          678 src/spooles.c  		    num_cpus=1;
num_cpus          679 src/spooles.c  		}else if(num_cpus>sys_cpus){
num_cpus          680 src/spooles.c  		    num_cpus=sys_cpus;
num_cpus          685 src/spooles.c  	printf(" Using up to %d cpu(s) for spooles.\n\n", num_cpus);
num_cpus          686 src/spooles.c  	if (num_cpus > 1) {
num_cpus          736 src/spooles.c  	if (num_cpus > 1) {
num_cpus          952 src/spooles.c  	if (num_cpus < 0) {
num_cpus          956 src/spooles.c  	    num_cpus = 0;
num_cpus          978 src/spooles.c  		num_cpus=atoi(envloc);
num_cpus          979 src/spooles.c  		if(num_cpus<0){
num_cpus          980 src/spooles.c  		    num_cpus=0;
num_cpus          981 src/spooles.c  		}else if(num_cpus>sys_cpus){
num_cpus          982 src/spooles.c  		    num_cpus=sys_cpus;
num_cpus          989 src/spooles.c  	    if(num_cpus==0){
num_cpus          991 src/spooles.c  		    num_cpus = atoi(env);
num_cpus          992 src/spooles.c  		if (num_cpus < 1) {
num_cpus          993 src/spooles.c  		    num_cpus=1;
num_cpus          994 src/spooles.c  		}else if(num_cpus>sys_cpus){
num_cpus          995 src/spooles.c  		    num_cpus=sys_cpus;
num_cpus         1000 src/spooles.c  	printf(" Using up to %d cpu(s) for spooles.\n\n", num_cpus);
num_cpus         1001 src/spooles.c  	if (num_cpus > 1) {
num_cpus         1050 src/spooles.c  	printf(" Using up to %d cpu(s) for spooles.\n\n", num_cpus);
num_cpus         1051 src/spooles.c  	if (num_cpus > 1) {