Actual source code: adaptdsp.c

petsc-3.11.4 2019-09-28
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  1:  #include <petsc/private/tsimpl.h>

  3: static const char *citation[] = {
  4:   "@article{Soderlind2003,\n"
  5:   " author = {S\"{o}derlind, Gustaf},\n"
  6:   " title = {Digital Filters in Adaptive Time-stepping},\n"
  7:   " journal = {ACM Transactions on Mathematical Software},\n"
  8:   " volume = {29},\n"
  9:   " number = {1},\n"
 10:   " pages = {1--26},\n"
 11:   " year = {2003},\n"
 12:   " issn = {0098-3500},\n"
 13:   " doi = {http://dx.doi.org/10.1145/641876.641877},\n"
 14:   "}\n",
 15:   "@article{Soderlind2006,\n"
 16:   " author = {Gustaf S\"{o}derlind and Lina Wang},\n"
 17:   " title = {Adaptive time-stepping and computational stability},\n"
 18:   " journal = {Journal of Computational and Applied Mathematics},\n"
 19:   " volume = {185},\n"
 20:   " number = {2},\n"
 21:   " pages = {225--243},\n"
 22:   " year = {2006},\n"
 23:   " issn = {0377-0427},\n"
 24:   " doi = {http://dx.doi.org/10.1016/j.cam.2005.03.008},\n"
 25:   "}\n",
 26: };
 27: static PetscBool cited[] = {PETSC_FALSE,PETSC_FALSE};

 29: typedef struct {
 30:   Vec       Y;
 31:   PetscReal kBeta[3];  /* filter parameters */
 32:   PetscReal Alpha[2];  /* filter parameters */
 33:   PetscReal cerror[3]; /* control error (controller input) history */
 34:   PetscReal hratio[3]; /* stepsize ratio (controller output) history */
 35:   PetscBool rollback;
 36: } TSAdapt_DSP;

 38: static PetscReal Limiter(PetscReal value,PetscReal kappa)
 39: {
 40:   return 1 + kappa*PetscAtanReal((value - 1)/kappa);
 41: }

 43: static PetscErrorCode TSAdaptRestart_DSP(TSAdapt adapt)
 44: {
 45:   TSAdapt_DSP *dsp = (TSAdapt_DSP*)adapt->data;
 47:   dsp->cerror[0] = dsp->hratio[0] = 1.0;
 48:   dsp->cerror[1] = dsp->hratio[1] = 1.0;
 49:   dsp->cerror[2] = dsp->hratio[2] = 1.0;
 50:   return(0);
 51: }

 53: static PetscErrorCode TSAdaptRollBack_DSP(TSAdapt adapt)
 54: {
 55:   TSAdapt_DSP *dsp = (TSAdapt_DSP*)adapt->data;
 57:   dsp->cerror[0] = dsp->cerror[1];
 58:   dsp->cerror[1] = dsp->cerror[2];
 59:   dsp->cerror[2] = 1.0;
 60:   dsp->hratio[0] = dsp->hratio[1];
 61:   dsp->hratio[1] = dsp->hratio[2];
 62:   dsp->hratio[2] = 1.0;
 63:   return(0);
 64: }

 66: static PetscErrorCode TSAdaptChoose_DSP(TSAdapt adapt,TS ts,PetscReal h,PetscInt *next_sc,PetscReal *next_h,PetscBool *accept,PetscReal *wlte,PetscReal *wltea,PetscReal *wlter)
 67: {
 68:   TSAdapt_DSP    *dsp = (TSAdapt_DSP*)adapt->data;
 69:   PetscInt       order = PETSC_DECIDE;
 70:   PetscReal      enorm = -1;
 71:   PetscReal      enorma,enormr;
 72:   PetscReal      safety = adapt->safety * (PetscReal)0.9;
 73:   PetscReal      hnew,hfac = PETSC_INFINITY;
 74:   PetscReal      hmin = adapt->dt_min*(1 + PETSC_SQRT_MACHINE_EPSILON);

 78:   *next_sc = 0;   /* Reuse the same order scheme */
 79:   *wltea   = -1;  /* Weighted absolute local truncation error is not used */
 80:   *wlter   = -1;  /* Weighted relative local truncation error is not used */

 82:   if (ts->ops->evaluatewlte) {
 83:     TSEvaluateWLTE(ts,adapt->wnormtype,&order,&enorm);
 84:     if (enorm >= 0 && order < 1) SETERRQ1(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_OUTOFRANGE,"Computed error order %D must be positive",order);
 85:   } else if (ts->ops->evaluatestep) {
 86:     if (adapt->candidates.n < 1) SETERRQ(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_WRONGSTATE,"No candidate has been registered");
 87:     if (!adapt->candidates.inuse_set) SETERRQ1(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_WRONGSTATE,"The current in-use scheme is not among the %D candidates",adapt->candidates.n);
 88:     if (!dsp->Y) {VecDuplicate(ts->vec_sol,&dsp->Y);}
 89:     order = adapt->candidates.order[0];
 90:     TSEvaluateStep(ts,order-1,dsp->Y,NULL);
 91:     TSErrorWeightedNorm(ts,ts->vec_sol,dsp->Y,adapt->wnormtype,&enorm,&enorma,&enormr);
 92:   }
 93:   if (enorm < 0) {
 94:     TSAdaptRestart_DSP(adapt);
 95:     *accept = PETSC_TRUE;  /* Accept the step */
 96:     *next_h = h;           /* Reuse the old step size */
 97:     *wlte   = -1;          /* Weighted local truncation error was not evaluated */
 98:     return(0);
 99:   }

101:   PetscCitationsRegister(citation[0],&cited[0]);
102:   PetscCitationsRegister(citation[1],&cited[1]);

104:   /* Update history after rollback */
105:   if (!ts->steprollback)
106:     dsp->rollback = PETSC_FALSE;
107:   else if (!dsp->rollback) {
108:     dsp->rollback = PETSC_TRUE;
109:     TSAdaptRollBack_DSP(adapt);
110:   }
111:   /* Reset history after restart */
112:   if (ts->steprestart) {
113:     TSAdaptRestart_DSP(adapt);
114:   }

116:   {
117:     PetscReal k = (PetscReal)order;
118:     PetscReal b1 = dsp->kBeta[0];
119:     PetscReal b2 = dsp->kBeta[1];
120:     PetscReal b3 = dsp->kBeta[2];
121:     PetscReal a2 = dsp->Alpha[0];
122:     PetscReal a3 = dsp->Alpha[0];

124:     PetscReal ctr0;
125:     PetscReal ctr1 = dsp->cerror[0];
126:     PetscReal ctr2 = dsp->cerror[1];
127:     PetscReal rho0;
128:     PetscReal rho1 = dsp->hratio[0];
129:     PetscReal rho2 = dsp->hratio[1];

131:     /* Compute the step size ratio */
132:     enorm = PetscMax(enorm,PETSC_SMALL);
133:     ctr0  = PetscPowReal(1/enorm,1/k);
134:     rho0  = PetscPowReal(ctr0,b1);
135:     rho0 *= PetscPowReal(ctr1,b2);
136:     rho0 *= PetscPowReal(ctr2,b3);
137:     rho0 *= PetscPowReal(rho1,-a2);
138:     rho0 *= PetscPowReal(rho2,-a3);
139:     rho0  = Limiter(rho0,1);

141:     /* Determine whether the step is accepted or rejected */
142:     if (rho0 >= safety)
143:       *accept = PETSC_TRUE;
144:     else if (adapt->always_accept)
145:       *accept = PETSC_TRUE;
146:     else if (h < hmin)
147:       *accept = PETSC_TRUE;
148:     else
149:       *accept = PETSC_FALSE;

151:     /* Update history after accept */
152:     if (*accept) {
153:       dsp->cerror[2] = dsp->cerror[1];
154:       dsp->cerror[1] = dsp->cerror[0];
155:       dsp->cerror[0] = ctr0;
156:       dsp->hratio[2] = dsp->hratio[1];
157:       dsp->hratio[1] = dsp->hratio[0];
158:       dsp->hratio[0] = rho0;
159:       dsp->rollback  = PETSC_FALSE;
160:     }

162:     hfac = rho0;
163:   }

165:   hnew    = h * PetscClipInterval(hfac,adapt->clip[0],adapt->clip[1]);
166:   *next_h = PetscClipInterval(hnew,adapt->dt_min,adapt->dt_max);
167:   *wlte   = enorm;
168:   return(0);
169: }

171: static PetscErrorCode TSAdaptReset_DSP(TSAdapt adapt)
172: {
173:   TSAdapt_DSP    *dsp = (TSAdapt_DSP*)adapt->data;

177:   VecDestroy(&dsp->Y);
178:   return(0);
179: }

181: static PetscErrorCode TSAdaptDestroy_DSP(TSAdapt adapt)
182: {

186:   PetscObjectComposeFunction((PetscObject)adapt,"TSAdaptDSPSetFilter_C",NULL);
187:   PetscObjectComposeFunction((PetscObject)adapt,"TSAdaptDSPSetPID_C",NULL);
188:   TSAdaptReset_DSP(adapt);
189:   PetscFree(adapt->data);
190:   return(0);
191: }

193: static PetscErrorCode TSAdaptView_DSP(TSAdapt adapt,PetscViewer viewer)
194: {
195:   TSAdapt_DSP    *dsp = (TSAdapt_DSP*)adapt->data;
196:   PetscBool      iascii;

200:   PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERASCII,&iascii);
201:   if (iascii) {
202:     double a2 = (double)dsp->Alpha[0], a3 = (double)dsp->Alpha[1];
203:     double b1 = (double)dsp->kBeta[0], b2 = (double)dsp->kBeta[1], b3 = (double)dsp->kBeta[2];
204:     PetscViewerASCIIPrintf(viewer,"filter parameters kBeta=[%g,%g,%g] Alpha=[%g,%g]\n",b1,b2,b3,a2,a3);
205:   }
206:   return(0);
207: }

209: struct FilterTab {
210:   const char *name;
211:   PetscReal scale;
212:   PetscReal kBeta[3];
213:   PetscReal Alpha[2];
214: };

216: static struct FilterTab filterlist[] = {
217:   {"basic",    1, {  1,  0,  0 }, {   0,  0 }},

219:   {"PI30",     3, {  1,  0,  0 }, {   0,  0 }},
220:   {"PI42",     5, {  3, -1,  0 }, {   0,  0 }},
221:   {"PI33",     3, {  2, -1,  0 }, {   0,  0 }},
222:   {"PI34",    10, {  7, -4,  0 }, {   0,  0 }},

224:   {"PC11",     1, {  2, -1,  0 }, {  -1,  0 }},
225:   {"PC47",    10, { 11, -7,  0 }, { -10,  0 }},
226:   {"PC36",    10, {  9, -6,  0 }, { -10,  0 }},

228:   {"H0211",    2, {  1,  1,  0 }, {   1,  0 }},
229:   {"H211b",    4, {  1,  1,  0 }, {   1,  0 }},
230:   {"H211PI",   6, {  1,  1,  0 }, {   0,  0 }},

232:   {"H0312",    4, {  1,  2,  1 }, {   3,  1 }},
233:   {"H312b",    8, {  1,  2,  1 }, {   3,  1 }},
234:   {"H312PID", 18, {  1,  2,  1 }, {   0,  0 }},

236:   {"H0321",    4, {  5,  2,- 3 }, {  -1, -3 }},
237:   {"H321",    18, {  6,  1,- 5 }, { -15, -3 }},
238: };

240: static PetscErrorCode TSAdaptDSPSetFilter_DSP(TSAdapt adapt,const char *name)
241: {
242:   TSAdapt_DSP       *dsp = (TSAdapt_DSP*)adapt->data;
243:   PetscInt          i,count = (PetscInt)(sizeof(filterlist)/sizeof(filterlist[0]));
244:   struct FilterTab* tab = NULL;
245:   PetscBool         match;
246:   PetscErrorCode    ierr;

249:   for (i=0; i<count; i++) {
250:     PetscStrcasecmp(name,filterlist[i].name,&match);
251:     if (match) { tab = &filterlist[i]; break; }
252:   }
253:   if (!tab) SETERRQ1(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_UNKNOWN_TYPE,"Filter name %s not found",name);
254:   dsp->kBeta[0] = tab->kBeta[0]/tab->scale;
255:   dsp->kBeta[1] = tab->kBeta[1]/tab->scale;
256:   dsp->kBeta[2] = tab->kBeta[2]/tab->scale;
257:   dsp->Alpha[0] = tab->Alpha[0]/tab->scale;
258:   dsp->Alpha[1] = tab->Alpha[1]/tab->scale;
259:   return(0);
260: }

262: static PetscErrorCode TSAdaptDSPSetPID_DSP(TSAdapt adapt,PetscReal kkI,PetscReal kkP,PetscReal kkD)
263: {
264:   TSAdapt_DSP    *dsp = (TSAdapt_DSP*)adapt->data;

267:   dsp->kBeta[0] = kkI + kkP + kkD;
268:   dsp->kBeta[1] = -(kkP + 2*kkD);
269:   dsp->kBeta[2] = kkD;
270:   dsp->Alpha[0] = 0;
271:   dsp->Alpha[1] = 0;
272:   return(0);
273: }

275: static PetscErrorCode TSAdaptSetFromOptions_DSP(PetscOptionItems *PetscOptionsObject,TSAdapt adapt)
276: {
277:   TSAdapt_DSP    *dsp = (TSAdapt_DSP*)adapt->data;
278:   const char     *names[sizeof(filterlist)/sizeof(filterlist[0])];
279:   PetscInt       count = (PetscInt)(sizeof(filterlist)/sizeof(filterlist[0]));
280:   PetscInt       index = 2; /* PI42 */
281:   PetscReal      pid[3] = {1,0,0};
282:   PetscInt       i,n;
283:   PetscBool      set;

287:   for (i=0; i<count; i++) names[i] = filterlist[i].name;
288:   PetscOptionsHead(PetscOptionsObject,"DSP adaptive controller options");

290:   PetscOptionsEList("-ts_adapt_dsp_filter","Filter name","TSAdaptDSPSetFilter",names,count,names[index],&index,&set);
291:   if (set) { TSAdaptDSPSetFilter(adapt,names[index]);}

293:   PetscOptionsRealArray("-ts_adapt_dsp_pid","PID parameters <kkI,kkP,kkD>","TSAdaptDSPSetPID",pid,(n=3,&n),&set);
294:   if (set && !n) SETERRQ(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_WRONG,"Must provide at least one value for PID parameters");
295:   if (set) {TSAdaptDSPSetPID(adapt,pid[0],pid[1],pid[2]);}

297:   PetscOptionsRealArray("-ts_adapt_dsp_kbeta","Filter parameters","",dsp->kBeta,(n=3,&n),&set);
298:   if (set && !n) SETERRQ(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_WRONG,"Must provide at least one value for parameter kbeta");
299:   if (set) for (i=n; i<3; i++) dsp->kBeta[i] = 0;

301:   PetscOptionsRealArray("-ts_adapt_dsp_alpha","Filter parameters","",dsp->Alpha,(n=2,&n),&set);
302:   if (set && !n) SETERRQ(PetscObjectComm((PetscObject)adapt),PETSC_ERR_ARG_WRONG,"Must provide at least one value for parameter alpha");
303:   if (set) for (i=n; i<2; i++) dsp->Alpha[i] = 0;

305:   PetscOptionsTail();
306:   return(0);
307: }

309: /*@C
310:    TSAdaptDSPSetFilter - Sets internal parameters corresponding to the named filter

312:    Collective on TSAdapt

314:    Input Arguments:
315: +  adapt - adaptive controller context
316: -  name - filter name

318:    Level: intermediate

320:    References: http://dx.doi.org/10.1145/641876.641877

322:    Notes:
323:     Valid filter names are
324: +  "basic" - similar to TSADAPTBASIC but with different criteria for step rejections.
325: .  "PI30", "PI42", "PI33", "PI34" - PI controlers.
326: .  "PC11", "PC47", "PC36" - predictive controllers.
327: .  "H0211", "H211b", "H211PI" - digital filters with orders dynamics=2, adaptivity=1, filter=1.
328: .  "H0312", "H312b", "H312PID" - digital filters with orders dynamics=3, adaptivity=1, filter=2.
329: -  "H0321", "H321" - digital filters with orders dynamics=3, adaptivity=2, filter=1.

331:    Options Database:
332: .   -ts_adapt_dsp_filter <name>

334: .seealso: TS, TSAdapt, TSGetAdapt(), TSAdaptDSPSetFilter()
335: @*/
336: PetscErrorCode TSAdaptDSPSetFilter(TSAdapt adapt,const char *name)
337: {
342:   PetscTryMethod(adapt,"TSAdaptDSPSetFilter_C",(TSAdapt,const char*),(adapt,name));
343:   return(0);
344: }

346: /*@
347:    TSAdaptDSPSetPID - Set the PID controller parameters

349:    Input Arguments:
350: +  adapt - adaptive controller context
351: .  kkI - Integral parameter
352: .  kkP - Proportional parameter
353: -  kkD - Derivative parameter

355:    Level: intermediate

357:    References: http://dx.doi.org/10.1016/j.cam.2005.03.008

359:    Options Database:
360: .   -ts_adapt_dsp_pid <kkI,kkP,kkD>

362: .seealso: TS, TSAdapt, TSGetAdapt(), TSAdaptDSPSetPID()
363: @*/
364: PetscErrorCode TSAdaptDSPSetPID(TSAdapt adapt,PetscReal kkI,PetscReal kkP,PetscReal kkD)
365: {
372:   PetscTryMethod(adapt,"TSAdaptDSPSetPID_C",(TSAdapt,PetscReal,PetscReal,PetscReal),(adapt,kkI,kkP,kkD));
373:   return(0);
374: }

376: /*MC
377:    TSADAPTDSP - Adaptive controller for time-stepping based on digital signal processing (DSP)

379:    Level: intermediate

381:    References: http://dx.doi.org/10.1145/641876.641877 and http://dx.doi.org/10.1016/j.cam.2005.03.008

383:    Options Database:
384: +   -ts_adapt_dsp_filter <name>
385: .   -ts_adapt_dsp_pid <kkI,kkP,kkD>
386: .   -ts_adapt_dsp_kbeta <b1,b2,b2>
387: -   -ts_adapt_dsp_alpha <a2,a3>

389: .seealso: TS, TSAdapt, TSGetAdapt()
390: M*/
391: PETSC_EXTERN PetscErrorCode TSAdaptCreate_DSP(TSAdapt adapt)
392: {
393:   TSAdapt_DSP    *dsp;

397:   PetscNewLog(adapt,&dsp);
398:   adapt->reject_safety = 1.0; /* unused */

400:   adapt->data                = (void*)dsp;
401:   adapt->ops->choose         = TSAdaptChoose_DSP;
402:   adapt->ops->setfromoptions = TSAdaptSetFromOptions_DSP;
403:   adapt->ops->destroy        = TSAdaptDestroy_DSP;
404:   adapt->ops->reset          = TSAdaptReset_DSP;
405:   adapt->ops->view           = TSAdaptView_DSP;

407:   PetscObjectComposeFunction((PetscObject)adapt,"TSAdaptDSPSetFilter_C",TSAdaptDSPSetFilter_DSP);
408:   PetscObjectComposeFunction((PetscObject)adapt,"TSAdaptDSPSetPID_C",TSAdaptDSPSetPID_DSP);

410:   TSAdaptDSPSetFilter_DSP(adapt,"PI42");
411:   TSAdaptRestart_DSP(adapt);
412:   return(0);
413: }