Actual source code: svd.c

petsc-3.5.4 2015-05-23
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  2: #include <petsc-private/pcimpl.h>   /*I "petscpc.h" I*/
  3: #include <petscblaslapack.h>

  5: /*
  6:    Private context (data structure) for the SVD preconditioner.
  7: */
  8: typedef struct {
  9:   Vec         diag,work;
 10:   Mat         A,U,Vt;
 11:   PetscInt    nzero;
 12:   PetscReal   zerosing;         /* measure of smallest singular value treated as nonzero */
 13:   PetscInt    essrank;          /* essential rank of operator */
 14:   VecScatter  left2red,right2red;
 15:   Vec         leftred,rightred;
 16:   PetscViewer monitor;
 17: } PC_SVD;

 19: typedef enum {READ=1, WRITE=2, READ_WRITE=3} AccessMode;

 21: /* -------------------------------------------------------------------------- */
 22: /*
 23:    PCSetUp_SVD - Prepares for the use of the SVD preconditioner
 24:                     by setting data structures and options.

 26:    Input Parameter:
 27: .  pc - the preconditioner context

 29:    Application Interface Routine: PCSetUp()

 31:    Notes:
 32:    The interface routine PCSetUp() is not usually called directly by
 33:    the user, but instead is called by PCApply() if necessary.
 34: */
 37: static PetscErrorCode PCSetUp_SVD(PC pc)
 38: {
 39: #if defined(PETSC_MISSING_LAPACK_GESVD)
 40:   SETERRQ(PetscObjectComm((PetscObject)pc),PETSC_ERR_SUP,"GESVD - Lapack routine is unavailable\nNot able to provide singular value estimates.");
 41: #else
 42:   PC_SVD         *jac = (PC_SVD*)pc->data;
 44:   PetscScalar    *a,*u,*v,*d,*work;
 45:   PetscBLASInt   nb,lwork;
 46:   PetscInt       i,n;
 47:   PetscMPIInt    size;

 50:   MatDestroy(&jac->A);
 51:   MPI_Comm_size(((PetscObject)pc->pmat)->comm,&size);
 52:   if (size > 1) {
 53:     Mat          redmat;
 54:     MatGetRedundantMatrix(pc->pmat,size,PETSC_COMM_SELF,MAT_INITIAL_MATRIX,&redmat);
 55:     MatConvert(redmat,MATSEQDENSE,MAT_INITIAL_MATRIX,&jac->A);
 56:     MatDestroy(&redmat);
 57:   } else {
 58:     MatConvert(pc->pmat,MATSEQDENSE,MAT_INITIAL_MATRIX,&jac->A);
 59:   }
 60:   if (!jac->diag) {    /* assume square matrices */
 61:     MatGetVecs(jac->A,&jac->diag,&jac->work);
 62:   }
 63:   if (!jac->U) {
 64:     MatDuplicate(jac->A,MAT_DO_NOT_COPY_VALUES,&jac->U);
 65:     MatDuplicate(jac->A,MAT_DO_NOT_COPY_VALUES,&jac->Vt);
 66:   }
 67:   MatGetSize(pc->pmat,&n,NULL);
 68:   PetscBLASIntCast(n,&nb);
 69:   lwork = 5*nb;
 70:   PetscMalloc1(lwork,&work);
 71:   MatDenseGetArray(jac->A,&a);
 72:   MatDenseGetArray(jac->U,&u);
 73:   MatDenseGetArray(jac->Vt,&v);
 74:   VecGetArray(jac->diag,&d);
 75: #if !defined(PETSC_USE_COMPLEX)
 76:   {
 77:     PetscBLASInt lierr;
 78:     PetscFPTrapPush(PETSC_FP_TRAP_OFF);
 79:     PetscStackCallBLAS("LAPACKgesvd",LAPACKgesvd_("A","A",&nb,&nb,a,&nb,d,u,&nb,v,&nb,work,&lwork,&lierr));
 80:     if (lierr) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"gesv() error %d",lierr);
 81:     PetscFPTrapPop();
 82:   }
 83: #else
 84:   {
 85:     PetscBLASInt lierr;
 86:     PetscReal    *rwork,*dd;
 87:     PetscMalloc1(5*nb,&rwork);
 88:     PetscMalloc1(nb,&dd);
 89:     PetscFPTrapPush(PETSC_FP_TRAP_OFF);
 90:     PetscStackCallBLAS("LAPACKgesvd",LAPACKgesvd_("A","A",&nb,&nb,a,&nb,dd,u,&nb,v,&nb,work,&lwork,rwork,&lierr));
 91:     if (lierr) SETERRQ1(PETSC_COMM_SELF,PETSC_ERR_LIB,"gesv() error %d",lierr);
 92:     PetscFree(rwork);
 93:     for (i=0; i<nb; i++) d[i] = dd[i];
 94:     PetscFree(dd);
 95:     PetscFPTrapPop();
 96:   }
 97: #endif
 98:   MatDenseRestoreArray(jac->A,&a);
 99:   MatDenseRestoreArray(jac->U,&u);
100:   MatDenseRestoreArray(jac->Vt,&v);
101:   for (i=n-1; i>=0; i--) if (PetscRealPart(d[i]) > jac->zerosing) break;
102:   jac->nzero = n-1-i;
103:   if (jac->monitor) {
104:     PetscViewerASCIIAddTab(jac->monitor,((PetscObject)pc)->tablevel);
105:     PetscViewerASCIIPrintf(jac->monitor,"    SVD: condition number %14.12e, %D of %D singular values are (nearly) zero\n",(double)PetscRealPart(d[0]/d[n-1]),jac->nzero,n);
106:     if (n >= 10) {              /* print 5 smallest and 5 largest */
107:       PetscViewerASCIIPrintf(jac->monitor,"    SVD: smallest singular values: %14.12e %14.12e %14.12e %14.12e %14.12e\n",(double)PetscRealPart(d[n-1]),(double)PetscRealPart(d[n-2]),(double)PetscRealPart(d[n-3]),(double)PetscRealPart(d[n-4]),(double)PetscRealPart(d[n-5]));
108:       PetscViewerASCIIPrintf(jac->monitor,"    SVD: largest singular values : %14.12e %14.12e %14.12e %14.12e %14.12e\n",(double)PetscRealPart(d[4]),(double)PetscRealPart(d[3]),(double)PetscRealPart(d[2]),(double)PetscRealPart(d[1]),(double)PetscRealPart(d[0]));
109:     } else {                    /* print all singular values */
110:       char     buf[256],*p;
111:       size_t   left = sizeof(buf),used;
112:       PetscInt thisline;
113:       for (p=buf,i=n-1,thisline=1; i>=0; i--,thisline++) {
114:         PetscSNPrintfCount(p,left," %14.12e",&used,(double)PetscRealPart(d[i]));
115:         left -= used;
116:         p    += used;
117:         if (thisline > 4 || i==0) {
118:           PetscViewerASCIIPrintf(jac->monitor,"    SVD: singular values:%s\n",buf);
119:           p        = buf;
120:           thisline = 0;
121:         }
122:       }
123:     }
124:     PetscViewerASCIISubtractTab(jac->monitor,((PetscObject)pc)->tablevel);
125:   }
126:   PetscInfo2(pc,"Largest and smallest singular values %14.12e %14.12e\n",(double)PetscRealPart(d[0]),(double)PetscRealPart(d[n-1]));
127:   for (i=0; i<n-jac->nzero; i++) d[i] = 1.0/d[i];
128:   for (; i<n; i++) d[i] = 0.0;
129:   if (jac->essrank > 0) for (i=0; i<n-jac->nzero-jac->essrank; i++) d[i] = 0.0; /* Skip all but essrank eigenvalues */
130:   PetscInfo1(pc,"Number of zero or nearly singular values %D\n",jac->nzero);
131:   VecRestoreArray(jac->diag,&d);
132: #if defined(foo)
133:   {
134:     PetscViewer viewer;
135:     PetscViewerBinaryOpen(PETSC_COMM_SELF,"joe",FILE_MODE_WRITE,&viewer);
136:     MatView(jac->A,viewer);
137:     MatView(jac->U,viewer);
138:     MatView(jac->Vt,viewer);
139:     VecView(jac->diag,viewer);
140:     PetscViewerDestroy(viewer);
141:   }
142: #endif
143:   PetscFree(work);
144:   return(0);
145: #endif
146: }

150: static PetscErrorCode PCSVDGetVec(PC pc,PCSide side,AccessMode amode,Vec x,Vec *xred)
151: {
152:   PC_SVD         *jac = (PC_SVD*)pc->data;
154:   PetscMPIInt    size;

157:   MPI_Comm_size(PetscObjectComm((PetscObject)pc),&size);
158:   *xred = NULL;
159:   switch (side) {
160:   case PC_LEFT:
161:     if (size == 1) *xred = x;
162:     else {
163:       if (!jac->left2red) {VecScatterCreateToAll(x,&jac->left2red,&jac->leftred);}
164:       if (amode & READ) {
165:         VecScatterBegin(jac->left2red,x,jac->leftred,INSERT_VALUES,SCATTER_FORWARD);
166:         VecScatterEnd(jac->left2red,x,jac->leftred,INSERT_VALUES,SCATTER_FORWARD);
167:       }
168:       *xred = jac->leftred;
169:     }
170:     break;
171:   case PC_RIGHT:
172:     if (size == 1) *xred = x;
173:     else {
174:       if (!jac->right2red) {VecScatterCreateToAll(x,&jac->right2red,&jac->rightred);}
175:       if (amode & READ) {
176:         VecScatterBegin(jac->right2red,x,jac->rightred,INSERT_VALUES,SCATTER_FORWARD);
177:         VecScatterEnd(jac->right2red,x,jac->rightred,INSERT_VALUES,SCATTER_FORWARD);
178:       }
179:       *xred = jac->rightred;
180:     }
181:     break;
182:   default: SETERRQ(PetscObjectComm((PetscObject)pc),PETSC_ERR_PLIB,"Side must be LEFT or RIGHT");
183:   }
184:   return(0);
185: }

189: static PetscErrorCode PCSVDRestoreVec(PC pc,PCSide side,AccessMode amode,Vec x,Vec *xred)
190: {
191:   PC_SVD         *jac = (PC_SVD*)pc->data;
193:   PetscMPIInt    size;

196:   MPI_Comm_size(PetscObjectComm((PetscObject)pc),&size);
197:   switch (side) {
198:   case PC_LEFT:
199:     if (size != 1 && amode & WRITE) {
200:       VecScatterBegin(jac->left2red,jac->leftred,x,INSERT_VALUES,SCATTER_REVERSE);
201:       VecScatterEnd(jac->left2red,jac->leftred,x,INSERT_VALUES,SCATTER_REVERSE);
202:     }
203:     break;
204:   case PC_RIGHT:
205:     if (size != 1 && amode & WRITE) {
206:       VecScatterBegin(jac->right2red,jac->rightred,x,INSERT_VALUES,SCATTER_REVERSE);
207:       VecScatterEnd(jac->right2red,jac->rightred,x,INSERT_VALUES,SCATTER_REVERSE);
208:     }
209:     break;
210:   default: SETERRQ(PetscObjectComm((PetscObject)pc),PETSC_ERR_PLIB,"Side must be LEFT or RIGHT");
211:   }
212:   *xred = NULL;
213:   return(0);
214: }

216: /* -------------------------------------------------------------------------- */
217: /*
218:    PCApply_SVD - Applies the SVD preconditioner to a vector.

220:    Input Parameters:
221: .  pc - the preconditioner context
222: .  x - input vector

224:    Output Parameter:
225: .  y - output vector

227:    Application Interface Routine: PCApply()
228:  */
231: static PetscErrorCode PCApply_SVD(PC pc,Vec x,Vec y)
232: {
233:   PC_SVD         *jac = (PC_SVD*)pc->data;
234:   Vec            work = jac->work,xred,yred;

238:   PCSVDGetVec(pc,PC_RIGHT,READ,x,&xred);
239:   PCSVDGetVec(pc,PC_LEFT,WRITE,y,&yred);
240: #if !defined(PETSC_USE_COMPLEX)
241:   MatMultTranspose(jac->U,xred,work);
242: #else
243:   MatMultHermitianTranspose(jac->U,xred,work);
244: #endif
245:   VecPointwiseMult(work,work,jac->diag);
246: #if !defined(PETSC_USE_COMPLEX)
247:   MatMultTranspose(jac->Vt,work,yred);
248: #else
249:   MatMultHermitianTranspose(jac->Vt,work,yred);
250: #endif
251:   PCSVDRestoreVec(pc,PC_RIGHT,READ,x,&xred);
252:   PCSVDRestoreVec(pc,PC_LEFT,WRITE,y,&yred);
253:   return(0);
254: }

258: static PetscErrorCode PCApplyTranspose_SVD(PC pc,Vec x,Vec y)
259: {
260:   PC_SVD         *jac = (PC_SVD*)pc->data;
261:   Vec            work = jac->work,xred,yred;

265:   PCSVDGetVec(pc,PC_LEFT,READ,x,&xred);
266:   PCSVDGetVec(pc,PC_RIGHT,WRITE,y,&yred);
267: #if !defined(PETSC_USE_COMPLEX)
268:   MatMultTranspose(jac->Vt,work,yred);
269: #else
270:   MatMultHermitianTranspose(jac->Vt,work,yred);
271: #endif
272:   VecPointwiseMult(work,work,jac->diag);
273: #if !defined(PETSC_USE_COMPLEX)
274:   MatMultTranspose(jac->U,xred,work);
275: #else
276:   MatMultHermitianTranspose(jac->U,xred,work);
277: #endif
278:   PCSVDRestoreVec(pc,PC_LEFT,READ,x,&xred);
279:   PCSVDRestoreVec(pc,PC_RIGHT,WRITE,y,&yred);
280:   return(0);
281: }

285: static PetscErrorCode PCReset_SVD(PC pc)
286: {
287:   PC_SVD         *jac = (PC_SVD*)pc->data;

291:   MatDestroy(&jac->A);
292:   MatDestroy(&jac->U);
293:   MatDestroy(&jac->Vt);
294:   VecDestroy(&jac->diag);
295:   VecDestroy(&jac->work);
296:   VecScatterDestroy(&jac->right2red);
297:   VecScatterDestroy(&jac->left2red);
298:   VecDestroy(&jac->rightred);
299:   VecDestroy(&jac->leftred);
300:   return(0);
301: }

303: /* -------------------------------------------------------------------------- */
304: /*
305:    PCDestroy_SVD - Destroys the private context for the SVD preconditioner
306:    that was created with PCCreate_SVD().

308:    Input Parameter:
309: .  pc - the preconditioner context

311:    Application Interface Routine: PCDestroy()
312: */
315: static PetscErrorCode PCDestroy_SVD(PC pc)
316: {
317:   PC_SVD         *jac = (PC_SVD*)pc->data;

321:   PCReset_SVD(pc);
322:   PetscViewerDestroy(&jac->monitor);
323:   PetscFree(pc->data);
324:   return(0);
325: }

329: static PetscErrorCode PCSetFromOptions_SVD(PC pc)
330: {
332:   PC_SVD         *jac = (PC_SVD*)pc->data;
333:   PetscBool      flg,set;

336:   PetscOptionsHead("SVD options");
337:   PetscOptionsReal("-pc_svd_zero_sing","Singular values smaller than this treated as zero","None",jac->zerosing,&jac->zerosing,NULL);
338:   PetscOptionsInt("-pc_svd_ess_rank","Essential rank of operator (0 to use entire operator)","None",jac->essrank,&jac->essrank,NULL);
339:   PetscOptionsBool("-pc_svd_monitor","Monitor the conditioning, and extremal singular values","None",jac->monitor ? PETSC_TRUE : PETSC_FALSE,&flg,&set);
340:   if (set) {                    /* Should make PCSVDSetMonitor() */
341:     if (flg && !jac->monitor) {
342:       PetscViewerASCIIOpen(PetscObjectComm((PetscObject)pc),"stdout",&jac->monitor);
343:     } else if (!flg) {
344:       PetscViewerDestroy(&jac->monitor);
345:     }
346:   }
347:   PetscOptionsTail();
348:   return(0);
349: }

351: /* -------------------------------------------------------------------------- */
352: /*
353:    PCCreate_SVD - Creates a SVD preconditioner context, PC_SVD,
354:    and sets this as the private data within the generic preconditioning
355:    context, PC, that was created within PCCreate().

357:    Input Parameter:
358: .  pc - the preconditioner context

360:    Application Interface Routine: PCCreate()
361: */

363: /*MC
364:      PCSVD - Use pseudo inverse defined by SVD of operator

366:    Level: advanced

368:   Concepts: SVD

370:   Options Database:
371: -  -pc_svd_zero_sing <rtol> Singular values smaller than this are treated as zero
372: +  -pc_svd_monitor  Print information on the extreme singular values of the operator

374: .seealso:  PCCreate(), PCSetType(), PCType (for list of available types), PC
375: M*/

379: PETSC_EXTERN PetscErrorCode PCCreate_SVD(PC pc)
380: {
381:   PC_SVD         *jac;

385:   /*
386:      Creates the private data structure for this preconditioner and
387:      attach it to the PC object.
388:   */
389:   PetscNewLog(pc,&jac);
390:   jac->zerosing = 1.e-12;
391:   pc->data      = (void*)jac;

393:   /*
394:       Set the pointers for the functions that are provided above.
395:       Now when the user-level routines (such as PCApply(), PCDestroy(), etc.)
396:       are called, they will automatically call these functions.  Note we
397:       choose not to provide a couple of these functions since they are
398:       not needed.
399:   */
400:   pc->ops->apply           = PCApply_SVD;
401:   pc->ops->applytranspose  = PCApplyTranspose_SVD;
402:   pc->ops->setup           = PCSetUp_SVD;
403:   pc->ops->reset           = PCReset_SVD;
404:   pc->ops->destroy         = PCDestroy_SVD;
405:   pc->ops->setfromoptions  = PCSetFromOptions_SVD;
406:   pc->ops->view            = 0;
407:   pc->ops->applyrichardson = 0;
408:   return(0);
409: }