Actual source code: cgs.c
petsc-3.13.6 2020-09-29
2: /*
4: Note that for the complex numbers version, the VecDot() arguments
5: within the code MUST remain in the order given for correct computation
6: of inner products.
7: */
8: #include <petsc/private/kspimpl.h>
10: static PetscErrorCode KSPSetUp_CGS(KSP ksp)
11: {
15: KSPSetWorkVecs(ksp,7);
16: return(0);
17: }
19: static PetscErrorCode KSPSolve_CGS(KSP ksp)
20: {
22: PetscInt i;
23: PetscScalar rho,rhoold,a,s,b;
24: Vec X,B,V,P,R,RP,T,Q,U,AUQ;
25: PetscReal dp = 0.0;
26: PetscBool diagonalscale;
29: /* not sure what residual norm it does use, should use for right preconditioning */
31: PCGetDiagonalScale(ksp->pc,&diagonalscale);
32: if (diagonalscale) SETERRQ1(PetscObjectComm((PetscObject)ksp),PETSC_ERR_SUP,"Krylov method %s does not support diagonal scaling",((PetscObject)ksp)->type_name);
34: X = ksp->vec_sol;
35: B = ksp->vec_rhs;
36: R = ksp->work[0];
37: RP = ksp->work[1];
38: V = ksp->work[2];
39: T = ksp->work[3];
40: Q = ksp->work[4];
41: P = ksp->work[5];
42: U = ksp->work[6];
43: AUQ = V;
45: /* Compute initial preconditioned residual */
46: KSPInitialResidual(ksp,X,V,T,R,B);
48: /* Test for nothing to do */
49: VecNorm(R,NORM_2,&dp);
50: KSPCheckNorm(ksp,dp);
51: if (ksp->normtype == KSP_NORM_NATURAL) dp *= dp;
52: PetscObjectSAWsTakeAccess((PetscObject)ksp);
53: ksp->its = 0;
54: ksp->rnorm = dp;
55: PetscObjectSAWsGrantAccess((PetscObject)ksp);
56: KSPLogResidualHistory(ksp,dp);
57: KSPMonitor(ksp,0,dp);
58: (*ksp->converged)(ksp,0,dp,&ksp->reason,ksp->cnvP);
59: if (ksp->reason) return(0);
61: /* Make the initial Rp == R */
62: VecCopy(R,RP);
63: /* added for Fidap */
64: /* Penalize Startup - Isaac Hasbani Trick for CGS
65: Since most initial conditions result in a mostly 0 residual,
66: we change all the 0 values in the vector RP to the maximum.
67: */
68: if (ksp->normtype == KSP_NORM_NATURAL) {
69: PetscReal vr0max;
70: PetscScalar *tmp_RP=0;
71: PetscInt numnp =0, *max_pos=0;
72: VecMax(RP, max_pos, &vr0max);
73: VecGetArray(RP, &tmp_RP);
74: VecGetLocalSize(RP, &numnp);
75: for (i=0; i<numnp; i++) {
76: if (tmp_RP[i] == 0.0) tmp_RP[i] = vr0max;
77: }
78: VecRestoreArray(RP, &tmp_RP);
79: }
80: /* end of addition for Fidap */
82: /* Set the initial conditions */
83: VecDot(R,RP,&rhoold); /* rhoold = (r,rp) */
84: VecCopy(R,U);
85: VecCopy(R,P);
86: KSP_PCApplyBAorAB(ksp,P,V,T);
88: i = 0;
89: do {
91: VecDot(V,RP,&s); /* s <- (v,rp) */
92: KSPCheckDot(ksp,s);
93: a = rhoold / s; /* a <- rho / s */
94: VecWAXPY(Q,-a,V,U); /* q <- u - a v */
95: VecWAXPY(T,1.0,U,Q); /* t <- u + q */
96: VecAXPY(X,a,T); /* x <- x + a (u + q) */
97: KSP_PCApplyBAorAB(ksp,T,AUQ,U);
98: VecAXPY(R,-a,AUQ); /* r <- r - a K (u + q) */
99: VecDot(R,RP,&rho); /* rho <- (r,rp) */
100: KSPCheckDot(ksp,rho);
101: if (ksp->normtype == KSP_NORM_NATURAL) {
102: dp = PetscAbsScalar(rho);
103: } else {
104: VecNorm(R,NORM_2,&dp);
105: KSPCheckNorm(ksp,dp);
106: }
108: PetscObjectSAWsTakeAccess((PetscObject)ksp);
109: ksp->its++;
110: ksp->rnorm = dp;
111: PetscObjectSAWsGrantAccess((PetscObject)ksp);
112: KSPLogResidualHistory(ksp,dp);
113: KSPMonitor(ksp,i+1,dp);
114: (*ksp->converged)(ksp,i+1,dp,&ksp->reason,ksp->cnvP);
115: if (ksp->reason) break;
117: b = rho / rhoold; /* b <- rho / rhoold */
118: VecWAXPY(U,b,Q,R); /* u <- r + b q */
119: VecAXPY(Q,b,P);
120: VecWAXPY(P,b,Q,U); /* p <- u + b(q + b p) */
121: KSP_PCApplyBAorAB(ksp,P,V,Q); /* v <- K p */
122: rhoold = rho;
123: i++;
124: } while (i<ksp->max_it);
125: if (i >= ksp->max_it) ksp->reason = KSP_DIVERGED_ITS;
127: KSPUnwindPreconditioner(ksp,X,T);
128: return(0);
129: }
131: /*MC
132: KSPCGS - This code implements the CGS (Conjugate Gradient Squared) method.
134: Options Database Keys:
135: . see KSPSolve()
137: Level: beginner
139: References:
140: . 1. - Sonneveld, 1989.
142: Notes:
143: Does not require a symmetric matrix. Does not apply transpose of the matrix.
144: Supports left and right preconditioning, but not symmetric.
146: Developer Notes:
147: Has this weird support for doing the convergence test with the natural norm, I assume this works only with
148: no preconditioning and symmetric positive definite operator.
150: .seealso: KSPCreate(), KSPSetType(), KSPType (for list of available types), KSP, KSPBCGS, KSPSetPCSide()
151: M*/
152: PETSC_EXTERN PetscErrorCode KSPCreate_CGS(KSP ksp)
153: {
157: ksp->data = (void*)0;
159: KSPSetSupportedNorm(ksp,KSP_NORM_PRECONDITIONED,PC_LEFT,3);
160: KSPSetSupportedNorm(ksp,KSP_NORM_UNPRECONDITIONED,PC_RIGHT,2);
161: KSPSetSupportedNorm(ksp,KSP_NORM_NATURAL,PC_LEFT,2);
162: KSPSetSupportedNorm(ksp,KSP_NORM_NATURAL,PC_RIGHT,2);
164: ksp->ops->setup = KSPSetUp_CGS;
165: ksp->ops->solve = KSPSolve_CGS;
166: ksp->ops->destroy = KSPDestroyDefault;
167: ksp->ops->buildsolution = KSPBuildSolutionDefault;
168: ksp->ops->buildresidual = KSPBuildResidualDefault;
169: ksp->ops->setfromoptions = 0;
170: ksp->ops->view = 0;
171: return(0);
172: }