1eb910715SAlp Dener #include <petsctaolinesearch.h> 2eb910715SAlp Dener #include <../src/tao/bound/impls/bnk/bnk.h> 3eb910715SAlp Dener 4eb910715SAlp Dener #include <petscksp.h> 5eb910715SAlp Dener 6eb910715SAlp Dener /* Routine for BFGS preconditioner */ 7eb910715SAlp Dener 8eb910715SAlp Dener PetscErrorCode MatLMVMSolveShell(PC pc, Vec b, Vec x) 9eb910715SAlp Dener { 10eb910715SAlp Dener PetscErrorCode ierr; 11eb910715SAlp Dener Mat M; 12eb910715SAlp Dener 13eb910715SAlp Dener PetscFunctionBegin; 14eb910715SAlp Dener PetscValidHeaderSpecific(pc,PC_CLASSID,1); 15eb910715SAlp Dener PetscValidHeaderSpecific(b,VEC_CLASSID,2); 16eb910715SAlp Dener PetscValidHeaderSpecific(x,VEC_CLASSID,3); 17eb910715SAlp Dener ierr = PCShellGetContext(pc,(void**)&M);CHKERRQ(ierr); 1809164190SAlp Dener ierr = MatLMVMSolveInactive(M, b, x);CHKERRQ(ierr); 19eb910715SAlp Dener PetscFunctionReturn(0); 20eb910715SAlp Dener } 21eb910715SAlp Dener 22df278d8fSAlp Dener /*------------------------------------------------------------*/ 23df278d8fSAlp Dener 24df278d8fSAlp Dener /* Routine for initializing the KSP solver, the BFGS preconditioner, and the initial trust radius estimation */ 25df278d8fSAlp Dener 26eb910715SAlp Dener PetscErrorCode TaoBNKInitialize(Tao tao) 27eb910715SAlp Dener { 28eb910715SAlp Dener PetscErrorCode ierr; 29eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 30eb910715SAlp Dener KSPType ksp_type; 31eb910715SAlp Dener PC pc; 32eb910715SAlp Dener 330a4511e9SAlp Dener PetscReal f_min, ftrial, prered, actred, kappa, sigma; 34eb910715SAlp Dener PetscReal tau, tau_1, tau_2, tau_max, tau_min, max_radius; 35eb910715SAlp Dener PetscReal delta, step = 1.0; 36eb910715SAlp Dener 37eb910715SAlp Dener PetscInt n,N,needH = 1; 38eb910715SAlp Dener 39eb910715SAlp Dener PetscInt i_max = 5; 40eb910715SAlp Dener PetscInt j_max = 1; 41eb910715SAlp Dener PetscInt i, j; 42eb910715SAlp Dener 43eb910715SAlp Dener PetscFunctionBegin; 44eb910715SAlp Dener /* Number of times ksp stopped because of these reasons */ 45eb910715SAlp Dener bnk->ksp_atol = 0; 46eb910715SAlp Dener bnk->ksp_rtol = 0; 47eb910715SAlp Dener bnk->ksp_dtol = 0; 48eb910715SAlp Dener bnk->ksp_ctol = 0; 49eb910715SAlp Dener bnk->ksp_negc = 0; 50eb910715SAlp Dener bnk->ksp_iter = 0; 51eb910715SAlp Dener bnk->ksp_othr = 0; 52eb910715SAlp Dener 53fed79b8eSAlp Dener /* Initialize the Hessian perturbation */ 54fed79b8eSAlp Dener bnk->pert = bnk->sval; 55fed79b8eSAlp Dener 56eb910715SAlp Dener /* Initialize trust-region radius when using nash, stcg, or gltr 57eb910715SAlp Dener Command automatically ignored for other methods 58eb910715SAlp Dener Will be reset during the first iteration 59eb910715SAlp Dener */ 60eb910715SAlp Dener ierr = KSPGetType(tao->ksp,&ksp_type);CHKERRQ(ierr); 61eb910715SAlp Dener ierr = PetscStrcmp(ksp_type,KSPCGNASH,&bnk->is_nash);CHKERRQ(ierr); 62eb910715SAlp Dener ierr = PetscStrcmp(ksp_type,KSPCGSTCG,&bnk->is_stcg);CHKERRQ(ierr); 63eb910715SAlp Dener ierr = PetscStrcmp(ksp_type,KSPCGGLTR,&bnk->is_gltr);CHKERRQ(ierr); 64eb910715SAlp Dener 65eb910715SAlp Dener ierr = KSPCGSetRadius(tao->ksp,bnk->max_radius);CHKERRQ(ierr); 66eb910715SAlp Dener 67eb910715SAlp Dener if (bnk->is_nash || bnk->is_stcg || bnk->is_gltr) { 68eb910715SAlp Dener if (tao->trust0 < 0.0) SETERRQ(PETSC_COMM_SELF,1,"Initial radius negative"); 69eb910715SAlp Dener tao->trust = tao->trust0; 70eb910715SAlp Dener tao->trust = PetscMax(tao->trust, bnk->min_radius); 71eb910715SAlp Dener tao->trust = PetscMin(tao->trust, bnk->max_radius); 72eb910715SAlp Dener } 73eb910715SAlp Dener 74eb910715SAlp Dener /* Get vectors we will need */ 75eb910715SAlp Dener if (BNK_PC_BFGS == bnk->pc_type && !bnk->M) { 76eb910715SAlp Dener ierr = VecGetLocalSize(tao->solution,&n);CHKERRQ(ierr); 77eb910715SAlp Dener ierr = VecGetSize(tao->solution,&N);CHKERRQ(ierr); 78eb910715SAlp Dener ierr = MatCreateLMVM(((PetscObject)tao)->comm,n,N,&bnk->M);CHKERRQ(ierr); 79eb910715SAlp Dener ierr = MatLMVMAllocateVectors(bnk->M,tao->solution);CHKERRQ(ierr); 80eb910715SAlp Dener } 81eb910715SAlp Dener 82eb910715SAlp Dener /* create vectors for the limited memory preconditioner */ 83eb910715SAlp Dener if ((BNK_PC_BFGS == bnk->pc_type) && (BFGS_SCALE_BFGS != bnk->bfgs_scale_type)) { 84eb910715SAlp Dener if (!bnk->Diag) { 85eb910715SAlp Dener ierr = VecDuplicate(tao->solution,&bnk->Diag);CHKERRQ(ierr); 86eb910715SAlp Dener } 87eb910715SAlp Dener } 88eb910715SAlp Dener 89eb910715SAlp Dener /* Modify the preconditioner to use the bfgs approximation */ 90eb910715SAlp Dener ierr = KSPGetPC(tao->ksp, &pc);CHKERRQ(ierr); 91eb910715SAlp Dener switch(bnk->pc_type) { 92eb910715SAlp Dener case BNK_PC_NONE: 93eb910715SAlp Dener ierr = PCSetType(pc, PCNONE);CHKERRQ(ierr); 94eb910715SAlp Dener ierr = PCSetFromOptions(pc);CHKERRQ(ierr); 95eb910715SAlp Dener break; 96eb910715SAlp Dener 97eb910715SAlp Dener case BNK_PC_AHESS: 98eb910715SAlp Dener ierr = PCSetType(pc, PCJACOBI);CHKERRQ(ierr); 99eb910715SAlp Dener ierr = PCSetFromOptions(pc);CHKERRQ(ierr); 100eb910715SAlp Dener ierr = PCJacobiSetUseAbs(pc,PETSC_TRUE);CHKERRQ(ierr); 101eb910715SAlp Dener break; 102eb910715SAlp Dener 103eb910715SAlp Dener case BNK_PC_BFGS: 104eb910715SAlp Dener ierr = PCSetType(pc, PCSHELL);CHKERRQ(ierr); 105eb910715SAlp Dener ierr = PCSetFromOptions(pc);CHKERRQ(ierr); 106eb910715SAlp Dener ierr = PCShellSetName(pc, "bfgs");CHKERRQ(ierr); 107eb910715SAlp Dener ierr = PCShellSetContext(pc, bnk->M);CHKERRQ(ierr); 108eb910715SAlp Dener ierr = PCShellSetApply(pc, MatLMVMSolveShell);CHKERRQ(ierr); 109eb910715SAlp Dener break; 110eb910715SAlp Dener 111eb910715SAlp Dener default: 112eb910715SAlp Dener /* Use the pc method set by pc_type */ 113eb910715SAlp Dener break; 114eb910715SAlp Dener } 115eb910715SAlp Dener 116eb910715SAlp Dener /* Initialize trust-region radius. The initialization is only performed 117eb910715SAlp Dener when we are using Nash, Steihaug-Toint or the Generalized Lanczos method. */ 118eb910715SAlp Dener if (bnk->is_nash || bnk->is_stcg || bnk->is_gltr) { 119eb910715SAlp Dener switch(bnk->init_type) { 120eb910715SAlp Dener case BNK_INIT_CONSTANT: 121eb910715SAlp Dener /* Use the initial radius specified */ 122eb910715SAlp Dener break; 123eb910715SAlp Dener 124eb910715SAlp Dener case BNK_INIT_INTERPOLATION: 125eb910715SAlp Dener /* Use the initial radius specified */ 126eb910715SAlp Dener max_radius = 0.0; 127eb910715SAlp Dener 128eb910715SAlp Dener for (j = 0; j < j_max; ++j) { 1290a4511e9SAlp Dener f_min = bnk->f; 130eb910715SAlp Dener sigma = 0.0; 131eb910715SAlp Dener 132eb910715SAlp Dener if (needH) { 13362602cfbSAlp Dener /* Compute the Hessian at the new step, and extract the inactive subsystem */ 134eb910715SAlp Dener ierr = TaoComputeHessian(tao, tao->solution,tao->hessian,tao->hessian_pre);CHKERRQ(ierr); 13562602cfbSAlp Dener ierr = ISDestroy(&bnk->inactive_idx);CHKERRQ(ierr); 13662602cfbSAlp Dener ierr = VecWhichInactive(tao->XL,tao->solution,bnk->unprojected_gradient,tao->XU,PETSC_TRUE,&bnk->inactive_idx);CHKERRQ(ierr); 13762602cfbSAlp Dener ierr = TaoMatGetSubMat(tao->hessian, bnk->inactive_idx, bnk->Xwork, TAO_SUBSET_MASK, &bnk->H_inactive);CHKERRQ(ierr); 138eb910715SAlp Dener needH = 0; 139eb910715SAlp Dener } 140eb910715SAlp Dener 141eb910715SAlp Dener for (i = 0; i < i_max; ++i) { 14262602cfbSAlp Dener /* Take a steepest descent step and snap it to bounds */ 14362602cfbSAlp Dener ierr = VecCopy(tao->solution, bnk->Xold);CHKERRQ(ierr); 14462602cfbSAlp Dener ierr = VecAXPY(tao->solution, -tao->trust/bnk->gnorm, tao->gradient);CHKERRQ(ierr); 14562602cfbSAlp Dener ierr = VecMedian(tao->XL, tao->solution, tao->XU, tao->solution);CHKERRQ(ierr); 146770b7498SAlp Dener /* Recompute the step after bound snapping so that it can be used in predicted decrease calculation later */ 147eb910715SAlp Dener ierr = VecCopy(tao->solution, bnk->W);CHKERRQ(ierr); 14862602cfbSAlp Dener ierr = VecAXPY(bnk->W, -1.0, bnk->Xold);CHKERRQ(ierr); 14962602cfbSAlp Dener /* Compute the objective at the trial */ 15062602cfbSAlp Dener ierr = TaoComputeObjective(tao, tao->solution, &ftrial);CHKERRQ(ierr); 15162602cfbSAlp Dener ierr = VecCopy(bnk->Xold, tao->solution);CHKERRQ(ierr); 152eb910715SAlp Dener if (PetscIsInfOrNanReal(ftrial)) { 153eb910715SAlp Dener tau = bnk->gamma1_i; 154eb910715SAlp Dener } else { 1550a4511e9SAlp Dener if (ftrial < f_min) { 1560a4511e9SAlp Dener f_min = ftrial; 157eb910715SAlp Dener sigma = -tao->trust / bnk->gnorm; 158eb910715SAlp Dener } 159770b7498SAlp Dener /* Compute the predicted and actual reduction */ 16062602cfbSAlp Dener ierr = MatMult(bnk->H_inactive, tao->gradient, bnk->W);CHKERRQ(ierr); 16162602cfbSAlp Dener ierr = VecDot(tao->gradient, bnk->W, &prered);CHKERRQ(ierr); 162eb910715SAlp Dener prered = tao->trust * (bnk->gnorm - 0.5 * tao->trust * prered / (bnk->gnorm * bnk->gnorm)); 163eb910715SAlp Dener actred = bnk->f - ftrial; 164eb910715SAlp Dener if ((PetscAbsScalar(actred) <= bnk->epsilon) && (PetscAbsScalar(prered) <= bnk->epsilon)) { 165eb910715SAlp Dener kappa = 1.0; 166eb910715SAlp Dener } else { 167eb910715SAlp Dener kappa = actred / prered; 168eb910715SAlp Dener } 169eb910715SAlp Dener 170eb910715SAlp Dener tau_1 = bnk->theta_i * bnk->gnorm * tao->trust / (bnk->theta_i * bnk->gnorm * tao->trust + (1.0 - bnk->theta_i) * prered - actred); 171eb910715SAlp Dener tau_2 = bnk->theta_i * bnk->gnorm * tao->trust / (bnk->theta_i * bnk->gnorm * tao->trust - (1.0 + bnk->theta_i) * prered + actred); 172eb910715SAlp Dener tau_min = PetscMin(tau_1, tau_2); 173eb910715SAlp Dener tau_max = PetscMax(tau_1, tau_2); 174eb910715SAlp Dener 175eb910715SAlp Dener if (PetscAbsScalar(kappa - 1.0) <= bnk->mu1_i) { 176eb910715SAlp Dener /* Great agreement */ 177eb910715SAlp Dener max_radius = PetscMax(max_radius, tao->trust); 178eb910715SAlp Dener 179eb910715SAlp Dener if (tau_max < 1.0) { 180eb910715SAlp Dener tau = bnk->gamma3_i; 181eb910715SAlp Dener } else if (tau_max > bnk->gamma4_i) { 182eb910715SAlp Dener tau = bnk->gamma4_i; 183eb910715SAlp Dener } else if (tau_1 >= 1.0 && tau_1 <= bnk->gamma4_i && tau_2 < 1.0) { 184eb910715SAlp Dener tau = tau_1; 185eb910715SAlp Dener } else if (tau_2 >= 1.0 && tau_2 <= bnk->gamma4_i && tau_1 < 1.0) { 186eb910715SAlp Dener tau = tau_2; 187eb910715SAlp Dener } else { 188eb910715SAlp Dener tau = tau_max; 189eb910715SAlp Dener } 190eb910715SAlp Dener } else if (PetscAbsScalar(kappa - 1.0) <= bnk->mu2_i) { 191eb910715SAlp Dener /* Good agreement */ 192eb910715SAlp Dener max_radius = PetscMax(max_radius, tao->trust); 193eb910715SAlp Dener 194eb910715SAlp Dener if (tau_max < bnk->gamma2_i) { 195eb910715SAlp Dener tau = bnk->gamma2_i; 196eb910715SAlp Dener } else if (tau_max > bnk->gamma3_i) { 197eb910715SAlp Dener tau = bnk->gamma3_i; 198eb910715SAlp Dener } else { 199eb910715SAlp Dener tau = tau_max; 200eb910715SAlp Dener } 201eb910715SAlp Dener } else { 202eb910715SAlp Dener /* Not good agreement */ 203eb910715SAlp Dener if (tau_min > 1.0) { 204eb910715SAlp Dener tau = bnk->gamma2_i; 205eb910715SAlp Dener } else if (tau_max < bnk->gamma1_i) { 206eb910715SAlp Dener tau = bnk->gamma1_i; 207eb910715SAlp Dener } else if ((tau_min < bnk->gamma1_i) && (tau_max >= 1.0)) { 208eb910715SAlp Dener tau = bnk->gamma1_i; 209eb910715SAlp Dener } else if ((tau_1 >= bnk->gamma1_i) && (tau_1 < 1.0) && ((tau_2 < bnk->gamma1_i) || (tau_2 >= 1.0))) { 210eb910715SAlp Dener tau = tau_1; 211eb910715SAlp Dener } else if ((tau_2 >= bnk->gamma1_i) && (tau_2 < 1.0) && ((tau_1 < bnk->gamma1_i) || (tau_2 >= 1.0))) { 212eb910715SAlp Dener tau = tau_2; 213eb910715SAlp Dener } else { 214eb910715SAlp Dener tau = tau_max; 215eb910715SAlp Dener } 216eb910715SAlp Dener } 217eb910715SAlp Dener } 218eb910715SAlp Dener tao->trust = tau * tao->trust; 219eb910715SAlp Dener } 220eb910715SAlp Dener 2210a4511e9SAlp Dener if (f_min < bnk->f) { 2220a4511e9SAlp Dener bnk->f = f_min; 223eb910715SAlp Dener ierr = VecAXPY(tao->solution,sigma,tao->gradient);CHKERRQ(ierr); 22487602d1eSAlp Dener ierr = VecMedian(tao->XL, tao->solution, tao->XU, tao->solution);CHKERRQ(ierr); 22509164190SAlp Dener ierr = TaoComputeGradient(tao,tao->solution,bnk->unprojected_gradient);CHKERRQ(ierr); 22609164190SAlp Dener ierr = VecBoundGradientProjection(bnk->unprojected_gradient,tao->solution,tao->XL,tao->XU,tao->gradient);CHKERRQ(ierr); 227eb910715SAlp Dener 228eb910715SAlp Dener ierr = TaoGradientNorm(tao, tao->gradient,NORM_2,&bnk->gnorm);CHKERRQ(ierr); 229eb910715SAlp Dener if (PetscIsInfOrNanReal(bnk->gnorm)) SETERRQ(PETSC_COMM_SELF,1, "User provided compute gradient generated Inf or NaN"); 230eb910715SAlp Dener needH = 1; 231eb910715SAlp Dener 232eb910715SAlp Dener ierr = TaoLogConvergenceHistory(tao,bnk->f,bnk->gnorm,0.0,tao->ksp_its);CHKERRQ(ierr); 233eb910715SAlp Dener ierr = TaoMonitor(tao,tao->niter,bnk->f,bnk->gnorm,0.0,step);CHKERRQ(ierr); 234eb910715SAlp Dener ierr = (*tao->ops->convergencetest)(tao,tao->cnvP);CHKERRQ(ierr); 235eb910715SAlp Dener if (tao->reason != TAO_CONTINUE_ITERATING) PetscFunctionReturn(0); 236eb910715SAlp Dener } 237eb910715SAlp Dener } 238eb910715SAlp Dener tao->trust = PetscMax(tao->trust, max_radius); 239eb910715SAlp Dener 240eb910715SAlp Dener /* Modify the radius if it is too large or small */ 241eb910715SAlp Dener tao->trust = PetscMax(tao->trust, bnk->min_radius); 242eb910715SAlp Dener tao->trust = PetscMin(tao->trust, bnk->max_radius); 243eb910715SAlp Dener break; 244eb910715SAlp Dener 245eb910715SAlp Dener default: 246eb910715SAlp Dener /* Norm of the first direction will initialize radius */ 247eb910715SAlp Dener tao->trust = 0.0; 248eb910715SAlp Dener break; 249eb910715SAlp Dener } 250eb910715SAlp Dener } 251eb910715SAlp Dener 252eb910715SAlp Dener /* Set initial scaling for the BFGS preconditioner 253eb910715SAlp Dener This step is done after computing the initial trust-region radius 254eb910715SAlp Dener since the function value may have decreased */ 255eb910715SAlp Dener if (BNK_PC_BFGS == bnk->pc_type) { 256eb910715SAlp Dener if (bnk->f != 0.0) { 257eb910715SAlp Dener delta = 2.0 * PetscAbsScalar(bnk->f) / (bnk->gnorm*bnk->gnorm); 258eb910715SAlp Dener } else { 259eb910715SAlp Dener delta = 2.0 / (bnk->gnorm*bnk->gnorm); 260eb910715SAlp Dener } 261eb910715SAlp Dener ierr = MatLMVMSetDelta(bnk->M,delta);CHKERRQ(ierr); 262eb910715SAlp Dener } 263eb910715SAlp Dener 264eb910715SAlp Dener /* Set counter for gradient/reset steps*/ 265eb910715SAlp Dener bnk->newt = 0; 266eb910715SAlp Dener bnk->bfgs = 0; 267eb910715SAlp Dener bnk->sgrad = 0; 268eb910715SAlp Dener bnk->grad = 0; 269eb910715SAlp Dener PetscFunctionReturn(0); 270eb910715SAlp Dener } 271eb910715SAlp Dener 272df278d8fSAlp Dener /*------------------------------------------------------------*/ 273df278d8fSAlp Dener 2742f75a4aaSAlp Dener /* Routine for estimating the active set */ 2752f75a4aaSAlp Dener 2762f75a4aaSAlp Dener PetscErrorCode TaoBNKEstimateActiveSet(Tao tao) 2772f75a4aaSAlp Dener { 2782f75a4aaSAlp Dener PetscErrorCode ierr; 2792f75a4aaSAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 2802f75a4aaSAlp Dener 2812f75a4aaSAlp Dener PetscFunctionBegin; 2822f75a4aaSAlp Dener switch (bnk->as_type) { 2832f75a4aaSAlp Dener case BNK_AS_NONE: 2842f75a4aaSAlp Dener ierr = ISDestroy(&bnk->inactive_idx);CHKERRQ(ierr); 2852f75a4aaSAlp Dener ierr = VecWhichInactive(tao->XL, tao->solution, bnk->unprojected_gradient, tao->XU, PETSC_TRUE, &bnk->inactive_idx);CHKERRQ(ierr); 2862f75a4aaSAlp Dener ierr = ISDestroy(&bnk->active_idx);CHKERRQ(ierr); 2872f75a4aaSAlp Dener ierr = ISComplementVec(bnk->inactive_idx, tao->solution, &bnk->active_idx);CHKERRQ(ierr); 2882f75a4aaSAlp Dener break; 2892f75a4aaSAlp Dener 2902f75a4aaSAlp Dener case BNK_AS_BERTSEKAS: 2912f75a4aaSAlp Dener /* Compute the trial step vector with which we will estimate the active set at the next iteration */ 2922f75a4aaSAlp Dener if (BNK_PC_BFGS == bnk->pc_type) { 2932f75a4aaSAlp Dener /* If the BFGS preconditioner matrix is available, we will construct a trial step with it */ 2942f75a4aaSAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, bnk->W);CHKERRQ(ierr); 2952f75a4aaSAlp Dener } else { 2962f75a4aaSAlp Dener /* BFGS preconditioner doesn't exist so let's invert the diagonal of the Hessian instead onto the gradient*/ 2972f75a4aaSAlp Dener ierr = MatGetDiagonal(tao->hessian, bnk->Xwork);CHKERRQ(ierr); 2982f75a4aaSAlp Dener ierr = VecReciprocal(bnk->Xwork);CHKERRQ(ierr);CHKERRQ(ierr); 2992f75a4aaSAlp Dener ierr = VecPointwiseMult(bnk->W, bnk->Xwork, bnk->unprojected_gradient);CHKERRQ(ierr); 3002f75a4aaSAlp Dener } 3012f75a4aaSAlp Dener ierr = VecScale(bnk->W, -1.0);CHKERRQ(ierr); 3020a4511e9SAlp Dener ierr = TaoEstimateActiveBounds(tao->solution, tao->XL, tao->XU, bnk->unprojected_gradient, bnk->W, bnk->as_step, &bnk->as_tol, &bnk->active_lower, &bnk->active_upper, &bnk->active_fixed, &bnk->active_idx, &bnk->inactive_idx);CHKERRQ(ierr); 3032f75a4aaSAlp Dener 3042f75a4aaSAlp Dener default: 3052f75a4aaSAlp Dener break; 3062f75a4aaSAlp Dener } 307*e465cd6fSAlp Dener if (bnk->active_idx) { 308*e465cd6fSAlp Dener ierr = ISGetSize(bnk->active_idx, &bnk->num_active);CHKERRQ(ierr); 309*e465cd6fSAlp Dener } else { 310*e465cd6fSAlp Dener bnk->num_active = 0; 311*e465cd6fSAlp Dener } 3122f75a4aaSAlp Dener PetscFunctionReturn(0); 3132f75a4aaSAlp Dener } 3142f75a4aaSAlp Dener 3152f75a4aaSAlp Dener /*------------------------------------------------------------*/ 3162f75a4aaSAlp Dener 3172f75a4aaSAlp Dener /* Routine for bounding the step direction */ 3182f75a4aaSAlp Dener 3192f75a4aaSAlp Dener PetscErrorCode TaoBNKBoundStep(Tao tao, Vec step) 3202f75a4aaSAlp Dener { 3212f75a4aaSAlp Dener PetscErrorCode ierr; 3222f75a4aaSAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 3232f75a4aaSAlp Dener 3242f75a4aaSAlp Dener PetscFunctionBegin; 325*e465cd6fSAlp Dener if (bnk->num_active > 0) { 3262f75a4aaSAlp Dener switch (bnk->as_type) { 3272f75a4aaSAlp Dener case BNK_AS_NONE: 3282f75a4aaSAlp Dener if (bnk->active_idx) { 3292f75a4aaSAlp Dener ierr = VecGetSubVector(step, bnk->active_idx, &bnk->active_work);CHKERRQ(ierr); 3302f75a4aaSAlp Dener ierr = VecSet(bnk->active_work, 0.0);CHKERRQ(ierr); 3312f75a4aaSAlp Dener ierr = VecRestoreSubVector(step, bnk->active_idx, &bnk->active_work);CHKERRQ(ierr); 3322f75a4aaSAlp Dener } 3332f75a4aaSAlp Dener break; 3342f75a4aaSAlp Dener 3352f75a4aaSAlp Dener case BNK_AS_BERTSEKAS: 3362f75a4aaSAlp Dener ierr = TaoBoundStep(tao->solution, tao->XL, tao->XU, bnk->active_lower, bnk->active_upper, bnk->active_fixed, step);CHKERRQ(ierr); 3372f75a4aaSAlp Dener break; 3382f75a4aaSAlp Dener 3392f75a4aaSAlp Dener default: 3402f75a4aaSAlp Dener break; 3412f75a4aaSAlp Dener } 342*e465cd6fSAlp Dener } 3432f75a4aaSAlp Dener PetscFunctionReturn(0); 3442f75a4aaSAlp Dener } 3452f75a4aaSAlp Dener 3462f75a4aaSAlp Dener /*------------------------------------------------------------*/ 3472f75a4aaSAlp Dener 348df278d8fSAlp Dener /* Routine for computing the Newton step. 349df278d8fSAlp Dener 350df278d8fSAlp Dener If the safeguard is enabled, the Newton step is verified to be a 351df278d8fSAlp Dener descent direction, with fallbacks onto BFGS, scaled gradient, and unscaled 352df278d8fSAlp Dener gradient steps if/when necessary. 353df278d8fSAlp Dener 354df278d8fSAlp Dener The function reports back on which type of step has ultimately been stored 355df278d8fSAlp Dener under tao->stepdirection. 356df278d8fSAlp Dener */ 357df278d8fSAlp Dener 358*e465cd6fSAlp Dener PetscErrorCode TaoBNKComputeStep(Tao tao, KSPConvergedReason *ksp_reason) 359eb910715SAlp Dener { 360eb910715SAlp Dener PetscErrorCode ierr; 361eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 362eb910715SAlp Dener 363*e465cd6fSAlp Dener PetscReal delta; 364eb910715SAlp Dener PetscInt bfgsUpdates = 0; 365eb910715SAlp Dener PetscInt kspits; 366eb910715SAlp Dener 367eb910715SAlp Dener PetscFunctionBegin; 3682f75a4aaSAlp Dener /* Determine the active and inactive sets */ 3692f75a4aaSAlp Dener ierr = TaoBNKEstimateActiveSet(tao);CHKERRQ(ierr); 37009164190SAlp Dener 371eb3ba6a7SAlp Dener /* Prepare masked matrices for the inactive set */ 3722f75a4aaSAlp Dener if (BNK_PC_BFGS == bnk->pc_type) { ierr = MatLMVMSetInactive(bnk->M, bnk->inactive_idx);CHKERRQ(ierr); } 3732f75a4aaSAlp Dener if (bnk->inactive_idx) { 374eb3ba6a7SAlp Dener ierr = TaoMatGetSubMat(tao->hessian, bnk->inactive_idx, bnk->Xwork, TAO_SUBSET_MASK, &bnk->H_inactive);CHKERRQ(ierr); 375eb3ba6a7SAlp Dener if (tao->hessian == tao->hessian_pre) { 376eb3ba6a7SAlp Dener bnk->Hpre_inactive = bnk->H_inactive; 377eb3ba6a7SAlp Dener } else { 378eb3ba6a7SAlp Dener ierr = TaoMatGetSubMat(tao->hessian_pre, bnk->inactive_idx, bnk->Xwork, TAO_SUBSET_MASK, &bnk->Hpre_inactive);CHKERRQ(ierr); 379eb3ba6a7SAlp Dener } 3802f75a4aaSAlp Dener } else { 3812f75a4aaSAlp Dener bnk->H_inactive = tao->hessian; 3822f75a4aaSAlp Dener bnk->Hpre_inactive = tao->hessian_pre; 3832f75a4aaSAlp Dener } 38409164190SAlp Dener 385eb910715SAlp Dener /* Solve the Newton system of equations */ 3862f75a4aaSAlp Dener ierr = VecSet(tao->stepdirection, 0.0);CHKERRQ(ierr); 38709164190SAlp Dener ierr = KSPSetOperators(tao->ksp,bnk->H_inactive,bnk->Hpre_inactive);CHKERRQ(ierr); 388eb910715SAlp Dener if (bnk->is_nash || bnk->is_stcg || bnk->is_gltr) { 389fed79b8eSAlp Dener ierr = KSPCGSetRadius(tao->ksp,tao->trust);CHKERRQ(ierr); 390eb3ba6a7SAlp Dener ierr = KSPSolve(tao->ksp, tao->gradient, tao->stepdirection);CHKERRQ(ierr); 391eb910715SAlp Dener ierr = KSPGetIterationNumber(tao->ksp,&kspits);CHKERRQ(ierr); 392eb910715SAlp Dener tao->ksp_its+=kspits; 393eb910715SAlp Dener tao->ksp_tot_its+=kspits; 394080d2917SAlp Dener ierr = KSPCGGetNormD(tao->ksp,&bnk->dnorm);CHKERRQ(ierr); 395eb910715SAlp Dener 396eb910715SAlp Dener if (0.0 == tao->trust) { 397eb910715SAlp Dener /* Radius was uninitialized; use the norm of the direction */ 398080d2917SAlp Dener if (bnk->dnorm > 0.0) { 399080d2917SAlp Dener tao->trust = bnk->dnorm; 400eb910715SAlp Dener 401eb910715SAlp Dener /* Modify the radius if it is too large or small */ 402eb910715SAlp Dener tao->trust = PetscMax(tao->trust, bnk->min_radius); 403eb910715SAlp Dener tao->trust = PetscMin(tao->trust, bnk->max_radius); 404eb910715SAlp Dener } else { 405eb910715SAlp Dener /* The direction was bad; set radius to default value and re-solve 406eb910715SAlp Dener the trust-region subproblem to get a direction */ 407eb910715SAlp Dener tao->trust = tao->trust0; 408eb910715SAlp Dener 409eb910715SAlp Dener /* Modify the radius if it is too large or small */ 410eb910715SAlp Dener tao->trust = PetscMax(tao->trust, bnk->min_radius); 411eb910715SAlp Dener tao->trust = PetscMin(tao->trust, bnk->max_radius); 412eb910715SAlp Dener 413fed79b8eSAlp Dener ierr = KSPCGSetRadius(tao->ksp,tao->trust);CHKERRQ(ierr); 414eb3ba6a7SAlp Dener ierr = KSPSolve(tao->ksp, tao->gradient, tao->stepdirection);CHKERRQ(ierr); 415eb910715SAlp Dener ierr = KSPGetIterationNumber(tao->ksp,&kspits);CHKERRQ(ierr); 416eb910715SAlp Dener tao->ksp_its+=kspits; 417eb910715SAlp Dener tao->ksp_tot_its+=kspits; 418080d2917SAlp Dener ierr = KSPCGGetNormD(tao->ksp,&bnk->dnorm);CHKERRQ(ierr); 419eb910715SAlp Dener 420080d2917SAlp Dener if (bnk->dnorm == 0.0) SETERRQ(PETSC_COMM_SELF,1, "Initial direction zero"); 421eb910715SAlp Dener } 422eb910715SAlp Dener } 423eb910715SAlp Dener } else { 424eb3ba6a7SAlp Dener ierr = KSPSolve(tao->ksp, tao->gradient, tao->stepdirection);CHKERRQ(ierr); 425eb910715SAlp Dener ierr = KSPGetIterationNumber(tao->ksp, &kspits);CHKERRQ(ierr); 426eb910715SAlp Dener tao->ksp_its += kspits; 427eb910715SAlp Dener tao->ksp_tot_its+=kspits; 428eb910715SAlp Dener } 429770b7498SAlp Dener /* Make sure the safeguarded fall-back step is zero for actively bounded variables */ 430fed79b8eSAlp Dener ierr = VecScale(tao->stepdirection, -1.0);CHKERRQ(ierr); 4312f75a4aaSAlp Dener ierr = TaoBNKBoundStep(tao, tao->stepdirection);CHKERRQ(ierr); 432770b7498SAlp Dener 433770b7498SAlp Dener /* Record convergence reasons */ 434*e465cd6fSAlp Dener ierr = KSPGetConvergedReason(tao->ksp, ksp_reason);CHKERRQ(ierr); 435*e465cd6fSAlp Dener if (KSP_CONVERGED_ATOL == *ksp_reason) { 436770b7498SAlp Dener ++bnk->ksp_atol; 437*e465cd6fSAlp Dener } else if (KSP_CONVERGED_RTOL == *ksp_reason) { 438770b7498SAlp Dener ++bnk->ksp_rtol; 439*e465cd6fSAlp Dener } else if (KSP_CONVERGED_CG_CONSTRAINED == *ksp_reason) { 440770b7498SAlp Dener ++bnk->ksp_ctol; 441*e465cd6fSAlp Dener } else if (KSP_CONVERGED_CG_NEG_CURVE == *ksp_reason) { 442770b7498SAlp Dener ++bnk->ksp_negc; 443*e465cd6fSAlp Dener } else if (KSP_DIVERGED_DTOL == *ksp_reason) { 444770b7498SAlp Dener ++bnk->ksp_dtol; 445*e465cd6fSAlp Dener } else if (KSP_DIVERGED_ITS == *ksp_reason) { 446770b7498SAlp Dener ++bnk->ksp_iter; 447770b7498SAlp Dener } else { 448770b7498SAlp Dener ++bnk->ksp_othr; 449770b7498SAlp Dener } 450fed79b8eSAlp Dener 451fed79b8eSAlp Dener /* Make sure the BFGS preconditioner is healthy */ 452fed79b8eSAlp Dener if (bnk->pc_type == BNK_PC_BFGS) { 453fed79b8eSAlp Dener ierr = MatLMVMGetUpdates(bnk->M, &bfgsUpdates);CHKERRQ(ierr); 454*e465cd6fSAlp Dener if ((KSP_DIVERGED_INDEFINITE_PC == *ksp_reason) && (bfgsUpdates > 1)) { 455fed79b8eSAlp Dener /* Preconditioner is numerically indefinite; reset the approximation. */ 456eb910715SAlp Dener if (bnk->f != 0.0) { 457eb910715SAlp Dener delta = 2.0 * PetscAbsScalar(bnk->f) / (bnk->gnorm*bnk->gnorm); 458eb910715SAlp Dener } else { 459eb910715SAlp Dener delta = 2.0 / (bnk->gnorm*bnk->gnorm); 460eb910715SAlp Dener } 461eb910715SAlp Dener ierr = MatLMVMSetDelta(bnk->M,delta);CHKERRQ(ierr); 462eb910715SAlp Dener ierr = MatLMVMReset(bnk->M);CHKERRQ(ierr); 46309164190SAlp Dener ierr = MatLMVMUpdate(bnk->M, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); 464eb910715SAlp Dener } 465fed79b8eSAlp Dener } 466*e465cd6fSAlp Dener PetscFunctionReturn(0); 467*e465cd6fSAlp Dener } 468eb910715SAlp Dener 469*e465cd6fSAlp Dener PetscErrorCode TaoBNKSafeguardStep(Tao tao, KSPConvergedReason ksp_reason, PetscInt *stepType) 470*e465cd6fSAlp Dener { 471*e465cd6fSAlp Dener PetscErrorCode ierr; 472*e465cd6fSAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 473*e465cd6fSAlp Dener 474*e465cd6fSAlp Dener PetscReal gdx, delta, e_min; 475*e465cd6fSAlp Dener PetscInt bfgsUpdates; 476*e465cd6fSAlp Dener 477*e465cd6fSAlp Dener PetscFunctionBegin; 478080d2917SAlp Dener ierr = VecDot(tao->stepdirection, tao->gradient, &gdx);CHKERRQ(ierr); 479eb910715SAlp Dener if ((gdx >= 0.0) || PetscIsInfOrNanReal(gdx)) { 480eb910715SAlp Dener /* Newton step is not descent or direction produced Inf or NaN 481eb910715SAlp Dener Update the perturbation for next time */ 482eb910715SAlp Dener if (bnk->pert <= 0.0) { 483eb910715SAlp Dener /* Initialize the perturbation */ 484eb910715SAlp Dener bnk->pert = PetscMin(bnk->imax, PetscMax(bnk->imin, bnk->imfac * bnk->gnorm)); 485eb910715SAlp Dener if (bnk->is_gltr) { 486eb910715SAlp Dener ierr = KSPCGGLTRGetMinEig(tao->ksp,&e_min);CHKERRQ(ierr); 487eb910715SAlp Dener bnk->pert = PetscMax(bnk->pert, -e_min); 488eb910715SAlp Dener } 489eb910715SAlp Dener } else { 490eb910715SAlp Dener /* Increase the perturbation */ 491eb910715SAlp Dener bnk->pert = PetscMin(bnk->pmax, PetscMax(bnk->pgfac * bnk->pert, bnk->pmgfac * bnk->gnorm)); 492eb910715SAlp Dener } 493eb910715SAlp Dener 494eb910715SAlp Dener if (BNK_PC_BFGS != bnk->pc_type) { 495eb910715SAlp Dener /* We don't have the bfgs matrix around and updated 496eb910715SAlp Dener Must use gradient direction in this case */ 497080d2917SAlp Dener ierr = VecCopy(tao->gradient, tao->stepdirection);CHKERRQ(ierr); 498eb910715SAlp Dener *stepType = BNK_GRADIENT; 499eb910715SAlp Dener } else { 500eb910715SAlp Dener /* Attempt to use the BFGS direction */ 50109164190SAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 502eb910715SAlp Dener 5038d5ead36SAlp Dener /* Check for success (descent direction) 5048d5ead36SAlp Dener NOTE: Negative gdx here means not a descent direction because 5058d5ead36SAlp Dener the fall-back step is missing a negative sign. */ 506080d2917SAlp Dener ierr = VecDot(tao->gradient, tao->stepdirection, &gdx);CHKERRQ(ierr); 5078d5ead36SAlp Dener if ((gdx <= 0) || PetscIsInfOrNanReal(gdx)) { 508eb910715SAlp Dener /* BFGS direction is not descent or direction produced not a number 509eb910715SAlp Dener We can assert bfgsUpdates > 1 in this case because 510eb910715SAlp Dener the first solve produces the scaled gradient direction, 511eb910715SAlp Dener which is guaranteed to be descent */ 512eb910715SAlp Dener 513eb910715SAlp Dener /* Use steepest descent direction (scaled) */ 514eb910715SAlp Dener if (bnk->f != 0.0) { 515eb910715SAlp Dener delta = 2.0 * PetscAbsScalar(bnk->f) / (bnk->gnorm*bnk->gnorm); 516eb910715SAlp Dener } else { 517eb910715SAlp Dener delta = 2.0 / (bnk->gnorm*bnk->gnorm); 518eb910715SAlp Dener } 519eb910715SAlp Dener ierr = MatLMVMSetDelta(bnk->M, delta);CHKERRQ(ierr); 520eb910715SAlp Dener ierr = MatLMVMReset(bnk->M);CHKERRQ(ierr); 52109164190SAlp Dener ierr = MatLMVMUpdate(bnk->M, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); 52209164190SAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 523eb910715SAlp Dener 524eb910715SAlp Dener *stepType = BNK_SCALED_GRADIENT; 525eb910715SAlp Dener } else { 526770b7498SAlp Dener ierr = MatLMVMGetUpdates(bnk->M, &bfgsUpdates);CHKERRQ(ierr); 527eb910715SAlp Dener if (1 == bfgsUpdates) { 528eb910715SAlp Dener /* The first BFGS direction is always the scaled gradient */ 529eb910715SAlp Dener *stepType = BNK_SCALED_GRADIENT; 530eb910715SAlp Dener } else { 531eb910715SAlp Dener *stepType = BNK_BFGS; 532eb910715SAlp Dener } 533eb910715SAlp Dener } 534eb910715SAlp Dener } 5358d5ead36SAlp Dener /* Make sure the safeguarded fall-back step is zero for actively bounded variables */ 5368d5ead36SAlp Dener ierr = VecScale(tao->stepdirection, -1.0);CHKERRQ(ierr); 5372f75a4aaSAlp Dener ierr = TaoBNKBoundStep(tao, tao->stepdirection);CHKERRQ(ierr); 538eb910715SAlp Dener } else { 539eb910715SAlp Dener /* Computed Newton step is descent */ 540eb910715SAlp Dener switch (ksp_reason) { 541eb910715SAlp Dener case KSP_DIVERGED_NANORINF: 542eb910715SAlp Dener case KSP_DIVERGED_BREAKDOWN: 543eb910715SAlp Dener case KSP_DIVERGED_INDEFINITE_MAT: 544eb910715SAlp Dener case KSP_DIVERGED_INDEFINITE_PC: 545eb910715SAlp Dener case KSP_CONVERGED_CG_NEG_CURVE: 546eb910715SAlp Dener /* Matrix or preconditioner is indefinite; increase perturbation */ 547eb910715SAlp Dener if (bnk->pert <= 0.0) { 548eb910715SAlp Dener /* Initialize the perturbation */ 549eb910715SAlp Dener bnk->pert = PetscMin(bnk->imax, PetscMax(bnk->imin, bnk->imfac * bnk->gnorm)); 550eb910715SAlp Dener if (bnk->is_gltr) { 551eb910715SAlp Dener ierr = KSPCGGLTRGetMinEig(tao->ksp, &e_min);CHKERRQ(ierr); 552eb910715SAlp Dener bnk->pert = PetscMax(bnk->pert, -e_min); 553eb910715SAlp Dener } 554eb910715SAlp Dener } else { 555eb910715SAlp Dener /* Increase the perturbation */ 556eb910715SAlp Dener bnk->pert = PetscMin(bnk->pmax, PetscMax(bnk->pgfac * bnk->pert, bnk->pmgfac * bnk->gnorm)); 557eb910715SAlp Dener } 558eb910715SAlp Dener break; 559eb910715SAlp Dener 560eb910715SAlp Dener default: 561eb910715SAlp Dener /* Newton step computation is good; decrease perturbation */ 562eb910715SAlp Dener bnk->pert = PetscMin(bnk->psfac * bnk->pert, bnk->pmsfac * bnk->gnorm); 563eb910715SAlp Dener if (bnk->pert < bnk->pmin) { 564eb910715SAlp Dener bnk->pert = 0.0; 565eb910715SAlp Dener } 566eb910715SAlp Dener break; 567eb910715SAlp Dener } 568fed79b8eSAlp Dener *stepType = BNK_NEWTON; 569eb910715SAlp Dener } 570eb910715SAlp Dener PetscFunctionReturn(0); 571eb910715SAlp Dener } 572eb910715SAlp Dener 573df278d8fSAlp Dener /*------------------------------------------------------------*/ 574df278d8fSAlp Dener 575df278d8fSAlp Dener /* Routine for performing a bound-projected More-Thuente line search. 576df278d8fSAlp Dener 577df278d8fSAlp Dener Includes fallbacks to BFGS, scaled gradient, and unscaled gradient steps if the 578df278d8fSAlp Dener Newton step does not produce a valid step length. 579df278d8fSAlp Dener */ 580df278d8fSAlp Dener 581c14b763aSAlp Dener PetscErrorCode TaoBNKPerformLineSearch(Tao tao, PetscInt stepType, PetscReal *steplen, TaoLineSearchConvergedReason *reason) 582c14b763aSAlp Dener { 583c14b763aSAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 584c14b763aSAlp Dener PetscErrorCode ierr; 585c14b763aSAlp Dener TaoLineSearchConvergedReason ls_reason; 586c14b763aSAlp Dener 587c14b763aSAlp Dener PetscReal e_min, gdx, delta; 588c14b763aSAlp Dener PetscInt bfgsUpdates; 589c14b763aSAlp Dener 590c14b763aSAlp Dener PetscFunctionBegin; 591c14b763aSAlp Dener /* Perform the linesearch */ 592770b7498SAlp Dener *steplen = 1.0; 593c14b763aSAlp Dener ierr = TaoLineSearchApply(tao->linesearch, tao->solution, &bnk->f, bnk->unprojected_gradient, tao->stepdirection, steplen, &ls_reason);CHKERRQ(ierr); 594c14b763aSAlp Dener ierr = VecBoundGradientProjection(bnk->unprojected_gradient,tao->solution,tao->XL,tao->XU,tao->gradient);CHKERRQ(ierr); 595c14b763aSAlp Dener ierr = TaoAddLineSearchCounts(tao);CHKERRQ(ierr); 596c14b763aSAlp Dener 597c14b763aSAlp Dener while (ls_reason != TAOLINESEARCH_SUCCESS && ls_reason != TAOLINESEARCH_SUCCESS_USER && stepType != BNK_GRADIENT) { 598c14b763aSAlp Dener /* Linesearch failed, revert solution */ 599c14b763aSAlp Dener bnk->f = bnk->fold; 600c14b763aSAlp Dener ierr = VecCopy(bnk->Xold, tao->solution);CHKERRQ(ierr); 601c14b763aSAlp Dener ierr = VecCopy(bnk->Gold, tao->gradient);CHKERRQ(ierr); 602c14b763aSAlp Dener ierr = VecCopy(bnk->unprojected_gradient_old, bnk->unprojected_gradient);CHKERRQ(ierr); 603c14b763aSAlp Dener 604c14b763aSAlp Dener switch(stepType) { 605c14b763aSAlp Dener case BNK_NEWTON: 6068d5ead36SAlp Dener /* Failed to obtain acceptable iterate with Newton step 607c14b763aSAlp Dener Update the perturbation for next time */ 608c14b763aSAlp Dener if (bnk->pert <= 0.0) { 609c14b763aSAlp Dener /* Initialize the perturbation */ 610c14b763aSAlp Dener bnk->pert = PetscMin(bnk->imax, PetscMax(bnk->imin, bnk->imfac * bnk->gnorm)); 611c14b763aSAlp Dener if (bnk->is_gltr) { 612c14b763aSAlp Dener ierr = KSPCGGLTRGetMinEig(tao->ksp,&e_min);CHKERRQ(ierr); 613c14b763aSAlp Dener bnk->pert = PetscMax(bnk->pert, -e_min); 614c14b763aSAlp Dener } 615c14b763aSAlp Dener } else { 616c14b763aSAlp Dener /* Increase the perturbation */ 617c14b763aSAlp Dener bnk->pert = PetscMin(bnk->pmax, PetscMax(bnk->pgfac * bnk->pert, bnk->pmgfac * bnk->gnorm)); 618c14b763aSAlp Dener } 619c14b763aSAlp Dener 620c14b763aSAlp Dener if (BNK_PC_BFGS != bnk->pc_type) { 621c14b763aSAlp Dener /* We don't have the bfgs matrix around and being updated 622c14b763aSAlp Dener Must use gradient direction in this case */ 623c14b763aSAlp Dener ierr = VecCopy(tao->gradient, tao->stepdirection);CHKERRQ(ierr); 624c14b763aSAlp Dener stepType = BNK_GRADIENT; 625c14b763aSAlp Dener } else { 626c14b763aSAlp Dener /* Attempt to use the BFGS direction */ 627c14b763aSAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 6288d5ead36SAlp Dener /* Check for success (descent direction) 6298d5ead36SAlp Dener NOTE: Negative gdx means not a descent direction because the step here is missing a negative sign. */ 630c14b763aSAlp Dener ierr = VecDot(tao->gradient, tao->stepdirection, &gdx);CHKERRQ(ierr); 631c14b763aSAlp Dener if ((gdx <= 0) || PetscIsInfOrNanReal(gdx)) { 632c14b763aSAlp Dener /* BFGS direction is not descent or direction produced not a number 633c14b763aSAlp Dener We can assert bfgsUpdates > 1 in this case 634c14b763aSAlp Dener Use steepest descent direction (scaled) */ 635c14b763aSAlp Dener if (bnk->f != 0.0) { 636c14b763aSAlp Dener delta = 2.0 * PetscAbsScalar(bnk->f) / (bnk->gnorm*bnk->gnorm); 637c14b763aSAlp Dener } else { 638c14b763aSAlp Dener delta = 2.0 / (bnk->gnorm*bnk->gnorm); 639c14b763aSAlp Dener } 640c14b763aSAlp Dener ierr = MatLMVMSetDelta(bnk->M, delta);CHKERRQ(ierr); 641c14b763aSAlp Dener ierr = MatLMVMReset(bnk->M);CHKERRQ(ierr); 642c14b763aSAlp Dener ierr = MatLMVMUpdate(bnk->M, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); 643c14b763aSAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 644c14b763aSAlp Dener 645c14b763aSAlp Dener bfgsUpdates = 1; 646c14b763aSAlp Dener stepType = BNK_SCALED_GRADIENT; 647c14b763aSAlp Dener } else { 648c14b763aSAlp Dener ierr = MatLMVMGetUpdates(bnk->M, &bfgsUpdates);CHKERRQ(ierr); 649c14b763aSAlp Dener if (1 == bfgsUpdates) { 650c14b763aSAlp Dener /* The first BFGS direction is always the scaled gradient */ 651c14b763aSAlp Dener stepType = BNK_SCALED_GRADIENT; 652c14b763aSAlp Dener } else { 653c14b763aSAlp Dener stepType = BNK_BFGS; 654c14b763aSAlp Dener } 655c14b763aSAlp Dener } 656c14b763aSAlp Dener } 657c14b763aSAlp Dener break; 658c14b763aSAlp Dener 659c14b763aSAlp Dener case BNK_BFGS: 660c14b763aSAlp Dener /* Can only enter if pc_type == BNK_PC_BFGS 661c14b763aSAlp Dener Failed to obtain acceptable iterate with BFGS step 662c14b763aSAlp Dener Attempt to use the scaled gradient direction */ 663c14b763aSAlp Dener if (bnk->f != 0.0) { 664c14b763aSAlp Dener delta = 2.0 * PetscAbsScalar(bnk->f) / (bnk->gnorm*bnk->gnorm); 665c14b763aSAlp Dener } else { 666c14b763aSAlp Dener delta = 2.0 / (bnk->gnorm*bnk->gnorm); 667c14b763aSAlp Dener } 668c14b763aSAlp Dener ierr = MatLMVMSetDelta(bnk->M, delta);CHKERRQ(ierr); 669c14b763aSAlp Dener ierr = MatLMVMReset(bnk->M);CHKERRQ(ierr); 670c14b763aSAlp Dener ierr = MatLMVMUpdate(bnk->M, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); 671c14b763aSAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 672c14b763aSAlp Dener 673c14b763aSAlp Dener bfgsUpdates = 1; 674c14b763aSAlp Dener stepType = BNK_SCALED_GRADIENT; 675c14b763aSAlp Dener break; 676c14b763aSAlp Dener 677c14b763aSAlp Dener case BNK_SCALED_GRADIENT: 678c14b763aSAlp Dener /* Can only enter if pc_type == BNK_PC_BFGS 679c14b763aSAlp Dener The scaled gradient step did not produce a new iterate; 680c14b763aSAlp Dener attemp to use the gradient direction. 681c14b763aSAlp Dener Need to make sure we are not using a different diagonal scaling */ 682c14b763aSAlp Dener ierr = MatLMVMSetScale(bnk->M,0);CHKERRQ(ierr); 683c14b763aSAlp Dener ierr = MatLMVMSetDelta(bnk->M,1.0);CHKERRQ(ierr); 684c14b763aSAlp Dener ierr = MatLMVMReset(bnk->M);CHKERRQ(ierr); 685c14b763aSAlp Dener ierr = MatLMVMUpdate(bnk->M, tao->solution, bnk->unprojected_gradient);CHKERRQ(ierr); 686c14b763aSAlp Dener ierr = MatLMVMSolve(bnk->M, bnk->unprojected_gradient, tao->stepdirection);CHKERRQ(ierr); 687c14b763aSAlp Dener 688c14b763aSAlp Dener bfgsUpdates = 1; 689c14b763aSAlp Dener stepType = BNK_GRADIENT; 690c14b763aSAlp Dener break; 691c14b763aSAlp Dener } 6928d5ead36SAlp Dener /* Make sure the safeguarded fall-back step is zero for actively bounded variables */ 6938d5ead36SAlp Dener ierr = VecScale(tao->stepdirection, -1.0);CHKERRQ(ierr); 6942f75a4aaSAlp Dener ierr = TaoBNKBoundStep(tao, tao->stepdirection);CHKERRQ(ierr); 695c14b763aSAlp Dener 6968d5ead36SAlp Dener /* Perform one last line search with the fall-back step */ 697770b7498SAlp Dener *steplen = 1.0; 698c14b763aSAlp Dener ierr = TaoLineSearchApply(tao->linesearch, tao->solution, &bnk->f, bnk->unprojected_gradient, tao->stepdirection, steplen, &ls_reason);CHKERRQ(ierr); 699c14b763aSAlp Dener ierr = VecBoundGradientProjection(bnk->unprojected_gradient,tao->solution,tao->XL,tao->XU,tao->gradient);CHKERRQ(ierr); 700c14b763aSAlp Dener ierr = TaoAddLineSearchCounts(tao);CHKERRQ(ierr); 701c14b763aSAlp Dener } 702c14b763aSAlp Dener *reason = ls_reason; 703c14b763aSAlp Dener PetscFunctionReturn(0); 704c14b763aSAlp Dener } 705c14b763aSAlp Dener 706df278d8fSAlp Dener /*------------------------------------------------------------*/ 707df278d8fSAlp Dener 708df278d8fSAlp Dener /* Routine for updating the trust radius. 709df278d8fSAlp Dener 710df278d8fSAlp Dener Function features three different update methods: 711df278d8fSAlp Dener 1) Line-search step length based 712df278d8fSAlp Dener 2) Predicted decrease on the CG quadratic model 713df278d8fSAlp Dener 3) Interpolation 714df278d8fSAlp Dener */ 715df278d8fSAlp Dener 716b1c2d0e3SAlp Dener PetscErrorCode TaoBNKUpdateTrustRadius(Tao tao, PetscReal prered, PetscReal actred, PetscInt stepType, PetscBool *accept) 717080d2917SAlp Dener { 718080d2917SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 719080d2917SAlp Dener PetscErrorCode ierr; 720080d2917SAlp Dener 721b1c2d0e3SAlp Dener PetscReal step, kappa; 722080d2917SAlp Dener PetscReal gdx, tau_1, tau_2, tau_min, tau_max; 723080d2917SAlp Dener 724080d2917SAlp Dener PetscFunctionBegin; 725080d2917SAlp Dener /* Update trust region radius */ 726080d2917SAlp Dener *accept = PETSC_FALSE; 727080d2917SAlp Dener switch(bnk->update_type) { 728080d2917SAlp Dener case BNK_UPDATE_STEP: 729c14b763aSAlp Dener *accept = PETSC_TRUE; /* always accept here because line search succeeded */ 730080d2917SAlp Dener if (stepType == BNK_NEWTON) { 731080d2917SAlp Dener ierr = TaoLineSearchGetStepLength(tao->linesearch, &step);CHKERRQ(ierr); 732080d2917SAlp Dener if (step < bnk->nu1) { 733080d2917SAlp Dener /* Very bad step taken; reduce radius */ 734080d2917SAlp Dener tao->trust = bnk->omega1 * PetscMin(bnk->dnorm, tao->trust); 735080d2917SAlp Dener } else if (step < bnk->nu2) { 736080d2917SAlp Dener /* Reasonably bad step taken; reduce radius */ 737080d2917SAlp Dener tao->trust = bnk->omega2 * PetscMin(bnk->dnorm, tao->trust); 738080d2917SAlp Dener } else if (step < bnk->nu3) { 739080d2917SAlp Dener /* Reasonable step was taken; leave radius alone */ 740080d2917SAlp Dener if (bnk->omega3 < 1.0) { 741080d2917SAlp Dener tao->trust = bnk->omega3 * PetscMin(bnk->dnorm, tao->trust); 742080d2917SAlp Dener } else if (bnk->omega3 > 1.0) { 743080d2917SAlp Dener tao->trust = PetscMax(bnk->omega3 * bnk->dnorm, tao->trust); 744080d2917SAlp Dener } 745080d2917SAlp Dener } else if (step < bnk->nu4) { 746080d2917SAlp Dener /* Full step taken; increase the radius */ 747080d2917SAlp Dener tao->trust = PetscMax(bnk->omega4 * bnk->dnorm, tao->trust); 748080d2917SAlp Dener } else { 749080d2917SAlp Dener /* More than full step taken; increase the radius */ 750080d2917SAlp Dener tao->trust = PetscMax(bnk->omega5 * bnk->dnorm, tao->trust); 751080d2917SAlp Dener } 752080d2917SAlp Dener } else { 753080d2917SAlp Dener /* Newton step was not good; reduce the radius */ 754080d2917SAlp Dener tao->trust = bnk->omega1 * PetscMin(bnk->dnorm, tao->trust); 755080d2917SAlp Dener } 756080d2917SAlp Dener break; 757080d2917SAlp Dener 758080d2917SAlp Dener case BNK_UPDATE_REDUCTION: 759080d2917SAlp Dener if (stepType == BNK_NEWTON) { 760b1c2d0e3SAlp Dener if (prered < 0.0) { 761fed79b8eSAlp Dener /* The predicted reduction has the wrong sign. This cannot 762fed79b8eSAlp Dener happen in infinite precision arithmetic. Step should 763fed79b8eSAlp Dener be rejected! */ 764080d2917SAlp Dener tao->trust = bnk->alpha1 * PetscMin(tao->trust, bnk->dnorm); 765fed79b8eSAlp Dener } 766fed79b8eSAlp Dener else { 767b1c2d0e3SAlp Dener if (PetscIsInfOrNanReal(actred)) { 768080d2917SAlp Dener tao->trust = bnk->alpha1 * PetscMin(tao->trust, bnk->dnorm); 769080d2917SAlp Dener } else { 7700a4511e9SAlp Dener if ((PetscAbsScalar(actred) <= PetscMax(1.0, PetscAbsScalar(bnk->f))*bnk->epsilon) && 7710a4511e9SAlp Dener (PetscAbsScalar(prered) <= PetscMax(1.0, PetscAbsScalar(bnk->f))*bnk->epsilon)) { 772080d2917SAlp Dener kappa = 1.0; 773fed79b8eSAlp Dener } 774fed79b8eSAlp Dener else { 775080d2917SAlp Dener kappa = actred / prered; 776080d2917SAlp Dener } 777fed79b8eSAlp Dener 778fed79b8eSAlp Dener /* Accept or reject the step and update radius */ 779080d2917SAlp Dener if (kappa < bnk->eta1) { 780fed79b8eSAlp Dener /* Reject the step */ 781080d2917SAlp Dener tao->trust = bnk->alpha1 * PetscMin(tao->trust, bnk->dnorm); 782fed79b8eSAlp Dener } 783fed79b8eSAlp Dener else { 784fed79b8eSAlp Dener /* Accept the step */ 785c133c014SAlp Dener *accept = PETSC_TRUE; 786c133c014SAlp Dener /* Update the trust region radius only if the computed step is at the trust radius boundary */ 7878d5ead36SAlp Dener if (bnk->dnorm == tao->trust) { 788080d2917SAlp Dener if (kappa < bnk->eta2) { 789080d2917SAlp Dener /* Marginal bad step */ 790c133c014SAlp Dener tao->trust = bnk->alpha2 * tao->trust; 791080d2917SAlp Dener } 792fed79b8eSAlp Dener else if (kappa < bnk->eta3) { 793fed79b8eSAlp Dener /* Reasonable step */ 794fed79b8eSAlp Dener tao->trust = bnk->alpha3 * tao->trust; 795fed79b8eSAlp Dener } 796fed79b8eSAlp Dener else if (kappa < bnk->eta4) { 797080d2917SAlp Dener /* Good step */ 798c133c014SAlp Dener tao->trust = bnk->alpha4 * tao->trust; 799fed79b8eSAlp Dener } 800fed79b8eSAlp Dener else { 801080d2917SAlp Dener /* Very good step */ 802c133c014SAlp Dener tao->trust = bnk->alpha5 * tao->trust; 803080d2917SAlp Dener } 804c133c014SAlp Dener } 805080d2917SAlp Dener } 806080d2917SAlp Dener } 807080d2917SAlp Dener } 808080d2917SAlp Dener } else { 809080d2917SAlp Dener /* Newton step was not good; reduce the radius */ 810080d2917SAlp Dener tao->trust = bnk->alpha1 * PetscMin(bnk->dnorm, tao->trust); 811080d2917SAlp Dener } 812080d2917SAlp Dener break; 813080d2917SAlp Dener 814080d2917SAlp Dener default: 815080d2917SAlp Dener if (stepType == BNK_NEWTON) { 816b1c2d0e3SAlp Dener if (prered < 0.0) { 817080d2917SAlp Dener /* The predicted reduction has the wrong sign. This cannot */ 818080d2917SAlp Dener /* happen in infinite precision arithmetic. Step should */ 819080d2917SAlp Dener /* be rejected! */ 820080d2917SAlp Dener tao->trust = bnk->gamma1 * PetscMin(tao->trust, bnk->dnorm); 821080d2917SAlp Dener } else { 822b1c2d0e3SAlp Dener if (PetscIsInfOrNanReal(actred)) { 823080d2917SAlp Dener tao->trust = bnk->gamma1 * PetscMin(tao->trust, bnk->dnorm); 824080d2917SAlp Dener } else { 825080d2917SAlp Dener if ((PetscAbsScalar(actred) <= bnk->epsilon) && (PetscAbsScalar(prered) <= bnk->epsilon)) { 826080d2917SAlp Dener kappa = 1.0; 827080d2917SAlp Dener } else { 828080d2917SAlp Dener kappa = actred / prered; 829080d2917SAlp Dener } 830080d2917SAlp Dener 831080d2917SAlp Dener ierr = VecDot(tao->gradient, tao->stepdirection, &gdx);CHKERRQ(ierr); 832080d2917SAlp Dener tau_1 = bnk->theta * gdx / (bnk->theta * gdx - (1.0 - bnk->theta) * prered + actred); 833080d2917SAlp Dener tau_2 = bnk->theta * gdx / (bnk->theta * gdx + (1.0 + bnk->theta) * prered - actred); 834080d2917SAlp Dener tau_min = PetscMin(tau_1, tau_2); 835080d2917SAlp Dener tau_max = PetscMax(tau_1, tau_2); 836080d2917SAlp Dener 837080d2917SAlp Dener if (kappa >= 1.0 - bnk->mu1) { 838080d2917SAlp Dener /* Great agreement */ 839080d2917SAlp Dener *accept = PETSC_TRUE; 840080d2917SAlp Dener if (tau_max < 1.0) { 841080d2917SAlp Dener tao->trust = PetscMax(tao->trust, bnk->gamma3 * bnk->dnorm); 842080d2917SAlp Dener } else if (tau_max > bnk->gamma4) { 843080d2917SAlp Dener tao->trust = PetscMax(tao->trust, bnk->gamma4 * bnk->dnorm); 844080d2917SAlp Dener } else { 845080d2917SAlp Dener tao->trust = PetscMax(tao->trust, tau_max * bnk->dnorm); 846080d2917SAlp Dener } 847080d2917SAlp Dener } else if (kappa >= 1.0 - bnk->mu2) { 848080d2917SAlp Dener /* Good agreement */ 849080d2917SAlp Dener *accept = PETSC_TRUE; 850080d2917SAlp Dener if (tau_max < bnk->gamma2) { 851080d2917SAlp Dener tao->trust = bnk->gamma2 * PetscMin(tao->trust, bnk->dnorm); 852080d2917SAlp Dener } else if (tau_max > bnk->gamma3) { 853080d2917SAlp Dener tao->trust = PetscMax(tao->trust, bnk->gamma3 * bnk->dnorm); 854080d2917SAlp Dener } else if (tau_max < 1.0) { 855080d2917SAlp Dener tao->trust = tau_max * PetscMin(tao->trust, bnk->dnorm); 856080d2917SAlp Dener } else { 857080d2917SAlp Dener tao->trust = PetscMax(tao->trust, tau_max * bnk->dnorm); 858080d2917SAlp Dener } 859080d2917SAlp Dener } else { 860080d2917SAlp Dener /* Not good agreement */ 861080d2917SAlp Dener if (tau_min > 1.0) { 862080d2917SAlp Dener tao->trust = bnk->gamma2 * PetscMin(tao->trust, bnk->dnorm); 863080d2917SAlp Dener } else if (tau_max < bnk->gamma1) { 864080d2917SAlp Dener tao->trust = bnk->gamma1 * PetscMin(tao->trust, bnk->dnorm); 865080d2917SAlp Dener } else if ((tau_min < bnk->gamma1) && (tau_max >= 1.0)) { 866080d2917SAlp Dener tao->trust = bnk->gamma1 * PetscMin(tao->trust, bnk->dnorm); 867080d2917SAlp Dener } else if ((tau_1 >= bnk->gamma1) && (tau_1 < 1.0) && ((tau_2 < bnk->gamma1) || (tau_2 >= 1.0))) { 868080d2917SAlp Dener tao->trust = tau_1 * PetscMin(tao->trust, bnk->dnorm); 869080d2917SAlp Dener } else if ((tau_2 >= bnk->gamma1) && (tau_2 < 1.0) && ((tau_1 < bnk->gamma1) || (tau_2 >= 1.0))) { 870080d2917SAlp Dener tao->trust = tau_2 * PetscMin(tao->trust, bnk->dnorm); 871080d2917SAlp Dener } else { 872080d2917SAlp Dener tao->trust = tau_max * PetscMin(tao->trust, bnk->dnorm); 873080d2917SAlp Dener } 874080d2917SAlp Dener } 875080d2917SAlp Dener } 876080d2917SAlp Dener } 877080d2917SAlp Dener } else { 878080d2917SAlp Dener /* Newton step was not good; reduce the radius */ 879080d2917SAlp Dener tao->trust = bnk->gamma1 * PetscMin(bnk->dnorm, tao->trust); 880080d2917SAlp Dener } 881080d2917SAlp Dener } 882c133c014SAlp Dener /* Make sure the radius does not violate min and max settings */ 883c133c014SAlp Dener tao->trust = PetscMin(tao->trust, bnk->max_radius); 884fed79b8eSAlp Dener tao->trust = PetscMax(tao->trust, bnk->min_radius); 885080d2917SAlp Dener PetscFunctionReturn(0); 886080d2917SAlp Dener } 887080d2917SAlp Dener 888eb910715SAlp Dener /* ---------------------------------------------------------- */ 889df278d8fSAlp Dener 890eb910715SAlp Dener static PetscErrorCode TaoSetUp_BNK(Tao tao) 891eb910715SAlp Dener { 892eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 893eb910715SAlp Dener PetscErrorCode ierr; 894eb910715SAlp Dener 895eb910715SAlp Dener PetscFunctionBegin; 896eb910715SAlp Dener if (!tao->gradient) {ierr = VecDuplicate(tao->solution,&tao->gradient);CHKERRQ(ierr);} 897eb910715SAlp Dener if (!tao->stepdirection) {ierr = VecDuplicate(tao->solution,&tao->stepdirection);CHKERRQ(ierr);} 898eb910715SAlp Dener if (!bnk->W) {ierr = VecDuplicate(tao->solution,&bnk->W);CHKERRQ(ierr);} 899eb910715SAlp Dener if (!bnk->Xold) {ierr = VecDuplicate(tao->solution,&bnk->Xold);CHKERRQ(ierr);} 900eb910715SAlp Dener if (!bnk->Gold) {ierr = VecDuplicate(tao->solution,&bnk->Gold);CHKERRQ(ierr);} 90109164190SAlp Dener if (!bnk->Xwork) {ierr = VecDuplicate(tao->solution,&bnk->Xwork);CHKERRQ(ierr);} 90209164190SAlp Dener if (!bnk->Gwork) {ierr = VecDuplicate(tao->solution,&bnk->Gwork);CHKERRQ(ierr);} 90309164190SAlp Dener if (!bnk->unprojected_gradient) {ierr = VecDuplicate(tao->solution,&bnk->unprojected_gradient);CHKERRQ(ierr);} 90409164190SAlp Dener if (!bnk->unprojected_gradient_old) {ierr = VecDuplicate(tao->solution,&bnk->unprojected_gradient_old);CHKERRQ(ierr);} 905eb910715SAlp Dener bnk->Diag = 0; 906eb910715SAlp Dener bnk->M = 0; 90709164190SAlp Dener bnk->H_inactive = 0; 90809164190SAlp Dener bnk->Hpre_inactive = 0; 909eb910715SAlp Dener PetscFunctionReturn(0); 910eb910715SAlp Dener } 911eb910715SAlp Dener 912eb910715SAlp Dener /*------------------------------------------------------------*/ 913df278d8fSAlp Dener 914eb910715SAlp Dener static PetscErrorCode TaoDestroy_BNK(Tao tao) 915eb910715SAlp Dener { 916eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 917eb910715SAlp Dener PetscErrorCode ierr; 918eb910715SAlp Dener 919eb910715SAlp Dener PetscFunctionBegin; 920eb910715SAlp Dener if (tao->setupcalled) { 921eb910715SAlp Dener ierr = VecDestroy(&bnk->W);CHKERRQ(ierr); 922eb910715SAlp Dener ierr = VecDestroy(&bnk->Xold);CHKERRQ(ierr); 923eb910715SAlp Dener ierr = VecDestroy(&bnk->Gold);CHKERRQ(ierr); 92409164190SAlp Dener ierr = VecDestroy(&bnk->Xwork);CHKERRQ(ierr); 92509164190SAlp Dener ierr = VecDestroy(&bnk->Gwork);CHKERRQ(ierr); 92609164190SAlp Dener ierr = VecDestroy(&bnk->unprojected_gradient);CHKERRQ(ierr); 92709164190SAlp Dener ierr = VecDestroy(&bnk->unprojected_gradient_old);CHKERRQ(ierr); 928eb910715SAlp Dener } 929eb910715SAlp Dener ierr = VecDestroy(&bnk->Diag);CHKERRQ(ierr); 930eb910715SAlp Dener ierr = MatDestroy(&bnk->M);CHKERRQ(ierr); 931eb910715SAlp Dener ierr = PetscFree(tao->data);CHKERRQ(ierr); 932eb910715SAlp Dener PetscFunctionReturn(0); 933eb910715SAlp Dener } 934eb910715SAlp Dener 935eb910715SAlp Dener /*------------------------------------------------------------*/ 936df278d8fSAlp Dener 937eb910715SAlp Dener static PetscErrorCode TaoSetFromOptions_BNK(PetscOptionItems *PetscOptionsObject,Tao tao) 938eb910715SAlp Dener { 939eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 940eb910715SAlp Dener PetscErrorCode ierr; 941eb910715SAlp Dener 942eb910715SAlp Dener PetscFunctionBegin; 943eb910715SAlp Dener ierr = PetscOptionsHead(PetscOptionsObject,"Newton line search method for unconstrained optimization");CHKERRQ(ierr); 9448d5ead36SAlp Dener ierr = PetscOptionsEList("-tao_bnk_pc_type", "pc type", "", BNK_PC, BNK_PC_TYPES, BNK_PC[bnk->pc_type], &bnk->pc_type, 0);CHKERRQ(ierr); 9458d5ead36SAlp Dener ierr = PetscOptionsEList("-tao_bnk_bfgs_scale_type", "bfgs scale type", "", BFGS_SCALE, BFGS_SCALE_TYPES, BFGS_SCALE[bnk->bfgs_scale_type], &bnk->bfgs_scale_type, 0);CHKERRQ(ierr); 9468d5ead36SAlp Dener ierr = PetscOptionsEList("-tao_bnk_init_type", "radius initialization type", "", BNK_INIT, BNK_INIT_TYPES, BNK_INIT[bnk->init_type], &bnk->init_type, 0);CHKERRQ(ierr); 9478d5ead36SAlp Dener ierr = PetscOptionsEList("-tao_bnk_update_type", "radius update type", "", BNK_UPDATE, BNK_UPDATE_TYPES, BNK_UPDATE[bnk->update_type], &bnk->update_type, 0);CHKERRQ(ierr); 9482f75a4aaSAlp Dener ierr = PetscOptionsEList("-tao_bnk_as_type", "active set estimation method", "", BNK_AS, BNK_AS_TYPES, BNK_AS[bnk->as_type], &bnk->as_type, 0);CHKERRQ(ierr); 9498d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_sval", "perturbation starting value", "", bnk->sval, &bnk->sval,NULL);CHKERRQ(ierr); 9508d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_imin", "minimum initial perturbation", "", bnk->imin, &bnk->imin,NULL);CHKERRQ(ierr); 9518d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_imax", "maximum initial perturbation", "", bnk->imax, &bnk->imax,NULL);CHKERRQ(ierr); 9528d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_imfac", "initial merit factor", "", bnk->imfac, &bnk->imfac,NULL);CHKERRQ(ierr); 9538d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_pmin", "minimum perturbation", "", bnk->pmin, &bnk->pmin,NULL);CHKERRQ(ierr); 9548d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_pmax", "maximum perturbation", "", bnk->pmax, &bnk->pmax,NULL);CHKERRQ(ierr); 9558d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_pgfac", "growth factor", "", bnk->pgfac, &bnk->pgfac,NULL);CHKERRQ(ierr); 9568d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_psfac", "shrink factor", "", bnk->psfac, &bnk->psfac,NULL);CHKERRQ(ierr); 9578d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_pmgfac", "merit growth factor", "", bnk->pmgfac, &bnk->pmgfac,NULL);CHKERRQ(ierr); 9588d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_pmsfac", "merit shrink factor", "", bnk->pmsfac, &bnk->pmsfac,NULL);CHKERRQ(ierr); 9598d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_eta1", "poor steplength; reduce radius", "", bnk->eta1, &bnk->eta1,NULL);CHKERRQ(ierr); 9608d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_eta2", "reasonable steplength; leave radius alone", "", bnk->eta2, &bnk->eta2,NULL);CHKERRQ(ierr); 9618d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_eta3", "good steplength; increase radius", "", bnk->eta3, &bnk->eta3,NULL);CHKERRQ(ierr); 9628d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_eta4", "excellent steplength; greatly increase radius", "", bnk->eta4, &bnk->eta4,NULL);CHKERRQ(ierr); 9638d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_alpha1", "", "", bnk->alpha1, &bnk->alpha1,NULL);CHKERRQ(ierr); 9648d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_alpha2", "", "", bnk->alpha2, &bnk->alpha2,NULL);CHKERRQ(ierr); 9658d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_alpha3", "", "", bnk->alpha3, &bnk->alpha3,NULL);CHKERRQ(ierr); 9668d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_alpha4", "", "", bnk->alpha4, &bnk->alpha4,NULL);CHKERRQ(ierr); 9678d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_alpha5", "", "", bnk->alpha5, &bnk->alpha5,NULL);CHKERRQ(ierr); 9688d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_nu1", "poor steplength; reduce radius", "", bnk->nu1, &bnk->nu1,NULL);CHKERRQ(ierr); 9698d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_nu2", "reasonable steplength; leave radius alone", "", bnk->nu2, &bnk->nu2,NULL);CHKERRQ(ierr); 9708d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_nu3", "good steplength; increase radius", "", bnk->nu3, &bnk->nu3,NULL);CHKERRQ(ierr); 9718d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_nu4", "excellent steplength; greatly increase radius", "", bnk->nu4, &bnk->nu4,NULL);CHKERRQ(ierr); 9728d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_omega1", "", "", bnk->omega1, &bnk->omega1,NULL);CHKERRQ(ierr); 9738d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_omega2", "", "", bnk->omega2, &bnk->omega2,NULL);CHKERRQ(ierr); 9748d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_omega3", "", "", bnk->omega3, &bnk->omega3,NULL);CHKERRQ(ierr); 9758d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_omega4", "", "", bnk->omega4, &bnk->omega4,NULL);CHKERRQ(ierr); 9768d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_omega5", "", "", bnk->omega5, &bnk->omega5,NULL);CHKERRQ(ierr); 9778d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_mu1_i", "", "", bnk->mu1_i, &bnk->mu1_i,NULL);CHKERRQ(ierr); 9788d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_mu2_i", "", "", bnk->mu2_i, &bnk->mu2_i,NULL);CHKERRQ(ierr); 9798d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma1_i", "", "", bnk->gamma1_i, &bnk->gamma1_i,NULL);CHKERRQ(ierr); 9808d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma2_i", "", "", bnk->gamma2_i, &bnk->gamma2_i,NULL);CHKERRQ(ierr); 9818d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma3_i", "", "", bnk->gamma3_i, &bnk->gamma3_i,NULL);CHKERRQ(ierr); 9828d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma4_i", "", "", bnk->gamma4_i, &bnk->gamma4_i,NULL);CHKERRQ(ierr); 9838d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_theta_i", "", "", bnk->theta_i, &bnk->theta_i,NULL);CHKERRQ(ierr); 9848d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_mu1", "", "", bnk->mu1, &bnk->mu1,NULL);CHKERRQ(ierr); 9858d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_mu2", "", "", bnk->mu2, &bnk->mu2,NULL);CHKERRQ(ierr); 9868d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma1", "", "", bnk->gamma1, &bnk->gamma1,NULL);CHKERRQ(ierr); 9878d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma2", "", "", bnk->gamma2, &bnk->gamma2,NULL);CHKERRQ(ierr); 9888d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma3", "", "", bnk->gamma3, &bnk->gamma3,NULL);CHKERRQ(ierr); 9898d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_gamma4", "", "", bnk->gamma4, &bnk->gamma4,NULL);CHKERRQ(ierr); 9908d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_theta", "", "", bnk->theta, &bnk->theta,NULL);CHKERRQ(ierr); 9918d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_min_radius", "lower bound on initial radius", "", bnk->min_radius, &bnk->min_radius,NULL);CHKERRQ(ierr); 9928d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_max_radius", "upper bound on radius", "", bnk->max_radius, &bnk->max_radius,NULL);CHKERRQ(ierr); 9938d5ead36SAlp Dener ierr = PetscOptionsReal("-tao_bnk_epsilon", "tolerance used when computing actual and predicted reduction", "", bnk->epsilon, &bnk->epsilon,NULL);CHKERRQ(ierr); 9940a4511e9SAlp Dener ierr = PetscOptionsReal("-tao_bnk_as_tol", "initial tolerance used when estimating actively bounded variables", "", bnk->as_tol, &bnk->as_tol,NULL);CHKERRQ(ierr); 9950a4511e9SAlp Dener ierr = PetscOptionsReal("-tao_bnk_as_step", "step length used when estimating actively bounded variables", "", bnk->as_step, &bnk->as_step,NULL);CHKERRQ(ierr); 996eb910715SAlp Dener ierr = PetscOptionsTail();CHKERRQ(ierr); 997eb910715SAlp Dener ierr = TaoLineSearchSetFromOptions(tao->linesearch);CHKERRQ(ierr); 998eb910715SAlp Dener ierr = KSPSetFromOptions(tao->ksp);CHKERRQ(ierr); 999eb910715SAlp Dener PetscFunctionReturn(0); 1000eb910715SAlp Dener } 1001eb910715SAlp Dener 1002eb910715SAlp Dener /*------------------------------------------------------------*/ 1003df278d8fSAlp Dener 1004eb910715SAlp Dener static PetscErrorCode TaoView_BNK(Tao tao, PetscViewer viewer) 1005eb910715SAlp Dener { 1006eb910715SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 1007eb910715SAlp Dener PetscInt nrejects; 1008eb910715SAlp Dener PetscBool isascii; 1009eb910715SAlp Dener PetscErrorCode ierr; 1010eb910715SAlp Dener 1011eb910715SAlp Dener PetscFunctionBegin; 1012eb910715SAlp Dener ierr = PetscObjectTypeCompare((PetscObject)viewer,PETSCVIEWERASCII,&isascii);CHKERRQ(ierr); 1013eb910715SAlp Dener if (isascii) { 1014eb910715SAlp Dener ierr = PetscViewerASCIIPushTab(viewer);CHKERRQ(ierr); 1015eb910715SAlp Dener if (BNK_PC_BFGS == bnk->pc_type && bnk->M) { 1016eb910715SAlp Dener ierr = MatLMVMGetRejects(bnk->M,&nrejects);CHKERRQ(ierr); 1017eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "Rejected matrix updates: %D\n",nrejects);CHKERRQ(ierr); 1018eb910715SAlp Dener } 1019eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "Newton steps: %D\n", bnk->newt);CHKERRQ(ierr); 1020eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "BFGS steps: %D\n", bnk->bfgs);CHKERRQ(ierr); 1021eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "Scaled gradient steps: %D\n", bnk->sgrad);CHKERRQ(ierr); 1022eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "Gradient steps: %D\n", bnk->grad);CHKERRQ(ierr); 1023eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, "KSP termination reasons:\n");CHKERRQ(ierr); 1024eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " atol: %D\n", bnk->ksp_atol);CHKERRQ(ierr); 1025eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " rtol: %D\n", bnk->ksp_rtol);CHKERRQ(ierr); 1026eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " ctol: %D\n", bnk->ksp_ctol);CHKERRQ(ierr); 1027eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " negc: %D\n", bnk->ksp_negc);CHKERRQ(ierr); 1028eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " dtol: %D\n", bnk->ksp_dtol);CHKERRQ(ierr); 1029eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " iter: %D\n", bnk->ksp_iter);CHKERRQ(ierr); 1030eb910715SAlp Dener ierr = PetscViewerASCIIPrintf(viewer, " othr: %D\n", bnk->ksp_othr);CHKERRQ(ierr); 1031eb910715SAlp Dener ierr = PetscViewerASCIIPopTab(viewer);CHKERRQ(ierr); 1032eb910715SAlp Dener } 1033eb910715SAlp Dener PetscFunctionReturn(0); 1034eb910715SAlp Dener } 1035eb910715SAlp Dener 1036eb910715SAlp Dener /* ---------------------------------------------------------- */ 1037df278d8fSAlp Dener 1038eb910715SAlp Dener /*MC 1039eb910715SAlp Dener TAOBNK - Shared base-type for Bounded Newton-Krylov type algorithms. 104066ed3702SAlp Dener At each iteration, the BNK methods solve the symmetric 1041eb910715SAlp Dener system of equations to obtain the step diretion dk: 1042eb910715SAlp Dener Hk dk = -gk 10432b97c8d8SAlp Dener for free variables only. The step can be globalized either through 10442b97c8d8SAlp Dener trust-region methods, or a line search, or a heuristic mixture of both. 1045eb910715SAlp Dener 1046eb910715SAlp Dener Options Database Keys: 10478d5ead36SAlp Dener + -tao_bnk_pc_type - "none","ahess","bfgs","petsc" 10488d5ead36SAlp Dener . -tao_bnk_bfgs_scale_type - "ahess","phess","bfgs" 10498d5ead36SAlp Dener . -tao_bnk_init_type - "constant","direction","interpolation" 10508d5ead36SAlp Dener . -tao_bnk_update_type - "step","direction","interpolation" 10512f75a4aaSAlp Dener . -tao_bnk_as_type - "none","bertsekas" 10528d5ead36SAlp Dener . -tao_bnk_sval - perturbation starting value 10538d5ead36SAlp Dener . -tao_bnk_imin - minimum initial perturbation 10548d5ead36SAlp Dener . -tao_bnk_imax - maximum initial perturbation 10558d5ead36SAlp Dener . -tao_bnk_pmin - minimum perturbation 10568d5ead36SAlp Dener . -tao_bnk_pmax - maximum perturbation 10578d5ead36SAlp Dener . -tao_bnk_pgfac - growth factor 10588d5ead36SAlp Dener . -tao_bnk_psfac - shrink factor 10598d5ead36SAlp Dener . -tao_bnk_imfac - initial merit factor 10608d5ead36SAlp Dener . -tao_bnk_pmgfac - merit growth factor 10618d5ead36SAlp Dener . -tao_bnk_pmsfac - merit shrink factor 10628d5ead36SAlp Dener . -tao_bnk_eta1 - poor steplength; reduce radius 10638d5ead36SAlp Dener . -tao_bnk_eta2 - reasonable steplength; leave radius 10648d5ead36SAlp Dener . -tao_bnk_eta3 - good steplength; increase readius 10658d5ead36SAlp Dener . -tao_bnk_eta4 - excellent steplength; greatly increase radius 10668d5ead36SAlp Dener . -tao_bnk_alpha1 - alpha1 reduction 10678d5ead36SAlp Dener . -tao_bnk_alpha2 - alpha2 reduction 10688d5ead36SAlp Dener . -tao_bnk_alpha3 - alpha3 reduction 10698d5ead36SAlp Dener . -tao_bnk_alpha4 - alpha4 reduction 10708d5ead36SAlp Dener . -tao_bnk_alpha - alpha5 reduction 10718d5ead36SAlp Dener . -tao_bnk_mu1 - mu1 interpolation update 10728d5ead36SAlp Dener . -tao_bnk_mu2 - mu2 interpolation update 10738d5ead36SAlp Dener . -tao_bnk_gamma1 - gamma1 interpolation update 10748d5ead36SAlp Dener . -tao_bnk_gamma2 - gamma2 interpolation update 10758d5ead36SAlp Dener . -tao_bnk_gamma3 - gamma3 interpolation update 10768d5ead36SAlp Dener . -tao_bnk_gamma4 - gamma4 interpolation update 10778d5ead36SAlp Dener . -tao_bnk_theta - theta interpolation update 10788d5ead36SAlp Dener . -tao_bnk_omega1 - omega1 step update 10798d5ead36SAlp Dener . -tao_bnk_omega2 - omega2 step update 10808d5ead36SAlp Dener . -tao_bnk_omega3 - omega3 step update 10818d5ead36SAlp Dener . -tao_bnk_omega4 - omega4 step update 10828d5ead36SAlp Dener . -tao_bnk_omega5 - omega5 step update 10838d5ead36SAlp Dener . -tao_bnk_mu1_i - mu1 interpolation init factor 10848d5ead36SAlp Dener . -tao_bnk_mu2_i - mu2 interpolation init factor 10858d5ead36SAlp Dener . -tao_bnk_gamma1_i - gamma1 interpolation init factor 10868d5ead36SAlp Dener . -tao_bnk_gamma2_i - gamma2 interpolation init factor 10878d5ead36SAlp Dener . -tao_bnk_gamma3_i - gamma3 interpolation init factor 10888d5ead36SAlp Dener . -tao_bnk_gamma4_i - gamma4 interpolation init factor 10892f75a4aaSAlp Dener . -tao_bnk_theta_i - theta interpolation init factor 10902f75a4aaSAlp Dener - -tao_bnk_bound_tol - initial tolerance used in estimating bounded active variables 1091eb910715SAlp Dener 1092eb910715SAlp Dener Level: beginner 1093eb910715SAlp Dener M*/ 1094eb910715SAlp Dener 1095eb910715SAlp Dener PetscErrorCode TaoCreate_BNK(Tao tao) 1096eb910715SAlp Dener { 1097eb910715SAlp Dener TAO_BNK *bnk; 1098eb910715SAlp Dener const char *morethuente_type = TAOLINESEARCHMT; 1099eb910715SAlp Dener PetscErrorCode ierr; 1100eb910715SAlp Dener 1101eb910715SAlp Dener PetscFunctionBegin; 1102eb910715SAlp Dener ierr = PetscNewLog(tao,&bnk);CHKERRQ(ierr); 1103eb910715SAlp Dener 1104eb910715SAlp Dener tao->ops->setup = TaoSetUp_BNK; 1105eb910715SAlp Dener tao->ops->view = TaoView_BNK; 1106eb910715SAlp Dener tao->ops->setfromoptions = TaoSetFromOptions_BNK; 1107eb910715SAlp Dener tao->ops->destroy = TaoDestroy_BNK; 1108eb910715SAlp Dener 1109eb910715SAlp Dener /* Override default settings (unless already changed) */ 1110eb910715SAlp Dener if (!tao->max_it_changed) tao->max_it = 50; 1111eb910715SAlp Dener if (!tao->trust0_changed) tao->trust0 = 100.0; 1112eb910715SAlp Dener 1113eb910715SAlp Dener tao->data = (void*)bnk; 1114eb910715SAlp Dener 111566ed3702SAlp Dener /* Hessian shifting parameters */ 1116eb910715SAlp Dener bnk->sval = 0.0; 1117eb910715SAlp Dener bnk->imin = 1.0e-4; 1118eb910715SAlp Dener bnk->imax = 1.0e+2; 1119eb910715SAlp Dener bnk->imfac = 1.0e-1; 1120eb910715SAlp Dener 1121eb910715SAlp Dener bnk->pmin = 1.0e-12; 1122eb910715SAlp Dener bnk->pmax = 1.0e+2; 1123eb910715SAlp Dener bnk->pgfac = 1.0e+1; 1124eb910715SAlp Dener bnk->psfac = 4.0e-1; 1125eb910715SAlp Dener bnk->pmgfac = 1.0e-1; 1126eb910715SAlp Dener bnk->pmsfac = 1.0e-1; 1127eb910715SAlp Dener 1128eb910715SAlp Dener /* Default values for trust-region radius update based on steplength */ 1129eb910715SAlp Dener bnk->nu1 = 0.25; 1130eb910715SAlp Dener bnk->nu2 = 0.50; 1131eb910715SAlp Dener bnk->nu3 = 1.00; 1132eb910715SAlp Dener bnk->nu4 = 1.25; 1133eb910715SAlp Dener 1134eb910715SAlp Dener bnk->omega1 = 0.25; 1135eb910715SAlp Dener bnk->omega2 = 0.50; 1136eb910715SAlp Dener bnk->omega3 = 1.00; 1137eb910715SAlp Dener bnk->omega4 = 2.00; 1138eb910715SAlp Dener bnk->omega5 = 4.00; 1139eb910715SAlp Dener 1140eb910715SAlp Dener /* Default values for trust-region radius update based on reduction */ 1141eb910715SAlp Dener bnk->eta1 = 1.0e-4; 1142eb910715SAlp Dener bnk->eta2 = 0.25; 1143eb910715SAlp Dener bnk->eta3 = 0.50; 1144eb910715SAlp Dener bnk->eta4 = 0.90; 1145eb910715SAlp Dener 1146eb910715SAlp Dener bnk->alpha1 = 0.25; 1147eb910715SAlp Dener bnk->alpha2 = 0.50; 1148eb910715SAlp Dener bnk->alpha3 = 1.00; 1149eb910715SAlp Dener bnk->alpha4 = 2.00; 1150eb910715SAlp Dener bnk->alpha5 = 4.00; 1151eb910715SAlp Dener 1152eb910715SAlp Dener /* Default values for trust-region radius update based on interpolation */ 1153eb910715SAlp Dener bnk->mu1 = 0.10; 1154eb910715SAlp Dener bnk->mu2 = 0.50; 1155eb910715SAlp Dener 1156eb910715SAlp Dener bnk->gamma1 = 0.25; 1157eb910715SAlp Dener bnk->gamma2 = 0.50; 1158eb910715SAlp Dener bnk->gamma3 = 2.00; 1159eb910715SAlp Dener bnk->gamma4 = 4.00; 1160eb910715SAlp Dener 1161eb910715SAlp Dener bnk->theta = 0.05; 1162eb910715SAlp Dener 1163eb910715SAlp Dener /* Default values for trust region initialization based on interpolation */ 1164eb910715SAlp Dener bnk->mu1_i = 0.35; 1165eb910715SAlp Dener bnk->mu2_i = 0.50; 1166eb910715SAlp Dener 1167eb910715SAlp Dener bnk->gamma1_i = 0.0625; 1168eb910715SAlp Dener bnk->gamma2_i = 0.5; 1169eb910715SAlp Dener bnk->gamma3_i = 2.0; 1170eb910715SAlp Dener bnk->gamma4_i = 5.0; 1171eb910715SAlp Dener 1172eb910715SAlp Dener bnk->theta_i = 0.25; 1173eb910715SAlp Dener 1174eb910715SAlp Dener /* Remaining parameters */ 1175eb910715SAlp Dener bnk->min_radius = 1.0e-10; 1176eb910715SAlp Dener bnk->max_radius = 1.0e10; 1177770b7498SAlp Dener bnk->epsilon = PetscPowReal(PETSC_MACHINE_EPSILON, 2.0/3.0); 11780a4511e9SAlp Dener bnk->as_tol = 1.0e-3; 11790a4511e9SAlp Dener bnk->as_step = 1.0e-3; 1180eb910715SAlp Dener 1181eb910715SAlp Dener bnk->pc_type = BNK_PC_BFGS; 1182eb910715SAlp Dener bnk->bfgs_scale_type = BFGS_SCALE_PHESS; 1183eb910715SAlp Dener bnk->init_type = BNK_INIT_INTERPOLATION; 1184fed79b8eSAlp Dener bnk->update_type = BNK_UPDATE_INTERPOLATION; 11852f75a4aaSAlp Dener bnk->as_type = BNK_AS_BERTSEKAS; 1186eb910715SAlp Dener 1187eb910715SAlp Dener ierr = TaoLineSearchCreate(((PetscObject)tao)->comm,&tao->linesearch);CHKERRQ(ierr); 1188eb910715SAlp Dener ierr = PetscObjectIncrementTabLevel((PetscObject)tao->linesearch, (PetscObject)tao, 1);CHKERRQ(ierr); 1189eb910715SAlp Dener ierr = TaoLineSearchSetType(tao->linesearch,morethuente_type);CHKERRQ(ierr); 1190eb910715SAlp Dener ierr = TaoLineSearchUseTaoRoutines(tao->linesearch,tao);CHKERRQ(ierr); 1191eb910715SAlp Dener ierr = TaoLineSearchSetOptionsPrefix(tao->linesearch,tao->hdr.prefix);CHKERRQ(ierr); 1192eb910715SAlp Dener 1193eb910715SAlp Dener /* Set linear solver to default for symmetric matrices */ 1194eb910715SAlp Dener ierr = KSPCreate(((PetscObject)tao)->comm,&tao->ksp);CHKERRQ(ierr); 1195eb910715SAlp Dener ierr = PetscObjectIncrementTabLevel((PetscObject)tao->ksp, (PetscObject)tao, 1);CHKERRQ(ierr); 1196eb910715SAlp Dener ierr = KSPSetOptionsPrefix(tao->ksp,tao->hdr.prefix);CHKERRQ(ierr); 1197eb910715SAlp Dener ierr = KSPSetType(tao->ksp,KSPCGSTCG);CHKERRQ(ierr); 1198eb910715SAlp Dener PetscFunctionReturn(0); 1199eb910715SAlp Dener } 1200