1fed79b8eSAlp Dener #include <../src/tao/bound/impls/bnk/bnk.h> 2fed79b8eSAlp Dener #include <petscksp.h> 3fed79b8eSAlp Dener 4fed79b8eSAlp Dener /* 5fed79b8eSAlp Dener Implements Newton's Method with a trust region approach for solving 6fed79b8eSAlp Dener bound constrained minimization problems. 7fed79b8eSAlp Dener 8198282dbSAlp Dener ------------------------------------------------------------ 9198282dbSAlp Dener 10198282dbSAlp Dener x_0 = VecMedian(x_0) 11198282dbSAlp Dener f_0, g_0= TaoComputeObjectiveAndGradient(x_0) 12c4b75bccSAlp Dener pg_0 = project(g_0) 13198282dbSAlp Dener check convergence at pg_0 14c4b75bccSAlp Dener needH = TaoBNKInitialize(default:BNK_INIT_INTERPOLATION) 15198282dbSAlp Dener niter = 0 16c4b75bccSAlp Dener step_accepted = false 17198282dbSAlp Dener 18198282dbSAlp Dener while niter <= max_it 19198282dbSAlp Dener niter += 1 20c4b75bccSAlp Dener 21c4b75bccSAlp Dener if needH 22c4b75bccSAlp Dener If max_cg_steps > 0 23c4b75bccSAlp Dener x_k, g_k, pg_k = TaoSolve(BNCG) 24c4b75bccSAlp Dener end 25c4b75bccSAlp Dener 26198282dbSAlp Dener H_k = TaoComputeHessian(x_k) 27198282dbSAlp Dener if pc_type == BNK_PC_BFGS 28198282dbSAlp Dener add correction to BFGS approx 29198282dbSAlp Dener if scale_type == BNK_SCALE_AHESS 30198282dbSAlp Dener D = VecMedian(1e-6, abs(diag(H_k)), 1e6) 31198282dbSAlp Dener scale BFGS with VecReciprocal(D) 32198282dbSAlp Dener end 33198282dbSAlp Dener end 34c4b75bccSAlp Dener needH = False 35198282dbSAlp Dener end 36198282dbSAlp Dener 37198282dbSAlp Dener if pc_type = BNK_PC_BFGS 38198282dbSAlp Dener B_k = BFGS 39198282dbSAlp Dener else 40198282dbSAlp Dener B_k = VecMedian(1e-6, abs(diag(H_k)), 1e6) 41198282dbSAlp Dener B_k = VecReciprocal(B_k) 42198282dbSAlp Dener end 43198282dbSAlp Dener w = x_k - VecMedian(x_k - 0.001*B_k*g_k) 44198282dbSAlp Dener eps = min(eps, norm2(w)) 45198282dbSAlp Dener determine the active and inactive index sets such that 46198282dbSAlp Dener L = {i : (x_k)_i <= l_i + eps && (g_k)_i > 0} 47198282dbSAlp Dener U = {i : (x_k)_i >= u_i - eps && (g_k)_i < 0} 48198282dbSAlp Dener F = {i : l_i = (x_k)_i = u_i} 49198282dbSAlp Dener A = {L + U + F} 50c4b75bccSAlp Dener IA = {i : i not in A} 51198282dbSAlp Dener 52c4b75bccSAlp Dener generate the reduced system Hr_k dr_k = -gr_k for variables in IA 53198282dbSAlp Dener if pc_type == BNK_PC_BFGS && scale_type == BNK_SCALE_PHESS 54198282dbSAlp Dener D = VecMedian(1e-6, abs(diag(Hr_k)), 1e6) 55198282dbSAlp Dener scale BFGS with VecReciprocal(D) 56198282dbSAlp Dener end 57c4b75bccSAlp Dener 58c4b75bccSAlp Dener while !stepAccepted 59198282dbSAlp Dener solve Hr_k dr_k = -gr_k 60198282dbSAlp Dener set d_k to (l - x) for variables in L, (u - x) for variables in U, and 0 for variables in F 61198282dbSAlp Dener 62198282dbSAlp Dener x_{k+1} = VecMedian(x_k + d_k) 63198282dbSAlp Dener s = x_{k+1} - x_k 64198282dbSAlp Dener prered = dot(s, 0.5*gr_k - Hr_k*s) 65198282dbSAlp Dener f_{k+1} = TaoComputeObjective(x_{k+1}) 66198282dbSAlp Dener actred = f_k - f_{k+1} 67198282dbSAlp Dener 68198282dbSAlp Dener oldTrust = trust 69198282dbSAlp Dener step_accepted, trust = TaoBNKUpdateTrustRadius(default: BNK_UPDATE_REDUCTION) 70198282dbSAlp Dener if step_accepted 71198282dbSAlp Dener g_{k+1} = TaoComputeGradient(x_{k+1}) 72c4b75bccSAlp Dener pg_{k+1} = project(g_{k+1}) 73198282dbSAlp Dener count the accepted Newton step 74c4b75bccSAlp Dener needH = True 75198282dbSAlp Dener else 76198282dbSAlp Dener f_{k+1} = f_k 77198282dbSAlp Dener x_{k+1} = x_k 78198282dbSAlp Dener g_{k+1} = g_k 79198282dbSAlp Dener pg_{k+1} = pg_k 80198282dbSAlp Dener if trust == oldTrust 81198282dbSAlp Dener terminate because we cannot shrink the radius any further 82198282dbSAlp Dener end 83198282dbSAlp Dener end 84198282dbSAlp Dener 85198282dbSAlp Dener check convergence at pg_{k+1} 86198282dbSAlp Dener end 87c4b75bccSAlp Dener 88c4b75bccSAlp Dener end 89fed79b8eSAlp Dener */ 90fed79b8eSAlp Dener 91e0ed867bSAlp Dener PetscErrorCode TaoSolve_BNTR(Tao tao) 92fed79b8eSAlp Dener { 93fed79b8eSAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 94e465cd6fSAlp Dener KSPConvergedReason ksp_reason; 95fed79b8eSAlp Dener 9689da521bSAlp Dener PetscReal oldTrust, prered, actred, steplen, resnorm; 97937a31a1SAlp Dener PetscBool cgTerminate, needH = PETSC_TRUE, stepAccepted, shift = PETSC_FALSE; 986b591159SAlp Dener PetscInt stepType, nDiff; 99fed79b8eSAlp Dener 100fed79b8eSAlp Dener PetscFunctionBegin; 10128017e9fSAlp Dener /* Initialize the preconditioner, KSP solver and trust radius/line search */ 102fed79b8eSAlp Dener tao->reason = TAO_CONTINUE_ITERATING; 103*9566063dSJacob Faibussowitsch PetscCall(TaoBNKInitialize(tao, bnk->init_type, &needH)); 10428017e9fSAlp Dener if (tao->reason != TAO_CONTINUE_ITERATING) PetscFunctionReturn(0); 105fed79b8eSAlp Dener 106fed79b8eSAlp Dener /* Have not converged; continue with Newton method */ 107fed79b8eSAlp Dener while (tao->reason == TAO_CONTINUE_ITERATING) { 108e1e80dc8SAlp Dener /* Call general purpose update function */ 109e1e80dc8SAlp Dener if (tao->ops->update) { 110*9566063dSJacob Faibussowitsch PetscCall((*tao->ops->update)(tao, tao->niter, tao->user_update)); 111e1e80dc8SAlp Dener } 112c4b75bccSAlp Dener ++tao->niter; 113e031d6f5SAlp Dener 11489da521bSAlp Dener if (needH && bnk->inactive_idx) { 115e031d6f5SAlp Dener /* Take BNCG steps (if enabled) to trade-off Hessian evaluations for more gradient evaluations */ 116*9566063dSJacob Faibussowitsch PetscCall(TaoBNKTakeCGSteps(tao, &cgTerminate)); 117e031d6f5SAlp Dener if (cgTerminate) { 118e031d6f5SAlp Dener tao->reason = bnk->bncg->reason; 119e031d6f5SAlp Dener PetscFunctionReturn(0); 120fed79b8eSAlp Dener } 121937a31a1SAlp Dener /* Compute the hessian and update the BFGS preconditioner at the new iterate */ 122*9566063dSJacob Faibussowitsch PetscCall((*bnk->computehessian)(tao)); 123937a31a1SAlp Dener needH = PETSC_FALSE; 124937a31a1SAlp Dener } 125fed79b8eSAlp Dener 126fed79b8eSAlp Dener /* Store current solution before it changes */ 127fed79b8eSAlp Dener bnk->fold = bnk->f; 128*9566063dSJacob Faibussowitsch PetscCall(VecCopy(tao->solution, bnk->Xold)); 129*9566063dSJacob Faibussowitsch PetscCall(VecCopy(tao->gradient, bnk->Gold)); 130*9566063dSJacob Faibussowitsch PetscCall(VecCopy(bnk->unprojected_gradient, bnk->unprojected_gradient_old)); 131fed79b8eSAlp Dener 132937a31a1SAlp Dener /* Enter into trust region loops */ 133937a31a1SAlp Dener stepAccepted = PETSC_FALSE; 134937a31a1SAlp Dener while (!stepAccepted && tao->reason == TAO_CONTINUE_ITERATING) { 135937a31a1SAlp Dener tao->ksp_its=0; 136937a31a1SAlp Dener 137937a31a1SAlp Dener /* Use the common BNK kernel to compute the Newton step (for inactive variables only) */ 138*9566063dSJacob Faibussowitsch PetscCall((*bnk->computestep)(tao, shift, &ksp_reason, &stepType)); 139937a31a1SAlp Dener 140b1c2d0e3SAlp Dener /* Temporarily accept the step and project it into the bounds */ 141*9566063dSJacob Faibussowitsch PetscCall(VecAXPY(tao->solution, 1.0, tao->stepdirection)); 142*9566063dSJacob Faibussowitsch PetscCall(TaoBoundSolution(tao->solution, tao->XL,tao->XU, 0.0, &nDiff, tao->solution)); 143b1c2d0e3SAlp Dener 144b1c2d0e3SAlp Dener /* Check if the projection changed the step direction */ 145c4b75bccSAlp Dener if (nDiff > 0) { 146c4b75bccSAlp Dener /* Projection changed the step, so we have to recompute the step and 147c4b75bccSAlp Dener the predicted reduction. Leave the trust radius unchanged. */ 148*9566063dSJacob Faibussowitsch PetscCall(VecCopy(tao->solution, tao->stepdirection)); 149*9566063dSJacob Faibussowitsch PetscCall(VecAXPY(tao->stepdirection, -1.0, bnk->Xold)); 150*9566063dSJacob Faibussowitsch PetscCall(TaoBNKRecomputePred(tao, tao->stepdirection, &prered)); 151b1c2d0e3SAlp Dener } else { 152b1c2d0e3SAlp Dener /* Step did not change, so we can just recover the pre-computed prediction */ 153*9566063dSJacob Faibussowitsch PetscCall(KSPCGGetObjFcn(tao->ksp, &prered)); 154b1c2d0e3SAlp Dener } 155b1c2d0e3SAlp Dener prered = -prered; 156b1c2d0e3SAlp Dener 157b1c2d0e3SAlp Dener /* Compute the actual reduction and update the trust radius */ 158*9566063dSJacob Faibussowitsch PetscCall(TaoComputeObjective(tao, tao->solution, &bnk->f)); 1593c859ba3SBarry Smith PetscCheck(!PetscIsInfOrNanReal(bnk->f),PetscObjectComm((PetscObject)tao),PETSC_ERR_USER, "User provided compute function generated Inf or NaN"); 160b1c2d0e3SAlp Dener actred = bnk->fold - bnk->f; 161e761ccfdSAlp Dener oldTrust = tao->trust; 162*9566063dSJacob Faibussowitsch PetscCall(TaoBNKUpdateTrustRadius(tao, prered, actred, bnk->update_type, stepType, &stepAccepted)); 163fed79b8eSAlp Dener 164fed79b8eSAlp Dener if (stepAccepted) { 165937a31a1SAlp Dener /* Step is good, evaluate the gradient and flip the need-Hessian switch */ 1668d5ead36SAlp Dener steplen = 1.0; 167937a31a1SAlp Dener needH = PETSC_TRUE; 168e465cd6fSAlp Dener ++bnk->newt; 169*9566063dSJacob Faibussowitsch PetscCall(TaoComputeGradient(tao, tao->solution, bnk->unprojected_gradient)); 170*9566063dSJacob Faibussowitsch PetscCall(TaoBNKEstimateActiveSet(tao, bnk->as_type)); 171*9566063dSJacob Faibussowitsch PetscCall(VecCopy(bnk->unprojected_gradient, tao->gradient)); 172*9566063dSJacob Faibussowitsch PetscCall(VecISSet(tao->gradient, bnk->active_idx, 0.0)); 173*9566063dSJacob Faibussowitsch PetscCall(TaoGradientNorm(tao, tao->gradient, NORM_2, &bnk->gnorm)); 174fed79b8eSAlp Dener } else { 175fed79b8eSAlp Dener /* Step is bad, revert old solution and re-solve with new radius*/ 1768d5ead36SAlp Dener steplen = 0.0; 177937a31a1SAlp Dener needH = PETSC_FALSE; 178fed79b8eSAlp Dener bnk->f = bnk->fold; 179*9566063dSJacob Faibussowitsch PetscCall(VecCopy(bnk->Xold, tao->solution)); 180*9566063dSJacob Faibussowitsch PetscCall(VecCopy(bnk->Gold, tao->gradient)); 181*9566063dSJacob Faibussowitsch PetscCall(VecCopy(bnk->unprojected_gradient_old, bnk->unprojected_gradient)); 18273e4db90SAlp Dener if (oldTrust == tao->trust) { 18373e4db90SAlp Dener /* Can't change the radius anymore so just terminate */ 184fed79b8eSAlp Dener tao->reason = TAO_DIVERGED_TR_REDUCTION; 185fed79b8eSAlp Dener } 186fed79b8eSAlp Dener } 187fed79b8eSAlp Dener 188fed79b8eSAlp Dener /* Check for termination */ 189*9566063dSJacob Faibussowitsch PetscCall(VecFischer(tao->solution, bnk->unprojected_gradient, tao->XL, tao->XU, bnk->W)); 190*9566063dSJacob Faibussowitsch PetscCall(VecNorm(bnk->W, NORM_2, &resnorm)); 1913c859ba3SBarry Smith PetscCheck(!PetscIsInfOrNanReal(resnorm),PetscObjectComm((PetscObject)tao),PETSC_ERR_USER, "User provided compute function generated Inf or NaN"); 192*9566063dSJacob Faibussowitsch PetscCall(TaoLogConvergenceHistory(tao, bnk->f, resnorm, 0.0, tao->ksp_its)); 193*9566063dSJacob Faibussowitsch PetscCall(TaoMonitor(tao, tao->niter, bnk->f, resnorm, 0.0, steplen)); 194*9566063dSJacob Faibussowitsch PetscCall((*tao->ops->convergencetest)(tao, tao->cnvP)); 195fed79b8eSAlp Dener } 196937a31a1SAlp Dener } 197fed79b8eSAlp Dener PetscFunctionReturn(0); 198fed79b8eSAlp Dener } 199fed79b8eSAlp Dener 200df278d8fSAlp Dener /*------------------------------------------------------------*/ 2015eb5f4d6SAlp Dener static PetscErrorCode TaoSetUp_BNTR(Tao tao) 2025eb5f4d6SAlp Dener { 2032e6e4ca1SStefano Zampini KSP ksp; 2042e6e4ca1SStefano Zampini PetscVoidFunction valid; 2055eb5f4d6SAlp Dener 2065eb5f4d6SAlp Dener PetscFunctionBegin; 207*9566063dSJacob Faibussowitsch PetscCall(TaoSetUp_BNK(tao)); 208*9566063dSJacob Faibussowitsch PetscCall(TaoGetKSP(tao,&ksp)); 209*9566063dSJacob Faibussowitsch PetscCall(PetscObjectQueryFunction((PetscObject)ksp,"KSPCGSetRadius_C",&valid)); 2103c859ba3SBarry Smith PetscCheck(valid,PetscObjectComm((PetscObject)tao),PETSC_ERR_SUP,"Not for KSP type %s. Must use a trust-region CG method for KSP (e.g. KSPNASH, KSPSTCG, KSPGLTR)",((PetscObject)ksp)->type_name); 2115eb5f4d6SAlp Dener PetscFunctionReturn(0); 2125eb5f4d6SAlp Dener } 2135eb5f4d6SAlp Dener 2145eb5f4d6SAlp Dener /*------------------------------------------------------------*/ 215df278d8fSAlp Dener 216e0ed867bSAlp Dener static PetscErrorCode TaoSetFromOptions_BNTR(PetscOptionItems *PetscOptionsObject,Tao tao) 2179b6ef848SAlp Dener { 2189b6ef848SAlp Dener TAO_BNK *bnk = (TAO_BNK *)tao->data; 2199b6ef848SAlp Dener 2209b6ef848SAlp Dener PetscFunctionBegin; 221*9566063dSJacob Faibussowitsch PetscCall(TaoSetFromOptions_BNK(PetscOptionsObject, tao)); 222e0ed867bSAlp Dener if (bnk->update_type == BNK_UPDATE_STEP) bnk->update_type = BNK_UPDATE_REDUCTION; 2239b6ef848SAlp Dener PetscFunctionReturn(0); 2249b6ef848SAlp Dener } 2259b6ef848SAlp Dener 2269b6ef848SAlp Dener /*------------------------------------------------------------*/ 2273850be85SAlp Dener /*MC 2283850be85SAlp Dener TAOBNTR - Bounded Newton Trust Region for nonlinear minimization with bound constraints. 2299b6ef848SAlp Dener 2303850be85SAlp Dener Options Database Keys: 2313850be85SAlp Dener + -tao_bnk_max_cg_its - maximum number of bounded conjugate-gradient iterations taken in each Newton loop 2323850be85SAlp Dener . -tao_bnk_init_type - trust radius initialization method ("constant", "direction", "interpolation") 2333850be85SAlp Dener . -tao_bnk_update_type - trust radius update method ("step", "direction", "interpolation") 2343850be85SAlp Dener - -tao_bnk_as_type - active-set estimation method ("none", "bertsekas") 2353850be85SAlp Dener 2363850be85SAlp Dener Level: beginner 2373850be85SAlp Dener M*/ 238e0ed867bSAlp Dener PETSC_EXTERN PetscErrorCode TaoCreate_BNTR(Tao tao) 239fed79b8eSAlp Dener { 240fed79b8eSAlp Dener TAO_BNK *bnk; 241fed79b8eSAlp Dener 242fed79b8eSAlp Dener PetscFunctionBegin; 243*9566063dSJacob Faibussowitsch PetscCall(TaoCreate_BNK(tao)); 244fed79b8eSAlp Dener tao->ops->solve=TaoSolve_BNTR; 2455eb5f4d6SAlp Dener tao->ops->setup=TaoSetUp_BNTR; 246e0ed867bSAlp Dener tao->ops->setfromoptions=TaoSetFromOptions_BNTR; 247fed79b8eSAlp Dener 248fed79b8eSAlp Dener bnk = (TAO_BNK *)tao->data; 24966ed3702SAlp Dener bnk->update_type = BNK_UPDATE_REDUCTION; /* trust region updates based on predicted/actual reduction */ 250fed79b8eSAlp Dener PetscFunctionReturn(0); 251fed79b8eSAlp Dener } 252