1560360afSLisandro Dalcin #include <petscsys.h> 2aaa7dc30SBarry Smith #include <petscblaslapack.h> 3a7e14dcfSSatish Balay 46c23d075SBarry Smith static PetscErrorCode estsv(PetscInt n, PetscReal *r, PetscInt ldr, PetscReal *svmin, PetscReal *z) 56c23d075SBarry Smith { 61cfd2cc8SBarry Smith PetscBLASInt blas1=1, blasn, blasnmi, blasj, blasldr; 7a7e14dcfSSatish Balay PetscInt i,j; 8a7e14dcfSSatish Balay PetscReal e,temp,w,wm,ynorm,znorm,s,sm; 96c23d075SBarry Smith 10a7e14dcfSSatish Balay PetscFunctionBegin; 119566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n,&blasn)); 129566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(ldr,&blasldr)); 13a7e14dcfSSatish Balay for (i=0;i<n;i++) { 14a7e14dcfSSatish Balay z[i]=0.0; 15a7e14dcfSSatish Balay } 16a7e14dcfSSatish Balay e = PetscAbs(r[0]); 17a7e14dcfSSatish Balay if (e == 0.0) { 18a7e14dcfSSatish Balay *svmin = 0.0; 19a7e14dcfSSatish Balay z[0] = 1.0; 20a7e14dcfSSatish Balay } else { 21a7e14dcfSSatish Balay /* Solve R'*y = e */ 22a7e14dcfSSatish Balay for (i=0;i<n;i++) { 23a7e14dcfSSatish Balay /* Scale y. The scaling factor (0.01) reduces the number of scalings */ 246c23d075SBarry Smith if (z[i] >= 0.0) e =-PetscAbs(e); 256c23d075SBarry Smith else e = PetscAbs(e); 26a7e14dcfSSatish Balay 27a7e14dcfSSatish Balay if (PetscAbs(e - z[i]) > PetscAbs(r[i + ldr*i])) { 286c23d075SBarry Smith temp = PetscMin(0.01,PetscAbs(r[i + ldr*i]))/PetscAbs(e-z[i]); 290cbffdbaSBarry Smith PetscStackCallBLAS("BLASscal",BLASscal_(&blasn, &temp, z, &blas1)); 30a7e14dcfSSatish Balay e = temp*e; 31a7e14dcfSSatish Balay } 32a7e14dcfSSatish Balay 33a7e14dcfSSatish Balay /* Determine the two possible choices of y[i] */ 346c23d075SBarry Smith if (r[i + ldr*i] == 0.0) { 35a7e14dcfSSatish Balay w = wm = 1.0; 366c23d075SBarry Smith } else { 37a7e14dcfSSatish Balay w = (e - z[i]) / r[i + ldr*i]; 38a7e14dcfSSatish Balay wm = - (e + z[i]) / r[i + ldr*i]; 39a7e14dcfSSatish Balay } 40a7e14dcfSSatish Balay 41a7e14dcfSSatish Balay /* Chose y[i] based on the predicted value of y[j] for j>i */ 42a7e14dcfSSatish Balay s = PetscAbs(e - z[i]); 43a7e14dcfSSatish Balay sm = PetscAbs(e + z[i]); 44a7e14dcfSSatish Balay for (j=i+1;j<n;j++) { 45a7e14dcfSSatish Balay sm += PetscAbs(z[j] + wm * r[i + ldr*j]); 46a7e14dcfSSatish Balay } 47a7e14dcfSSatish Balay if (i < n-1) { 489566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n-i-1,&blasnmi)); 490cbffdbaSBarry Smith PetscStackCallBLAS("BLASaxpy",BLASaxpy_(&blasnmi, &w, &r[i + ldr*(i+1)], &blasldr, &z[i+1], &blas1)); 5073cf7048SBarry Smith PetscStackCallBLAS("BLASasum",s += BLASasum_(&blasnmi, &z[i+1], &blas1)); 51a7e14dcfSSatish Balay } 52a7e14dcfSSatish Balay if (s < sm) { 53a7e14dcfSSatish Balay temp = wm - w; 54a7e14dcfSSatish Balay w = wm; 55a7e14dcfSSatish Balay if (i < n-1) { 560cbffdbaSBarry Smith PetscStackCallBLAS("BLASaxpy",BLASaxpy_(&blasnmi, &temp, &r[i + ldr*(i+1)], &blasldr, &z[i+1], &blas1)); 57a7e14dcfSSatish Balay } 58a7e14dcfSSatish Balay } 59a7e14dcfSSatish Balay z[i] = w; 60a7e14dcfSSatish Balay } 61a7e14dcfSSatish Balay 6273cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",ynorm = BLASnrm2_(&blasn, z, &blas1)); 63a7e14dcfSSatish Balay 64a7e14dcfSSatish Balay /* Solve R*z = y */ 65a7e14dcfSSatish Balay for (j=n-1; j>=0; j--) { 66a7e14dcfSSatish Balay /* Scale z */ 67a7e14dcfSSatish Balay if (PetscAbs(z[j]) > PetscAbs(r[j + ldr*j])) { 68a7e14dcfSSatish Balay temp = PetscMin(0.01, PetscAbs(r[j + ldr*j] / z[j])); 690cbffdbaSBarry Smith PetscStackCallBLAS("BLASscal",BLASscal_(&blasn, &temp, z, &blas1)); 70a7e14dcfSSatish Balay ynorm *=temp; 71a7e14dcfSSatish Balay } 72a7e14dcfSSatish Balay if (r[j + ldr*j] == 0) { 73a7e14dcfSSatish Balay z[j] = 1.0; 74a7e14dcfSSatish Balay } else { 75a7e14dcfSSatish Balay z[j] = z[j] / r[j + ldr*j]; 76a7e14dcfSSatish Balay } 77a7e14dcfSSatish Balay temp = -z[j]; 789566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(j,&blasj)); 790cbffdbaSBarry Smith PetscStackCallBLAS("BLASaxpy",BLASaxpy_(&blasj,&temp,&r[0+ldr*j],&blas1,z,&blas1)); 80a7e14dcfSSatish Balay } 81a7e14dcfSSatish Balay 82a7e14dcfSSatish Balay /* Compute svmin and normalize z */ 8373cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",znorm = 1.0 / BLASnrm2_(&blasn, z, &blas1)); 84a7e14dcfSSatish Balay *svmin = ynorm*znorm; 850cbffdbaSBarry Smith PetscStackCallBLAS("BLASscal",BLASscal_(&blasn, &znorm, z, &blas1)); 86a7e14dcfSSatish Balay } 87a7e14dcfSSatish Balay PetscFunctionReturn(0); 88a7e14dcfSSatish Balay } 89a7e14dcfSSatish Balay 90a7e14dcfSSatish Balay /* 91a7e14dcfSSatish Balay c *********** 92a7e14dcfSSatish Balay c 93691b26d3SBarry Smith c Subroutine gqt 94a7e14dcfSSatish Balay c 95a7e14dcfSSatish Balay c Given an n by n symmetric matrix A, an n-vector b, and a 96a7e14dcfSSatish Balay c positive number delta, this subroutine determines a vector 97a7e14dcfSSatish Balay c x which approximately minimizes the quadratic function 98a7e14dcfSSatish Balay c 99a7e14dcfSSatish Balay c f(x) = (1/2)*x'*A*x + b'*x 100a7e14dcfSSatish Balay c 101a7e14dcfSSatish Balay c subject to the Euclidean norm constraint 102a7e14dcfSSatish Balay c 103a7e14dcfSSatish Balay c norm(x) <= delta. 104a7e14dcfSSatish Balay c 105a7e14dcfSSatish Balay c This subroutine computes an approximation x and a Lagrange 106a7e14dcfSSatish Balay c multiplier par such that either par is zero and 107a7e14dcfSSatish Balay c 108a7e14dcfSSatish Balay c norm(x) <= (1+rtol)*delta, 109a7e14dcfSSatish Balay c 110a7e14dcfSSatish Balay c or par is positive and 111a7e14dcfSSatish Balay c 112a7e14dcfSSatish Balay c abs(norm(x) - delta) <= rtol*delta. 113a7e14dcfSSatish Balay c 114a7e14dcfSSatish Balay c If xsol is the solution to the problem, the approximation x 115a7e14dcfSSatish Balay c satisfies 116a7e14dcfSSatish Balay c 117a7e14dcfSSatish Balay c f(x) <= ((1 - rtol)**2)*f(xsol) 118a7e14dcfSSatish Balay c 119a7e14dcfSSatish Balay c The subroutine statement is 120a7e14dcfSSatish Balay c 121691b26d3SBarry Smith c subroutine gqt(n,a,lda,b,delta,rtol,atol,itmax, 122a7e14dcfSSatish Balay c par,f,x,info,z,wa1,wa2) 123a7e14dcfSSatish Balay c 124a7e14dcfSSatish Balay c where 125a7e14dcfSSatish Balay c 126a7e14dcfSSatish Balay c n is an integer variable. 127a7e14dcfSSatish Balay c On entry n is the order of A. 128a7e14dcfSSatish Balay c On exit n is unchanged. 129a7e14dcfSSatish Balay c 130a7e14dcfSSatish Balay c a is a double precision array of dimension (lda,n). 131a7e14dcfSSatish Balay c On entry the full upper triangle of a must contain the 132a7e14dcfSSatish Balay c full upper triangle of the symmetric matrix A. 133a7e14dcfSSatish Balay c On exit the array contains the matrix A. 134a7e14dcfSSatish Balay c 135a7e14dcfSSatish Balay c lda is an integer variable. 136a7e14dcfSSatish Balay c On entry lda is the leading dimension of the array a. 137a7e14dcfSSatish Balay c On exit lda is unchanged. 138a7e14dcfSSatish Balay c 139a7e14dcfSSatish Balay c b is an double precision array of dimension n. 140a7e14dcfSSatish Balay c On entry b specifies the linear term in the quadratic. 141a7e14dcfSSatish Balay c On exit b is unchanged. 142a7e14dcfSSatish Balay c 143a7e14dcfSSatish Balay c delta is a double precision variable. 144a7e14dcfSSatish Balay c On entry delta is a bound on the Euclidean norm of x. 145a7e14dcfSSatish Balay c On exit delta is unchanged. 146a7e14dcfSSatish Balay c 147a7e14dcfSSatish Balay c rtol is a double precision variable. 148a7e14dcfSSatish Balay c On entry rtol is the relative accuracy desired in the 149a7e14dcfSSatish Balay c solution. Convergence occurs if 150a7e14dcfSSatish Balay c 151a7e14dcfSSatish Balay c f(x) <= ((1 - rtol)**2)*f(xsol) 152a7e14dcfSSatish Balay c 153a7e14dcfSSatish Balay c On exit rtol is unchanged. 154a7e14dcfSSatish Balay c 155a7e14dcfSSatish Balay c atol is a double precision variable. 156a7e14dcfSSatish Balay c On entry atol is the absolute accuracy desired in the 157a7e14dcfSSatish Balay c solution. Convergence occurs when 158a7e14dcfSSatish Balay c 159a7e14dcfSSatish Balay c norm(x) <= (1 + rtol)*delta 160a7e14dcfSSatish Balay c 161a7e14dcfSSatish Balay c max(-f(x),-f(xsol)) <= atol 162a7e14dcfSSatish Balay c 163a7e14dcfSSatish Balay c On exit atol is unchanged. 164a7e14dcfSSatish Balay c 165a7e14dcfSSatish Balay c itmax is an integer variable. 166a7e14dcfSSatish Balay c On entry itmax specifies the maximum number of iterations. 167a7e14dcfSSatish Balay c On exit itmax is unchanged. 168a7e14dcfSSatish Balay c 169a7e14dcfSSatish Balay c par is a double precision variable. 170a7e14dcfSSatish Balay c On entry par is an initial estimate of the Lagrange 171a7e14dcfSSatish Balay c multiplier for the constraint norm(x) <= delta. 172a7e14dcfSSatish Balay c On exit par contains the final estimate of the multiplier. 173a7e14dcfSSatish Balay c 174a7e14dcfSSatish Balay c f is a double precision variable. 175a7e14dcfSSatish Balay c On entry f need not be specified. 176a7e14dcfSSatish Balay c On exit f is set to f(x) at the output x. 177a7e14dcfSSatish Balay c 178a7e14dcfSSatish Balay c x is a double precision array of dimension n. 179a7e14dcfSSatish Balay c On entry x need not be specified. 180a7e14dcfSSatish Balay c On exit x is set to the final estimate of the solution. 181a7e14dcfSSatish Balay c 182a7e14dcfSSatish Balay c info is an integer variable. 183a7e14dcfSSatish Balay c On entry info need not be specified. 184a7e14dcfSSatish Balay c On exit info is set as follows: 185a7e14dcfSSatish Balay c 186a7e14dcfSSatish Balay c info = 1 The function value f(x) has the relative 187a7e14dcfSSatish Balay c accuracy specified by rtol. 188a7e14dcfSSatish Balay c 189a7e14dcfSSatish Balay c info = 2 The function value f(x) has the absolute 190a7e14dcfSSatish Balay c accuracy specified by atol. 191a7e14dcfSSatish Balay c 192a7e14dcfSSatish Balay c info = 3 Rounding errors prevent further progress. 193a7e14dcfSSatish Balay c On exit x is the best available approximation. 194a7e14dcfSSatish Balay c 195a7e14dcfSSatish Balay c info = 4 Failure to converge after itmax iterations. 196a7e14dcfSSatish Balay c On exit x is the best available approximation. 197a7e14dcfSSatish Balay c 198a7e14dcfSSatish Balay c z is a double precision work array of dimension n. 199a7e14dcfSSatish Balay c 200a7e14dcfSSatish Balay c wa1 is a double precision work array of dimension n. 201a7e14dcfSSatish Balay c 202a7e14dcfSSatish Balay c wa2 is a double precision work array of dimension n. 203a7e14dcfSSatish Balay c 204a7e14dcfSSatish Balay c Subprograms called 205a7e14dcfSSatish Balay c 206a7e14dcfSSatish Balay c MINPACK-2 ...... destsv 207a7e14dcfSSatish Balay c 208a7e14dcfSSatish Balay c LAPACK ......... dpotrf 209a7e14dcfSSatish Balay c 210a7e14dcfSSatish Balay c Level 1 BLAS ... daxpy, dcopy, ddot, dnrm2, dscal 211a7e14dcfSSatish Balay c 212a7e14dcfSSatish Balay c Level 2 BLAS ... dtrmv, dtrsv 213a7e14dcfSSatish Balay c 214a7e14dcfSSatish Balay c MINPACK-2 Project. October 1993. 215a7e14dcfSSatish Balay c Argonne National Laboratory and University of Minnesota. 216a7e14dcfSSatish Balay c Brett M. Averick, Richard Carter, and Jorge J. More' 217a7e14dcfSSatish Balay c 218a7e14dcfSSatish Balay c *********** 219a7e14dcfSSatish Balay */ 220a7e14dcfSSatish Balay PetscErrorCode gqt(PetscInt n, PetscReal *a, PetscInt lda, PetscReal *b, 221a7e14dcfSSatish Balay PetscReal delta, PetscReal rtol, PetscReal atol, 222a7e14dcfSSatish Balay PetscInt itmax, PetscReal *retpar, PetscReal *retf, 223a7e14dcfSSatish Balay PetscReal *x, PetscInt *retinfo, PetscInt *retits, 224a7e14dcfSSatish Balay PetscReal *z, PetscReal *wa1, PetscReal *wa2) 225a7e14dcfSSatish Balay { 226a7e14dcfSSatish Balay PetscReal f=0.0,p001=0.001,p5=0.5,minusone=-1,delta2=delta*delta; 227a7e14dcfSSatish Balay PetscInt iter, j, rednc,info; 228a7e14dcfSSatish Balay PetscBLASInt indef; 2291cfd2cc8SBarry Smith PetscBLASInt blas1=1, blasn, iblas, blaslda, blasldap1, blasinfo; 2306c23d075SBarry Smith PetscReal alpha, anorm, bnorm, parc, parf, parl, pars, par=*retpar,paru, prod, rxnorm, rznorm=0.0, temp, xnorm; 231a7e14dcfSSatish Balay 232a7e14dcfSSatish Balay PetscFunctionBegin; 2339566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n,&blasn)); 2349566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(lda,&blaslda)); 2359566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(lda+1,&blasldap1)); 236a7e14dcfSSatish Balay parf = 0.0; 237a7e14dcfSSatish Balay xnorm = 0.0; 238a7e14dcfSSatish Balay rxnorm = 0.0; 239a7e14dcfSSatish Balay rednc = 0; 240a7e14dcfSSatish Balay for (j=0; j<n; j++) { 241a7e14dcfSSatish Balay x[j] = 0.0; 242a7e14dcfSSatish Balay z[j] = 0.0; 243a7e14dcfSSatish Balay } 244a7e14dcfSSatish Balay 245a7e14dcfSSatish Balay /* Copy the diagonal and save A in its lower triangle */ 2460cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&blasn,a,&blasldap1, wa1, &blas1)); 247a7e14dcfSSatish Balay for (j=0;j<n-1;j++) { 2489566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n - j - 1,&iblas)); 2490cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,&a[j + lda*(j+1)], &blaslda, &a[j+1 + lda*j], &blas1)); 250a7e14dcfSSatish Balay } 251a7e14dcfSSatish Balay 252a7e14dcfSSatish Balay /* Calculate the l1-norm of A, the Gershgorin row sums, and the 253a7e14dcfSSatish Balay l2-norm of b */ 254a7e14dcfSSatish Balay anorm = 0.0; 255a7e14dcfSSatish Balay for (j=0;j<n;j++) { 25673cf7048SBarry Smith PetscStackCallBLAS("BLASasum",wa2[j] = BLASasum_(&blasn, &a[0 + lda*j], &blas1));CHKMEMQ; 257a7e14dcfSSatish Balay anorm = PetscMax(anorm,wa2[j]); 258a7e14dcfSSatish Balay } 259a7e14dcfSSatish Balay for (j=0;j<n;j++) { 260a7e14dcfSSatish Balay wa2[j] = wa2[j] - PetscAbs(wa1[j]); 261a7e14dcfSSatish Balay } 26273cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",bnorm = BLASnrm2_(&blasn,b,&blas1));CHKMEMQ; 263a7e14dcfSSatish Balay /* Calculate a lower bound, pars, for the domain of the problem. 264a7e14dcfSSatish Balay Also calculate an upper bound, paru, and a lower bound, parl, 265a7e14dcfSSatish Balay for the Lagrange multiplier. */ 266a7e14dcfSSatish Balay pars = parl = paru = -anorm; 267a7e14dcfSSatish Balay for (j=0;j<n;j++) { 268a7e14dcfSSatish Balay pars = PetscMax(pars, -wa1[j]); 269a7e14dcfSSatish Balay parl = PetscMax(parl, wa1[j] + wa2[j]); 270a7e14dcfSSatish Balay paru = PetscMax(paru, -wa1[j] + wa2[j]); 271a7e14dcfSSatish Balay } 272a7e14dcfSSatish Balay parl = PetscMax(bnorm/delta - parl,pars); 273a7e14dcfSSatish Balay parl = PetscMax(0.0,parl); 274a7e14dcfSSatish Balay paru = PetscMax(0.0, bnorm/delta + paru); 275a7e14dcfSSatish Balay 276a7e14dcfSSatish Balay /* If the input par lies outside of the interval (parl, paru), 277a7e14dcfSSatish Balay set par to the closer endpoint. */ 278a7e14dcfSSatish Balay 279a7e14dcfSSatish Balay par = PetscMax(par,parl); 280a7e14dcfSSatish Balay par = PetscMin(par,paru); 281a7e14dcfSSatish Balay 282a7e14dcfSSatish Balay /* Special case: parl == paru */ 283a7e14dcfSSatish Balay paru = PetscMax(paru, (1.0 + rtol)*parl); 284a7e14dcfSSatish Balay 285a7e14dcfSSatish Balay /* Beginning of an iteration */ 286a7e14dcfSSatish Balay 287a7e14dcfSSatish Balay info = 0; 288a7e14dcfSSatish Balay for (iter=1;iter<=itmax;iter++) { 289a7e14dcfSSatish Balay /* Safeguard par */ 290a7e14dcfSSatish Balay if (par <= pars && paru > 0) { 291a7e14dcfSSatish Balay par = PetscMax(p001, PetscSqrtScalar(parl/paru)) * paru; 292a7e14dcfSSatish Balay } 293a7e14dcfSSatish Balay 2941cfd2cc8SBarry Smith /* Copy the lower triangle of A into its upper triangle and compute A + par*I */ 295a7e14dcfSSatish Balay 296a7e14dcfSSatish Balay for (j=0;j<n-1;j++) { 2979566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n - j - 1,&iblas)); 2980cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,&a[j+1 + j*lda], &blas1,&a[j + (j+1)*lda], &blaslda)); 299a7e14dcfSSatish Balay } 300a7e14dcfSSatish Balay for (j=0;j<n;j++) { 301a7e14dcfSSatish Balay a[j + j*lda] = wa1[j] + par; 302a7e14dcfSSatish Balay } 303a7e14dcfSSatish Balay 3041cfd2cc8SBarry Smith /* Attempt the Cholesky factorization of A without referencing the lower triangular part. */ 3050cbffdbaSBarry Smith PetscStackCallBLAS("LAPACKpotrf",LAPACKpotrf_("U",&blasn,a,&blaslda,&indef)); 306a7e14dcfSSatish Balay 307a7e14dcfSSatish Balay /* Case 1: A + par*I is pos. def. */ 308a7e14dcfSSatish Balay if (indef == 0) { 309a7e14dcfSSatish Balay 3101cfd2cc8SBarry Smith /* Compute an approximate solution x and save the last value of par with A + par*I pos. def. */ 311a7e14dcfSSatish Balay 312a7e14dcfSSatish Balay parf = par; 3130cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&blasn, b, &blas1, wa2, &blas1)); 3140cbffdbaSBarry Smith PetscStackCallBLAS("LAPACKtrtrs",LAPACKtrtrs_("U","T","N",&blasn,&blas1,a,&blaslda,wa2,&blasn,&blasinfo)); 315*63a3b9bcSJacob Faibussowitsch PetscCheck(!blasinfo,PETSC_COMM_SELF,PETSC_ERR_LIB,"LAPACKtrtrs() returned info %" PetscBLASInt_FMT,blasinfo); 31673cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",rxnorm = BLASnrm2_(&blasn, wa2, &blas1)); 3170cbffdbaSBarry Smith PetscStackCallBLAS("LAPACKtrtrs",LAPACKtrtrs_("U","N","N",&blasn,&blas1,a,&blaslda,wa2,&blasn,&blasinfo)); 318*63a3b9bcSJacob Faibussowitsch PetscCheck(!blasinfo,PETSC_COMM_SELF,PETSC_ERR_LIB,"LAPACKtrtrs() returned info %" PetscBLASInt_FMT,blasinfo); 319e81852a0SSatish Balay 3200cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&blasn, wa2, &blas1, x, &blas1)); 3210cbffdbaSBarry Smith PetscStackCallBLAS("BLASscal",BLASscal_(&blasn, &minusone, x, &blas1)); 32273cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",xnorm = BLASnrm2_(&blasn, x, &blas1));CHKMEMQ; 323a7e14dcfSSatish Balay 324a7e14dcfSSatish Balay /* Test for convergence */ 3251cfd2cc8SBarry Smith if (PetscAbs(xnorm - delta) <= rtol*delta || (par == 0 && xnorm <= (1.0+rtol)*delta)) { 326a7e14dcfSSatish Balay info = 1; 327a7e14dcfSSatish Balay } 328a7e14dcfSSatish Balay 3291cfd2cc8SBarry Smith /* Compute a direction of negative curvature and use this information to improve pars. */ 3309566063dSJacob Faibussowitsch PetscCall(estsv(n,a,lda,&rznorm,z));CHKMEMQ; 331a7e14dcfSSatish Balay pars = PetscMax(pars, par-rznorm*rznorm); 332a7e14dcfSSatish Balay 3331cfd2cc8SBarry Smith /* Compute a negative curvature solution of the form x + alpha*z, where norm(x+alpha*z)==delta */ 334a7e14dcfSSatish Balay 335a7e14dcfSSatish Balay rednc = 0; 336a7e14dcfSSatish Balay if (xnorm < delta) { 337a7e14dcfSSatish Balay /* Compute alpha */ 33873cf7048SBarry Smith PetscStackCallBLAS("BLASdot",prod = BLASdot_(&blasn, z, &blas1, x, &blas1)/delta); 339a7e14dcfSSatish Balay temp = (delta - xnorm)*((delta + xnorm)/delta); 340a7e14dcfSSatish Balay alpha = temp/(PetscAbs(prod) + PetscSqrtScalar(prod*prod + temp/delta)); 3416c23d075SBarry Smith if (prod >= 0) alpha = PetscAbs(alpha); 3426c23d075SBarry Smith else alpha =-PetscAbs(alpha); 343a7e14dcfSSatish Balay 3441cfd2cc8SBarry Smith /* Test to decide if the negative curvature step produces a larger reduction than with z=0 */ 345a7e14dcfSSatish Balay rznorm = PetscAbs(alpha) * rznorm; 346a7e14dcfSSatish Balay if ((rznorm*rznorm + par*xnorm*xnorm)/(delta2) <= par) { 347a7e14dcfSSatish Balay rednc = 1; 348a7e14dcfSSatish Balay } 349a7e14dcfSSatish Balay /* Test for convergence */ 3506c23d075SBarry Smith if (p5 * rznorm*rznorm / delta2 <= rtol*(1.0-p5*rtol)*(par + rxnorm*rxnorm/delta2)) { 351a7e14dcfSSatish Balay info = 1; 3526c23d075SBarry Smith } else if (info == 0 && (p5*(par + rxnorm*rxnorm/delta2) <= atol/delta2)) { 353a7e14dcfSSatish Balay info = 2; 354a7e14dcfSSatish Balay } 355a7e14dcfSSatish Balay } 356a7e14dcfSSatish Balay 357a7e14dcfSSatish Balay /* Compute the Newton correction parc to par. */ 358a7e14dcfSSatish Balay if (xnorm == 0) { 359a7e14dcfSSatish Balay parc = -par; 360a7e14dcfSSatish Balay } else { 3610cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&blasn, x, &blas1, wa2, &blas1)); 362a7e14dcfSSatish Balay temp = 1.0/xnorm; 3630cbffdbaSBarry Smith PetscStackCallBLAS("BLASscal",BLASscal_(&blasn, &temp, wa2, &blas1)); 3640cbffdbaSBarry Smith PetscStackCallBLAS("LAPACKtrtrs",LAPACKtrtrs_("U","T","N",&blasn, &blas1, a, &blaslda, wa2, &blasn, &blasinfo)); 365*63a3b9bcSJacob Faibussowitsch PetscCheck(!blasinfo,PETSC_COMM_SELF,PETSC_ERR_LIB,"LAPACKtrtrs() returned info %" PetscBLASInt_FMT,blasinfo); 36673cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",temp = BLASnrm2_(&blasn, wa2, &blas1)); 367a7e14dcfSSatish Balay parc = (xnorm - delta)/(delta*temp*temp); 368a7e14dcfSSatish Balay } 369a7e14dcfSSatish Balay 370a7e14dcfSSatish Balay /* update parl or paru */ 371a7e14dcfSSatish Balay if (xnorm > delta) { 372a7e14dcfSSatish Balay parl = PetscMax(parl, par); 373a7e14dcfSSatish Balay } else if (xnorm < delta) { 374a7e14dcfSSatish Balay paru = PetscMin(paru, par); 375a7e14dcfSSatish Balay } 376a7e14dcfSSatish Balay } else { 377a7e14dcfSSatish Balay /* Case 2: A + par*I is not pos. def. */ 378a7e14dcfSSatish Balay 3791cfd2cc8SBarry Smith /* Use the rank information from the Cholesky decomposition to update par. */ 380a7e14dcfSSatish Balay 381a7e14dcfSSatish Balay if (indef > 1) { 382a7e14dcfSSatish Balay /* Restore column indef to A + par*I. */ 383a7e14dcfSSatish Balay iblas = indef - 1; 3840cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,&a[indef-1 + 0*lda],&blaslda,&a[0 + (indef-1)*lda],&blas1)); 385a7e14dcfSSatish Balay a[indef-1 + (indef-1)*lda] = wa1[indef-1] + par; 386a7e14dcfSSatish Balay 387a7e14dcfSSatish Balay /* compute parc. */ 3880cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,&a[0 + (indef-1)*lda], &blas1, wa2, &blas1)); 3890cbffdbaSBarry Smith PetscStackCallBLAS("LAPACKtrtrs",LAPACKtrtrs_("U","T","N",&iblas,&blas1,a,&blaslda,wa2,&blasn,&blasinfo)); 390*63a3b9bcSJacob Faibussowitsch PetscCheck(!blasinfo,PETSC_COMM_SELF,PETSC_ERR_LIB,"LAPACKtrtrs() returned info %" PetscBLASInt_FMT,blasinfo); 3910cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,wa2,&blas1,&a[0 + (indef-1)*lda],&blas1)); 39273cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",temp = BLASnrm2_(&iblas,&a[0 + (indef-1)*lda],&blas1));CHKMEMQ; 393a7e14dcfSSatish Balay a[indef-1 + (indef-1)*lda] -= temp*temp; 394e785d365SKarl Rupp PetscStackCallBLAS("LAPACKtrtrs",LAPACKtrtrs_("U","N","N",&iblas,&blas1,a,&blaslda,wa2,&blasn,&blasinfo)); 395*63a3b9bcSJacob Faibussowitsch PetscCheck(!blasinfo,PETSC_COMM_SELF,PETSC_ERR_LIB,"LAPACKtrtrs() returned info %" PetscBLASInt_FMT,blasinfo); 396a7e14dcfSSatish Balay } 397a7e14dcfSSatish Balay 398a7e14dcfSSatish Balay wa2[indef-1] = -1.0; 399a7e14dcfSSatish Balay iblas = indef; 40073cf7048SBarry Smith PetscStackCallBLAS("BLASnrm2",temp = BLASnrm2_(&iblas,wa2,&blas1)); 401a7e14dcfSSatish Balay parc = - a[indef-1 + (indef-1)*lda]/(temp*temp); 402a7e14dcfSSatish Balay pars = PetscMax(pars,par+parc); 403a7e14dcfSSatish Balay 404a7e14dcfSSatish Balay /* If necessary, increase paru slightly. 405a7e14dcfSSatish Balay This is needed because in some exceptional situations 406a7e14dcfSSatish Balay paru is the optimal value of par. */ 407a7e14dcfSSatish Balay 408a7e14dcfSSatish Balay paru = PetscMax(paru, (1.0+rtol)*pars); 409a7e14dcfSSatish Balay } 410a7e14dcfSSatish Balay 411a7e14dcfSSatish Balay /* Use pars to update parl */ 412a7e14dcfSSatish Balay parl = PetscMax(parl,pars); 413a7e14dcfSSatish Balay 414e4cb33bbSBarry Smith /* Test for converged. */ 415a7e14dcfSSatish Balay if (info == 0) { 416a7e14dcfSSatish Balay if (iter == itmax) info=4; 417a7e14dcfSSatish Balay if (paru <= (1.0+p5*rtol)*pars) info=3; 418a7e14dcfSSatish Balay if (paru == 0.0) info = 2; 419a7e14dcfSSatish Balay } 420a7e14dcfSSatish Balay 421a7e14dcfSSatish Balay /* If exiting, store the best approximation and restore 422a7e14dcfSSatish Balay the upper triangle of A. */ 423a7e14dcfSSatish Balay 424a7e14dcfSSatish Balay if (info != 0) { 425a7e14dcfSSatish Balay /* Compute the best current estimates for x and f. */ 426a7e14dcfSSatish Balay par = parf; 427a7e14dcfSSatish Balay f = -p5 * (rxnorm*rxnorm + par*xnorm*xnorm); 428a7e14dcfSSatish Balay if (rednc) { 429a7e14dcfSSatish Balay f = -p5 * (rxnorm*rxnorm + par*delta*delta - rznorm*rznorm); 4300cbffdbaSBarry Smith PetscStackCallBLAS("BLASaxpy",BLASaxpy_(&blasn, &alpha, z, &blas1, x, &blas1)); 431a7e14dcfSSatish Balay } 432a7e14dcfSSatish Balay /* Restore the upper triangle of A */ 433a7e14dcfSSatish Balay for (j = 0; j<n; j++) { 4349566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(n - j - 1,&iblas)); 4350cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&iblas,&a[j+1 + j*lda],&blas1, &a[j + (j+1)*lda],&blaslda)); 436a7e14dcfSSatish Balay } 4379566063dSJacob Faibussowitsch PetscCall(PetscBLASIntCast(lda+1,&iblas)); 4380cbffdbaSBarry Smith PetscStackCallBLAS("BLAScopy",BLAScopy_(&blasn,wa1,&blas1,a,&iblas)); 439a7e14dcfSSatish Balay break; 440a7e14dcfSSatish Balay } 441a7e14dcfSSatish Balay par = PetscMax(parl,par+parc); 442a7e14dcfSSatish Balay } 443a7e14dcfSSatish Balay *retpar = par; 444a7e14dcfSSatish Balay *retf = f; 445a7e14dcfSSatish Balay *retinfo = info; 446a7e14dcfSSatish Balay *retits = iter; 447a7e14dcfSSatish Balay CHKMEMQ; 448a7e14dcfSSatish Balay PetscFunctionReturn(0); 449a7e14dcfSSatish Balay } 450