LAPACK
3.6.1
LAPACK: Linear Algebra PACKage
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subroutine dspt21 | ( | integer | ITYPE, |
character | UPLO, | ||
integer | N, | ||
integer | KBAND, | ||
double precision, dimension( * ) | AP, | ||
double precision, dimension( * ) | D, | ||
double precision, dimension( * ) | E, | ||
double precision, dimension( ldu, * ) | U, | ||
integer | LDU, | ||
double precision, dimension( * ) | VP, | ||
double precision, dimension( * ) | TAU, | ||
double precision, dimension( * ) | WORK, | ||
double precision, dimension( 2 ) | RESULT | ||
) |
DSPT21
DSPT21 generally checks a decomposition of the form A = U S U' where ' means transpose, A is symmetric (stored in packed format), U is orthogonal, and S is diagonal (if KBAND=0) or symmetric tridiagonal (if KBAND=1). If ITYPE=1, then U is represented as a dense matrix, otherwise the U is expressed as a product of Householder transformations, whose vectors are stored in the array "V" and whose scaling constants are in "TAU"; we shall use the letter "V" to refer to the product of Householder transformations (which should be equal to U). Specifically, if ITYPE=1, then: RESULT(1) = | A - U S U' | / ( |A| n ulp ) *andC> RESULT(2) = | I - UU' | / ( n ulp ) If ITYPE=2, then: RESULT(1) = | A - V S V' | / ( |A| n ulp ) If ITYPE=3, then: RESULT(1) = | I - VU' | / ( n ulp ) Packed storage means that, for example, if UPLO='U', then the columns of the upper triangle of A are stored one after another, so that A(1,j+1) immediately follows A(j,j) in the array AP. Similarly, if UPLO='L', then the columns of the lower triangle of A are stored one after another in AP, so that A(j+1,j+1) immediately follows A(n,j) in the array AP. This means that A(i,j) is stored in: AP( i + j*(j-1)/2 ) if UPLO='U' AP( i + (2*n-j)*(j-1)/2 ) if UPLO='L' The array VP bears the same relation to the matrix V that A does to AP. For ITYPE > 1, the transformation U is expressed as a product of Householder transformations: If UPLO='U', then V = H(n-1)...H(1), where H(j) = I - tau(j) v(j) v(j)' and the first j-1 elements of v(j) are stored in V(1:j-1,j+1), (i.e., VP( j*(j+1)/2 + 1 : j*(j+1)/2 + j-1 ) ), the j-th element is 1, and the last n-j elements are 0. If UPLO='L', then V = H(1)...H(n-1), where H(j) = I - tau(j) v(j) v(j)' and the first j elements of v(j) are 0, the (j+1)-st is 1, and the (j+2)-nd through n-th elements are stored in V(j+2:n,j) (i.e., in VP( (2*n-j)*(j-1)/2 + j+2 : (2*n-j)*(j-1)/2 + n ) .)
[in] | ITYPE | ITYPE is INTEGER Specifies the type of tests to be performed. 1: U expressed as a dense orthogonal matrix: RESULT(1) = | A - U S U' | / ( |A| n ulp ) *andC> RESULT(2) = | I - UU' | / ( n ulp ) 2: U expressed as a product V of Housholder transformations: RESULT(1) = | A - V S V' | / ( |A| n ulp ) 3: U expressed both as a dense orthogonal matrix and as a product of Housholder transformations: RESULT(1) = | I - VU' | / ( n ulp ) |
[in] | UPLO | UPLO is CHARACTER If UPLO='U', AP and VP are considered to contain the upper triangle of A and V. If UPLO='L', AP and VP are considered to contain the lower triangle of A and V. |
[in] | N | N is INTEGER The size of the matrix. If it is zero, DSPT21 does nothing. It must be at least zero. |
[in] | KBAND | KBAND is INTEGER The bandwidth of the matrix. It may only be zero or one. If zero, then S is diagonal, and E is not referenced. If one, then S is symmetric tri-diagonal. |
[in] | AP | AP is DOUBLE PRECISION array, dimension (N*(N+1)/2) The original (unfactored) matrix. It is assumed to be symmetric, and contains the columns of just the upper triangle (UPLO='U') or only the lower triangle (UPLO='L'), packed one after another. |
[in] | D | D is DOUBLE PRECISION array, dimension (N) The diagonal of the (symmetric tri-) diagonal matrix. |
[in] | E | E is DOUBLE PRECISION array, dimension (N-1) The off-diagonal of the (symmetric tri-) diagonal matrix. E(1) is the (1,2) and (2,1) element, E(2) is the (2,3) and (3,2) element, etc. Not referenced if KBAND=0. |
[in] | U | U is DOUBLE PRECISION array, dimension (LDU, N) If ITYPE=1 or 3, this contains the orthogonal matrix in the decomposition, expressed as a dense matrix. If ITYPE=2, then it is not referenced. |
[in] | LDU | LDU is INTEGER The leading dimension of U. LDU must be at least N and at least 1. |
[in] | VP | VP is DOUBLE PRECISION array, dimension (N*(N+1)/2) If ITYPE=2 or 3, the columns of this array contain the Householder vectors used to describe the orthogonal matrix in the decomposition, as described in purpose. *NOTE* If ITYPE=2 or 3, V is modified and restored. The subdiagonal (if UPLO='L') or the superdiagonal (if UPLO='U') is set to one, and later reset to its original value, during the course of the calculation. If ITYPE=1, then it is neither referenced nor modified. |
[in] | TAU | TAU is DOUBLE PRECISION array, dimension (N) If ITYPE >= 2, then TAU(j) is the scalar factor of v(j) v(j)' in the Householder transformation H(j) of the product U = H(1)...H(n-2) If ITYPE < 2, then TAU is not referenced. |
[out] | WORK | WORK is DOUBLE PRECISION array, dimension (N**2+N) Workspace. |
[out] | RESULT | RESULT is DOUBLE PRECISION array, dimension (2) The values computed by the two tests described above. The values are currently limited to 1/ulp, to avoid overflow. RESULT(1) is always modified. RESULT(2) is modified only if ITYPE=1. |
Definition at line 221 of file dspt21.f.