Visible to Intel only — GUID: GUID-2039BD5D-44D1-487A-9B68-87BD46019A5F
Visible to Intel only — GUID: GUID-2039BD5D-44D1-487A-9B68-87BD46019A5F
?potrs
Solves a system of linear equations with a Cholesky-factored symmetric (Hermitian) positive-definite coefficient matrix.
Syntax
lapack_int LAPACKE_spotrs (int matrix_layout , char uplo , lapack_int n , lapack_int nrhs , const float * a , lapack_int lda , float * b , lapack_int ldb );
lapack_int LAPACKE_dpotrs (int matrix_layout , char uplo , lapack_int n , lapack_int nrhs , const double * a , lapack_int lda , double * b , lapack_int ldb );
lapack_int LAPACKE_cpotrs (int matrix_layout , char uplo , lapack_int n , lapack_int nrhs , const lapack_complex_float * a , lapack_int lda , lapack_complex_float * b , lapack_int ldb );
lapack_int LAPACKE_zpotrs (int matrix_layout , char uplo , lapack_int n , lapack_int nrhs , const lapack_complex_double * a , lapack_int lda , lapack_complex_double * b , lapack_int ldb );
Include Files
- mkl.h
Description
The routine solves for X the system of linear equations A*X = B with a symmetric positive-definite or, for complex data, Hermitian positive-definite matrix A, given the Cholesky factorization of A:
A = UT*U for real data, A = UH*U for complex data | if uplo='U' |
A = L*LT for real data, A = L*LH for complex data | if uplo='L' |
where L is a lower triangular matrix and U is upper triangular. The system is solved with multiple right-hand sides stored in the columns of the matrix B.
Before calling this routine, you must call ?potrf to compute the Cholesky factorization of A.
Input Parameters
matrix_layout |
Specifies whether matrix storage layout is row major (LAPACK_ROW_MAJOR) or column major (LAPACK_COL_MAJOR). |
uplo |
Must be 'U' or 'L'. Indicates how the input matrix A has been factored: If uplo = 'U', U is stored, whereA = UT*U for real data, A = UH*U for complex data. If uplo = 'L', L is stored, whereA = L*LT for real data, A = L*LH for complex data. |
n |
The order of matrix A; n≥ 0. |
nrhs |
The number of right-hand sides (nrhs≥ 0). |
a |
Array A of size at least max(1, lda*n) The array a contains the factor U or L (see uplo) as returned by potrf. . |
lda |
The leading dimension of a. lda≥ max(1, n). |
b |
The array b contains the matrix B whose columns are the right-hand sides for the systems of equations. The size of b must be at least max(1, ldb*nrhs) for column major layout and max(1, ldb*n) for row major layout. |
ldb |
The leading dimension of b. ldb≥ max(1, n) for column major layout and ldb≥nrhs for row major layout. |
Output Parameters
b |
Overwritten by the solution matrix X. |
Return Values
This function returns a value info.
If info = 0, the execution is successful.
If info = -i, parameter i had an illegal value.
Application Notes
If uplo = 'U', the computed solution for each right-hand side b is the exact solution of a perturbed system of equations (A + E)x = b, where
|E| ≤ c(n)ε |U H ||U|
c(n) is a modest linear function of n, and ε is the machine precision.
A similar estimate holds for uplo = 'L'. If x0 is the true solution, the computed solution x satisfies this error bound:
where cond(A,x)= || |A-1||A| |x| ||∞ / ||x||∞≤ ||A-1||∞ ||A||∞ = κ∞(A).
Note that cond(A,x) can be much smaller than κ∞ (A). The approximate number of floating-point operations for one right-hand side vector b is 2n2 for real flavors and 8n2 for complex flavors.
To estimate the condition number κ∞(A), call ?pocon.
To refine the solution and estimate the error, call ?porfs.