LINPAKS
P A C K A G E LINPAKS
(Version 1978 )
Analyse and solve various systems of linear algebraic equations. (Single
precision version of LINPACK).
SCHDC.........Compute Cholesky decomposition of real positive definite
matrix with optional pivoting.
SCHDD.........Downdates Cholesky factorization of real positive definite
matrix.
SCHEX.........Updates Cholesky factorization of real positive definite
matrix.
SCHUD.........Updates Cholesky factorization of real positive definite
matrix.
SGBCO.........Computes LU factorization of real band matrix and
estimates its condition.
SGBDI.........Uses LU factorization of real band matrix to compute its
determinant. (No provision for computing matrix inverse.)
SGBFA.........Computes LU factorization of real band matrix.
SGBSL.........Uses LU factorization of real band matrix to solve
systems.
SGECO.........Computes LU factorization of real general matrix and
estimates its condition.
SGEDI.........Uses LU factorization of real general matrix to compute
its determinant and/or inverse.
SGEFA.........Computes LU factorization of real general matrix.
SGESL.........Uses LU factorization of real general matrix to solve
systems.
SGTSL.........Factors a real tridiagonal matrix and simultaneously
solves a system.
SPBCO.........Uses Cholesky algorithm to compute factorization of real
positive definite band matrix and estimates its condition.
SPBDI.........Uses factorization of real positive definite band matrix
to compute its determinant. (No provision for matrix
inverse.)
SPBFA.........Uses Cholesky algorithm to compute factorization of real
positive definite band matrix.
SPBSL.........Uses factorization of real positive definite band matrix
to solve systems.
SPOCO.........Uses Cholesky algorithm to factor real positive definite
matrix and estimate its condition.
SPODI.........Uses factorization of real positive definite matrix to
compute its determinant and/or inverse.
SPOFA.........Uses Cholesky algorithm to factor real positive definite
matrix.
SPOSL.........Uses factorization of real positive definite matrix to
solve systems.
SPPCO.........Uses Cholesky algorithm to factor real positive definite
matrix stored in packed form and estimate its condition.
SPPDI.........Uses factorization of real positive definite matrix stored
in packed form to compute its determinant and/or inverse.
SPPFA.........Uses Cholesky algorithm to factor real positive definite
matrix stored in packed form.
SPPSL.........Uses factorization of real positive definite matrix stored
in packed form to solve systems.
SPTSL.........Decomposes real symmetric positive definite tridiagonal
matrix and simultaneously solves a system.
SQRDC.........Computes QR decomposition of real general matrix.
SQRSL.........Manipulates a truncated QR decomposition of real general
matrix which is output from SQRDC.
SSICO.........Computes factorization of real symmetric indefinite matrix
and estimates its condition.
SSIDI.........Uses factorization of real symmetric indefinite matrix to
compute its determinant and/or inverse.
SSIFA.........Computes factorization of real symmetric indefinite
matrix.
SSISL.........Uses factorization of real symmetric indefinite matrix to
solve systems.
SSPCO.........Computes factorization of real symmetric indefinite matrix
stored in packed form and estimates its condition.
SSPDI.........Uses factorization of real symmetric indefinite matrix
stored in packed form to compute its determinant and/or
inverse.
SSPFA.........Computes factorization of real symmetric indefinite matrix
stored in packed form.
SSPSL.........Uses factorization of real symmetric indefinite matrix
stored in packed form to solve systems.
SSVDC.........Computes Singular Value Decomposition of real general
matrix.
STRCO.........Estimates the condition of real triangular matrix.
STRDI.........Computes determinant and/or inverse of real triangular
matrix.
STRSL.........Solves systems with real triangular matrix.