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Linear Algebra

A collection of algorithms for linear algebra
(1631 downloads for this version - 74116 downloads for all versions)
Details
Version
0.4.1
Authors
Michael Baudin
Sylvan Brocard
Owner Organization
Scilab Enteprises
Maintainers
Vincent COUVERT
Administrator ATOMS
Stéphane MOTTELET
Category
License
Dependency
Creation Date
November 16, 2023
Source created on
Scilab 2024.0.x
Binaries available on
Scilab 2024.0.x:
Linux 64-bit Windows 64-bit macOS
Install command
--> atomsInstall("linalg")
Description
            The goal of this toolbox is to provide a collection of 
algorithms for linear algebra.

These algorithms are most of the time already provided by Scilab, but 
are available here for comparison purpose.

The linalg_pow function is much faster than Scilab's pow, 
when the exponent is large. 
The algorithm used here is based on binary exponentiation, and 
requires only log2(p) iterations, compared to p iterations for the 
naive pow.
For example, for p=99999, it was found that linalg_pow requires 0.003 
seconds for a 5-by-5 matrix, while Scilab requires 2.7 seconds.

The linalg_zhbev function provides the same feature as Lapack's 
ZHBEV, that is, computes the eigenvalues of a complex hermitian band matrix. 
The other method in Scilab to compute eigenvalues of sparse matrices 
is to use Arnoldi's iterations. 
This does not make use of the Hermitian structure of some matrices. 

The solution of A*X=B in Scilab is based on the backslash operator.
The backslash operator is switching from Gaussian Elimination (with 
pivoting) to Linear Least Squares when the condition number of 
the matrix is larger than roughly 10^8. 
This switch is annoying for matrices which condition number are 
between 10^8 and 10^16, where the Gaussian Elimination can 
produce a more accurate result than Least Squares. 
The linalg_gesv function provided in this module is a direct 
interface to the Gaussian Elimination from Lapack. 
In some cases, this function can produce significantly more accurate 
solution than backslash.

Features :
-------

 * linalg_chol — Computes the Cholesky decomposition.
 * linalg_condeig — Computes the condition number of the eigenvalues of a
matrix.
 * linalg_expm — Computes the exponential of a matrix.
 * linalg_factorlu — Computes the LU decomposition without pivoting.
 * linalg_factorlupivot — Computes the LU decomposition with pivoting.
 * linalg_gaussnaive — Solves a linear equation by Gauss method and no
pivoting.
 * linalg_gausspivotal — Computes the solution of a linear equation with Gauss
and row pivoting.
 * linalg_gausspivotalnaive — Computes the solution of a linear equation with
Gauss and row pivoting.
 * linalg_hbandL — Converts a complex hermitian band matrix into its compact
form.
 * linalg_pow — Computes A^p
 * linalg_powfast — Computes A^p
 * linalg_rayleighiteration — Computes approximated a pair of eigenvalue and
eigenvector.
 * linalg_solvelu — Computes the solution of a linear equation, given its LU
decomposition.

BLAS/LAPACK
 * linalg_dgemm — Computes D = Alpha*A*B+ Beta*C for a real matrix.
 * linalg_dgesv — Solves A*X = B for real equations.
 * linalg_dsyev — Computes the eigenvalues of a symmetric real matrix.
 * linalg_gemm — Computes D = Alpha*A*B+ Beta*C for a real or complex matrix.
 * linalg_gesv — Computes the real or complex solution X of A*X=B.
 * linalg_zgemm — Computes D = Alpha*A*B+ Beta*C for a complex matrix.
 * linalg_zgesv — Solves A*X = B for complex equations.
 * linalg_zhbev — Computes the eigenvalues of a complex hermitian band
matrix.
            
Files (4)
[126.33 kB]
Source code archive

[223.28 kB]
Linux 64-bit binary for Scilab 2024.0.x

[452.86 kB]
Windows 64-bit binary for Scilab 2024.0.x

[241.82 kB]
macOS binary for Scilab 2024.0.x

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