Cholesky Solver

Solve SX=B for X when S is square Hermitian positive definite matrix

Library

Math Functions / Matrices and Linear Algebra / Linear System Solvers

dspsolvers

Description

The Cholesky Solver block solves the linear system SX=B by applying Cholesky factorization to input matrix at the S port, which must be square (M-by-M) and Hermitian positive definite. Only the diagonal and upper triangle of the matrix are used, and any imaginary component of the diagonal entries is disregarded. The input to the B port is the right side M-by-N matrix, B. The M-by-N output matrix X is the unique solution of the equations.

A length-M vector input for right side B is treated as an M-by-1 matrix.

Response to Nonpositive Definite Input

When the input is not positive definite, the block reacts with the behavior specified by the Non-positive definite input parameter. The following options are available:

Ignore — Proceed with the computation and do not issue an alert. The output is not a valid solution.
Warning — Proceed with the computation and display a warning message in the MATLAB^® Command Window. The output is not a valid solution.
Error — Display an error dialog box and terminate the simulation.

Note

The Non-positive definite input parameter is a diagnostic parameter. Like all diagnostic parameters on the Configuration Parameters dialog box, it is set to Ignore in the code generated for this block by Simulink^® Coder™ code generation software.

Algorithm

Cholesky factorization uniquely factors the Hermitian positive definite input matrix S as

$S = L L^{*}$

where L is a lower triangular square matrix with positive diagonal elements.

The equation SX=B then becomes

$L L^{*} X = B$

which is solved for X by making the substitution $Y = L^{*} X$ , and solving the following two triangular systems by forward and backward substitution, respectively.

$L Y = B$

$L^{*} X = Y$

Parameters

Non-positive definite input: Response to nonpositive definite matrix inputs: Ignore, Warning, or Error. See Response to Nonpositive Definite Input.

Supported Data Types

Double-precision floating point
Single-precision floating point

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Generated code relies on memcpy or memset functions (string.h) under certain conditions.

Introduced before R2006a

Autocorrelation LPC	DSP System Toolbox
Cholesky Factorization	DSP System Toolbox
Cholesky Inverse	DSP System Toolbox
LDL Solver	DSP System Toolbox
LU Solver	DSP System Toolbox
QR Solver	DSP System Toolbox
`chol`	MATLAB

Documentation

Cholesky Solver

Library

Description

Response to Nonpositive Definite Input

Algorithm

Parameters

Supported Data Types

See Also

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

DSP System Toolbox Documentation

Support

Documentation

Cholesky Solver

Library

Description

Response to Nonpositive Definite Input

Algorithm

Parameters

Supported Data Types

See Also

Extended Capabilities

C/C++ Code Generation Generate C and C++ code using Simulink® Coder™.

DSP System Toolbox Documentation

Support

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.