Positive Definite, Hermitian Matrix: Difference between revisions

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== Parameters ==  
== Parameters ==  


n: number of variables and number of equations
$n$: number of variables and number of equations


m: number of nonzero entries in matrix
$m$: number of nonzero entries in matrix


k: ratio between largest and smallest eigenvalues
$k$: ratio between largest and smallest eigenvalues


== Table of Algorithms ==  
== Table of Algorithms ==  
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[[File:Linear System - Positive Definite, Hermitian Matrix - Space.png|1000px]]
[[File:Linear System - Positive Definite, Hermitian Matrix - Space.png|1000px]]


== Space-Time Tradeoff Improvements ==  
== Time-Space Tradeoff ==  


[[File:Linear System - Positive Definite, Hermitian Matrix - Pareto Frontier.png|1000px]]
[[File:Linear System - Positive Definite, Hermitian Matrix - Pareto Frontier.png|1000px]]

Latest revision as of 08:18, 10 April 2023

Description

In this case, we restrict $A$ to be positive definite and hermitian (or symmetric, if $A$ is real-valued).

Related Problems

Generalizations: General Linear System

Related: Sparse Linear System, Non-Definite, Symmetric Matrix, Toeplitz Matrix, Vandermonde Matrix

Parameters

$n$: number of variables and number of equations

$m$: number of nonzero entries in matrix

$k$: ratio between largest and smallest eigenvalues

Table of Algorithms

Name Year Time Space Approximation Factor Model Reference
Gaussian-Jordan Elimination -150 $O(n^{3})$ $O(n^{2})$ Exact Deterministic
Cholesky 1940 $O(n^{3})$ $O(n^{2})$ Exact Deterministic

Time Complexity Graph

Linear System - Positive Definite, Hermitian Matrix - Time.png

Space Complexity Graph

Linear System - Positive Definite, Hermitian Matrix - Space.png

Time-Space Tradeoff

Linear System - Positive Definite, Hermitian Matrix - Pareto Frontier.png