Difference between revisions of "Manuals/calci/CHOLESKY"
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==Examples== | ==Examples== | ||
| + | CHOLESKY([[16,32,12],[12, 18, 0],[ -5, 0, 11]]) | ||
| + | CHOLESKY([[25, 15, -5],[15, 18, 0],[ -5, 0, 11]]) | ||
==See Also== | ==See Also== | ||
Revision as of 05:50, 8 April 2015
CHOLESKY(arr)
- is the array of numeric elements
is the array of numeric elementsDescription
- This function gives the value of Cholesky factorization.
- It is called Cholesky Decomposition or Cholesky Factorization.
- The Cholesky Factorization is only defined for symmetric or Hermitian positive definite matrices.
- Every positive definite matrix A can be factored as =
= 
where
is lower triangular with positive diagonal elements is is the conjugate transpose value of
is lower triangular with positive diagonal elements
is is the conjugate transpose value of - Every Hermitian positive-definite matrix (and thus also every real-valued symmetric positive-definite matrix) has a unique Cholesky decomposition.
- Here , is set of values to find the factorization value.
- Partition matrices in as = (Please take the description from http://www.seas.ucla.edu/~vandenbe/103/lectures/chol.pdf )
, ZOS Section
Examples
CHOLESKY([[16,32,12],[12, 18, 0],[ -5, 0, 11]]) CHOLESKY([[25, 15, -5],[15, 18, 0],[ -5, 0, 11]])