Matrix (version 1.2-17)

BunchKaufman-methods: Bunch-Kaufman Decomposition Methods

Description

The Bunch-Kaufman Decomposition of a square symmetric matrix \(A\) is \(A = P LDL' P'\) where \(P\) is a permutation matrix, \(L\) is unit-lower triangular and \(D\) is block-diagonal with blocks of dimension \(1\times 1\) or \(2\times2\).

Usage

BunchKaufman(x, …)

Arguments

x

a symmetric square matrix.

potentially further arguments passed to methods.

Value

an object of class '>BunchKaufman, which can also be used as a (triangular) matrix directly.

Methods

Currently, only methods for dense numeric symmetric matrices are implemented.

x = "dspMatrix"

uses Lapack routine dsptrf,

x = "dsyMatrix"

uses Lapack routine dsytrf, computing the Bunch-Kaufman decomposition.

References

The original LAPACK source code, including documentation; http://www.netlib.org/lapack/double/dsytrf.f and http://www.netlib.org/lapack/double/dsptrf.f

See Also

The resulting class, '>BunchKaufman. Related decompositions are the LU, lu, and the Cholesky, chol (and for sparse matrices, Cholesky).

Examples

Run this code
# NOT RUN {
data(CAex)
dim(CAex)
isSymmetric(CAex)# TRUE
CAs <- as(CAex, "symmetricMatrix")
if(FALSE) # no method defined yet for *sparse* :
   bk. <- BunchKaufman(CAs)
## does apply to *dense* symmetric matrices:
bkCA <- BunchKaufman(as(CAs, "denseMatrix"))
bkCA

image(bkCA)# shows how sparse it is, too
str(R.CA <- as(bkCA, "sparseMatrix"))
## an upper triangular 72x72 matrix with only 144 non-zero entries
# }

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