Paper Info
Title
The extended symmetric block Lanczos method for matrix-valued Gauss-type quadrature rules
Abstract
This paper describes methods based on the extended symmetric block Lanczos process for computing element-wise estimates of upper and lower bounds for matrix functions of the form VTf(A)V, where the matrix A∈Rn×n is large, symmetric, and nonsingular, V∈Rn×s is a block vector with 1≤s≪n orthonormal columns, and f is a function that is defined on the convex hull of the spectrum of A. Pairs of block Gauss–Laurent and block anti-Gauss–Laurent quadrature rules are defined and applied to determine the desired estimates. The methods presented generalize methods discussed by Fenu et al. (2013), which use (standard) block Krylov subspaces, to allow the application of extended block Krylov subspaces. The latter spaces are the union of a (standard) block Krylov subspace determined by positive powers of A and a block Krylov subspace defined by negative powers of A. Computed examples illustrate the effectiveness of the proposed method.
Year
DOI
Venue
2022
10.1016/j.cam.2021.114037
Journal of Computational and Applied Mathematics
Keywords
DocType
Volume
Extended block Krylov subspace,Matrix function,Laurent polynomial,Gauss quadrature,Anti-Gauss quadrature
Journal
407
ISSN
Citations 
PageRank 
0377-0427
0
0.34
References 
Authors
0
4
Name
Order
Citations
PageRank
Abdeslem Hafid Bentbib100.34
M. El Ghomari200.34
Khalide Jbilou300.34
Lothar Reichel445395.02