English

Fast and Inverse-Free Algorithms for Deflating Subspaces

Numerical Analysis 2026-01-21 v4 Numerical Analysis

Abstract

This paper explores a key question in numerical linear algebra: how can we compute projectors onto the deflating subspaces of a regular matrix pencil (A,B)(A,B), in particular without using matrix inversion or defaulting to an expensive Schur decomposition? We focus specifically on spectral projectors, whose associated deflating subspaces correspond to sets of eigenvalues/eigenvectors. In this work, we present a high-level approach to computing these projectors, which combines rational function approximation with an inverse-free arithmetic of Benner and Byers [Numerische Mathematik 2006]. The result is a numerical framework that captures existing inverse-free methods, generates an array of new options, and provides straightforward tools for pursuing efficiency on structured problems (e.g., definite pencils). To exhibit the efficacy of this framework, we consider a handful of methods in detail, including Implicit Repeated Squaring and iterations based on the matrix sign function. In an appendix, we demonstrate that recent, randomized divide-and-conquer eigensolvers -- which are built on fast methods for individual projectors -- can be adapted to produce the generalized Schur form of any matrix pencil in nearly matrix multiplication time.

Keywords

Cite

@article{arxiv.2310.00193,
  title  = {Fast and Inverse-Free Algorithms for Deflating Subspaces},
  author = {James Demmel and Ioana Dumitriu and Ryan Schneider},
  journal= {arXiv preprint arXiv:2310.00193},
  year   = {2026}
}

Comments

Contents: 45 pages, 5 figures, 1 table

R2 v1 2026-06-28T12:36:49.568Z