A new block Krylov subspace framework with applications to functions of matrices acting on multiple vectors

Lund, Kathryn

January 2018

We propose a new framework for understanding block Krylov subspace methods, which hinges on a matrix-valued inner product. We can recast the ``classical" block Krylov methods, such as O'Leary's block conjugate gradients, global methods, and loop-interchange methods, within this framework. Leveraging the generality of the framework, we develop an efficient restart procedure and error bounds for the shifted block full orthogonalization method (Sh-BFOM(m)). Regarding BFOM as the prototypical block Krylov subspace method, we propose another formalism, which we call modified BFOM, and show that block GMRES and the new block Radau-Lanczos method can be regarded as modified BFOM. In analogy to Sh-BFOM(m), we develop an efficient restart procedure for shifted BGMRES with restarts (Sh-BGMRES(m)), as well as error bounds. Using this framework and shifted block Krylov methods with restarts as a foundation, we formulate block Krylov subspace methods with restarts for matrix functions acting on multiple vectors f(A)B. We obtain convergence bounds for \bfomfom (BFOM for Functions Of Matrices) and block harmonic methods (i.e., BGMRES-like methods) for matrix functions. With various numerical examples, we illustrate our theoretical results on Sh-BFOM and Sh-BGMRES. We also analyze the matrix polynomials associated to the residuals of these methods. Through a variety of real-life applications, we demonstrate the robustness and versatility of B(FOM)^2 and block harmonic methods for matrix functions. A particularly interesting example is the tensor t-function, our proposed definition for the function of a tensor in the tensor t-product formalism. Despite the lack of convergence theory, we also show that the block Radau-Lanczos modification can reduce the number of cycles required to converge for both linear systems and matrix functions. / Mathematics

Applied Mathematics

Block Krylov Subspace Methods

Functions of Matrices

Functions of Tensors

Matrix Polynomials

Shifted Linear Systems

Tensor T-product

Iterative tensor factorization based on Krylov subspace-type methods with applications to image processing

UGWU, UGOCHUKWU OBINNA

06 October 2021

No description available.

Applied Mathematics

Inverse problems

Iterative tensor decomposition

Krylov subspaces

Image and video processing

Truncated iterations

Tensor Arnoldi process

Tensor Golub-Kahan bidiagonalization

Tensor Lanczos process

tensor SVD

Randomized tensor SVD

t-product

Invertible linear transform