Structured Backward Errors for Special Classes of Saddle Point Problems with Applications

Sk. Safique Ahmad, Pinki Khatun

Published 2024-08-21Version 1

Significant research efforts have been dedicated recently to explore the structured backward error (BE) for saddle point problems (SPPs). However, these investigations overlook the inherent sparsity pattern of the coefficient matrix of the SPP. Moreover, the existing techniques are not applicable when the block matrices have Circulant, Toeplitz, or symmetric-Toeplitz structures and do not even provide structure preserving minimal perturbation matrices for which the BE is attained. To overcome these limitations, we investigate the structured BEs of SPPs when the perturbation matrices exploit the sparsity pattern as well as Circulant, Toeplitz, and symmetric-Toeplitz structures. Furthermore, we construct minimal perturbation matrices that preserve the sparsity pattern and the aforementioned structures. Two applications of the obtained results are discussed: (i) deriving structured BEs for the weighted regularized least squares problem and (ii) finding an effective and reliable stopping criterion for numerical algorithms. Finally, numerical experiments validate our findings, showcasing the utility of the obtained structured BEs in assessing the strong stability of numerical algorithms