Randomized linear solvers for computational architectures with straggling workers

In this paper, we consider the iterative solution of sparse systems of linear algebraic equations under the condition that sparse matrix-vector products with the coefficient matrix are computed only partially. At the same time, non-computed entries are set to zeros. We assume that both the number of computed entries and their associated row index set are random variables, with the row index set sampled uniformly given the number of computed entries. This model of computations is prevalent to that realized in hybrid cloud computing architectures following the controller-worker distributed model under the influence of straggling workers. We propose a randomized Richardson iterative scheme and a randomized Chebyshev semi-iterative method within this model and prove the sufficient conditions for their convergence in expectation. Numerical experiments verify the presented theoretical results as well as the effectiveness of the proposed schemes on a few sparse matrix problems.