Abstract
Applications involving large sparse nonsymmetric linear systems encourage parallel implementations of robust iterative solution methods, such as GMRES(k). Two parallel versions of GMRES(k) based on different data distributions and using Householder reflections in the orthogonalization phase are analyzed with respect to scalability (their ability to maintain fixed efficiency with an increase in problem size and number of processors). A theoretical algorithm-machine model for scalability of GMRES(k) with fixed k is derived and validated by experiments on three parallel computers, each with different machine characteristics. The analysis for an adaptive version of GMRES(k), in which the restart value k is adapted to the problem, is also presented and scalability results for this case are briefly discussed.
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