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Paper detail

Alternating Energy Minimization Methods for Multi-term Matrix Equations

We develop computational methods for approximating the solution of a linear multi-term matrix equation in low rank. We follow an alternating minimization framework, where the solution is represented as a product of two matrices, and approximations to each matrix are sought by solving certain minimization problems repeatedly. The solution methods we present are based on a rank-adaptive variant of alternating energy minimization methods that builds an approximation iteratively by successively computing a rank-one solution component at each step. We also develop efficient procedures to improve the accuracy of the low-rank approximate solutions computed using these successive rank-one update techniques. We explore the use of the methods with linear multi-term matrix equations that arise from stochastic Galerkin finite element discretizations of parameterized linear elliptic PDEs, and demonstrate their effectiveness with numerical studies.

preprint2020arXivOpen access
Kookjin LeeHoward C. ElmanCatherine E. PowellDongeun Lee
math.NANumerical Analysis
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Kookjin LeeHoward C. ElmanCatherine E. PowellDongeun Lee

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