Computational complexity and memory usage for multi-frontal direct solvers in structured mesh finite elements
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Authors
Collier, N.
Pardo, D.
Paszynski, M.
Calo, Victor
Date
2012Type
Journal Article
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Collier, N. and Pardo, D. and Paszynski, M. and Calo, V. 2012. Computational complexity and memory usage for multi-frontal direct solvers in structured mesh finite elements. -. -.
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Department of Applied Geology
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Abstract
The multi-frontal direct solver is the state-of-the-art algorithm for the direct solution of sparse linear systems. This paper provides computational complexity and memory usage estimates for the application of the multi-frontal direct solver algorithm on linear systems resulting from B-spline-based isogeometric finite elements, where the mesh is a structured grid. Specifically we provide the estimates for systems resulting from $C^{p-1}$ polynomial B-spline spaces and compare them to those obtained using $C^0$ spaces.
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