Computational complexity and memory usage for multi-frontal direct   solvers in structured mesh finite elements

Collier, N.; Pardo, D.; Paszynski, M.; Calo, Victor

Access Status

Fulltext not available

Authors

Collier, N.

Pardo, D.

Paszynski, M.

Calo, Victor

Date

2012

Type

Journal Article

Metadata

Show full item record

Citation

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. -. -.

Source Title

School

Department of Applied Geology

URI

http://hdl.handle.net/20.500.11937/57841

Collection

Curtin Research Publications

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.