DocumentCode
2642147
Title
Spectral partitioning works: planar graphs and finite element meshes
Author
Spielmat, D.A. ; Teng, Shang-Hua
Author_Institution
Dept. of Math., MIT, Cambridge, MA, USA
fYear
1996
fDate
14-16 Oct 1996
Firstpage
96
Lastpage
105
Abstract
Spectral partitioning methods use the Fiedler vector-the eigenvector of the second-smallest eigenvalue of the Laplacian matrix-to find a small separator of a graph. These methods are important components of many scientific numerical algorithms and have been demonstrated by experiment to work extremely well. In this paper, we show that spectral partitioning methods work well on bounded-degree planar graphs and finite element meshes-the classes of graphs to which they are usually applied. While active spectral bisection does not necessarily work, we prove that spectral partitioning techniques can be used to produce separators whose ratio of vertices removed to edges cut is O(√n) for bounded-degree planar graphs and two-dimensional meshes and O(n1d/) for well-shaped d-dimensional meshes. The heart of our analysis is an upper bound on the second-smallest eigenvalues of the Laplacian matrices of these graphs: we prove a bound of O(1/n) for bounded-degree planar graphs and O(1/n2d/) for well-shaped d-dimensional meshes
Keywords
finite element analysis; graph theory; bounded-degree planar graphs; finite element meshes; numerical algorithms; planar graphs; spectral partitioning; Computer science; Eigenvalues and eigenfunctions; Finite element methods; Laplace equations; Mathematics; Matrix decomposition; Particle separators; Sparse matrices; Transmission line matrix methods; Vectors;
fLanguage
English
Publisher
ieee
Conference_Titel
Foundations of Computer Science, 1996. Proceedings., 37th Annual Symposium on
Conference_Location
Burlington, VT
ISSN
0272-5428
Print_ISBN
0-8186-7594-2
Type
conf
DOI
10.1109/SFCS.1996.548468
Filename
548468
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