Title :
Sequential and parallel implementations of the partitioning finite-element method
Author :
Choi-Grogan, Yung Shirley ; Eswar, Kalluri ; Sadayappan, P. ; Lee, Robert
Author_Institution :
AT&T Network Syst., Columbus, OH, USA
fDate :
12/1/1996 12:00:00 AM
Abstract :
With the computational capabilities of parallel computers, we should investigate new methods which have performance advantages on parallel computers even if they are not faster than conventional methods on sequential computers. One such method is the partitioning finite-element method (FEM). In this paper, we consider the implementation of the partitioning FEM on both the Gray Y-MP and the Intel Touchstone Delta. The partitioning method is shown to have many advantages over a traditional finite-element approach. On the Gray YMP and sequential computers, the partitioning method requires significantly less memory. For parallel processors such as the Intel Delta, we show that the partitioning FEM has a higher parallel efficiency than traditional FEM. EM scattering from an infinitely long dielectric cylinder is used as an example
Keywords :
electrical engineering computing; electromagnetic wave scattering; finite element analysis; parallel algorithms; EM scattering; Gray Y-MP; Intel Touchstone Delta; infinitely long dielectric cylinder; parallel implementations; partitioning finite-element method; performance; sequential implementation; Computer architecture; Computer networks; Concurrent computing; Engine cylinders; Finite element methods; Geometry; Laboratories; Parallel processing; Programming profession; Scattering;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
