Title :
Development of parallel higher order FE-BI code for efficient modeling of interior scattering from large cavity structures
Author :
Liu, Peng ; Wang, Chao-Fu
Abstract :
A finite element-boundary integral method with higher-order element (FEBI-HOE) code has been developed at Temasek Laboratories @ NUS for modeling interior scattering from 3-D cavities with complex terminations. In this paper, we present a small-grained parallelization of the FEBI-HOE code to decrease the execution time and to enhance its capability in simulating very large cavity models. To make implementation simpler, we only focus on the computationally intensive spots of the serial code: (1) frontal method solution of the FE elemental matrix equation and (2) LU factorization solution of the BI matrix equation. This strategy of parallelization can provide good scalability and working load balance without significant modifications of the rest of the code. To demonstrate the parallel performance, cavity models of different size have been simulated on different parallel platforms.
Keywords :
S-matrix theory; algebraic codes; boundary integral equations; finite element analysis; matrix algebra; parallel processing; BI matrix equation; FE elemental matrix equation; LU factorization solution; NUS; Temasek Laboratories; finite element-boundary integral method; frontal method solution; higher-order element; interior scattering modeling; large 3-D cavity structures; parallel higher order FE-BI code; small-grained parallelization; Apertures; Assembly; Bismuth; Computational modeling; Concurrent computing; Differential equations; Finite element methods; Integral equations; Laboratories; Scattering; Parallel computation; cavity scattering; higher-order FE-BI method;
Conference_Titel :
Microwave Conference, 2009. APMC 2009. Asia Pacific
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-2801-4
Electronic_ISBN :
978-1-4244-2802-1
DOI :
10.1109/APMC.2009.5384247
