PARALLEL FDTD COMPUTING FOR EMC SIMULATION IN HIGH-SPEED ELECTRONICS

Abstract

International Journal of Computational Engineering ScienceVol. 05, No. 03, pp. 575-588 (2004) No AccessPARALLEL FDTD COMPUTING FOR EMC SIMULATION IN HIGH-SPEED ELECTRONICSHONGFAN JIN, ERPING LI, WEILIANG YUAN, and LEWEI LIHONGFAN JINComputational Electromagnetics and Electronics Division, Institute of High Performance Computing, Singapore, 117528, Singapore Search for more papers by this author , ERPING LIComputational Electromagnetics and Electronics Division, Institute of High Performance Computing, Singapore, 117528, Singapore Search for more papers by this author , WEILIANG YUANComputational Electromagnetics and Electronics Division, Institute of High Performance Computing, Singapore, 117528, Singapore Search for more papers by this author , and LEWEI LIDepartment of Electrical and Computer Engineering, National University of Singapore, Kent Ridge, Singapore 119260, Singapore Search for more papers by this author https://doi.org/10.1142/S1465876304002575Cited by:0 PreviousNext AboutSectionsPDF/EPUB ToolsAdd to favoritesDownload CitationsTrack CitationsRecommend to Library ShareShare onFacebookTwitterLinked InRedditEmail AbstractThe paper presents and discusses the parallelized 3D finite-difference time-domain algorithm based on single-program multiple-data architecture using the MPI protocol for electromagnetic compatibility and signal integrity analysis and evaluation in high-speed designs. The efficiency for parallelization is verified through numerical experiments at IBM P640 and P690 multiprocessor high performance computers with up to 20 processors at different sizes of the problems.Keywords:The finite-difference time-domain methodparallel computingmessage passing interface (MPI)electromagnetic computationelectromagnetic compatibilityhigh performance computing References C. R. Paul , Introduction to electromagnetic compatibility ( John Wiley & Sons Inc. , 1992 ) . Google ScholarP. A. Tirkas and C. A. Balanis, IEEE Trans. Antennas and Propagation 40(3), 334 (1992). Crossref, Google ScholarJ. Wang and O. Fujiwara, IEEE Trans. Microwave Theory Tech. 47(8), 1528 (1999). Crossref, Google ScholarS. G. Maoet al., IEEE Trans. Microwave Theory Tech. 48, 23 (2000). Google ScholarB. Z. Wang, Microwave and Optical Technology Letters 7(18), 837 (1994). Crossref, Google ScholarC. Guiffaut and K. Mahdjoubi, IEEE Antennas and Propagation Magazine 43(2), (2001). Google Scholar R. S. David and L. T. Wille, "Electromagnetic field computations on massively parallel computers," Southcon/95, pp.368–373, 1995 . Google ScholarA. Fijanyet al., IEEE Trans. Antennas and Propagation 43(12), 1441 (1995). Crossref, Google ScholarS. D. Gedney, IEEE Trans. Microwave Theory and Techniques 43, 2510 (1995). Crossref, Google ScholarV. Varadarajan and R. Mittra, IEEE microwave and Guided Wave Letters 4, 144 (1994). Crossref, Google Scholar J. Forenc and A. Skorek, "Analysis of high frequency electromagnetic wave propagation using parallel MIMD computer and cluster system," International Conference on Parallel Computing in Electrical Engineering, pp.176–180, 2000 . Google Scholar Y. Aoyama and I. Nakano, "IBM RS/6000 SP: practical MPI programming," International Technical support Organization, 1999 . Google ScholarErping Li, WeiLiang Yuan and Sheng Wang, Microwave opt. Technol. Lett. 35, 416 (2002). Crossref, Google ScholarN. Orhanovic, R. Raghuram and N. Matsui, IEEE International Symposium on Electromagnetic Compatibility 1, 339 (2000). Google ScholarD. M. Sheenet al., IEEE Trans. Microwave Theory Tech. 38(7), 849 (1990). Crossref, Google Scholar Jin Hong Fang, Li Erping, Li LEwei, High Speed differential line signal integrity simulation by parallelized finite differential time domain method, NUS/IHPC Research Report, Singapore, May 2003 . Google Scholar FiguresReferencesRelatedDetails Recommended Vol. 05, No. 03 Metrics History KeywordsThe finite-difference time-domain methodparallel computingmessage passing interface (MPI)electromagnetic computationelectromagnetic compatibilityhigh performance computingPDF download