Implementation of Parallel Boundary Integral Method on Spherical Bubble Dynamics Using Shared Memory Computer

Article Sidebar

FULL TEXT
Published: Jun 1, 2000
Keywords:
Boundary integral method Shared memory Bubble dynamics Parallel computing

Main Article Content

Rozita Johari
Jabatan Teknologi Komunikasi dan Rangkaian, Fakulti Sains Komputer dan Teknologi Maklumat, Universiti Putra Malaysia
Mohd Yazid Md Saman
Jabatan Teknologi Komunikasi dan Rangkaian, Fakulti Sains Komputer dan Teknologi Maklumat, Universiti Putra Malaysia
Mohamed Othman
Jabatan Teknologi Komunikasi dan Rangkaian, Fakulti Sains Komputer dan Teknologi Maklumat, Universiti Putra Malaysia
Bachok Taib
Fakulti Sains dan Pengajian Alam Sekitar, Universiti Putra Malaysia

Abstract

The boundary integral method is employed to model the dynamic behavior of the 3D spherical bubble. It has been solved on the Sequent Symmetry S5000 SE30 computer to better understand the opportunities and challenges the parallel processing presents. Analyses of the parallel performance of the approximation to the potential at certain external points as well as the normal derivatives of the potential on the surface of the bubble were generated using linear representations of the surface and the functions. In these calculations, 4, 6 and 8 Gauss points were used in the integration on 4, 8, 16 32 and 64 segments. Results from this study demonstrate that parallel computing greatly conserves the computational effort and is shown to be an effective tool for several problems related to bubble dynamics.

Downloads

Download data is not yet available.

Article Details

How to Cite
Johari, R., Md Saman, M. Y., Othman, M., & Taib, B. (2000). Implementation of Parallel Boundary Integral Method on Spherical Bubble Dynamics Using Shared Memory Computer. Malaysian Journal of Computer Science, 13(1), 1–11. Retrieved from https://vmis.um.edu.my/index.php/MJCS/article/view/5809
Issue
Vol. 13 No. 1 (2000): Malaysian Journal of Computer Science
Section
Articles