Title :
Parallel simulation of 3D nonlinear acoustic fields on a Linux-cluster
Author :
Cai, Xing ; Ødegard, Åsmund
Author_Institution :
Dept. of Inf., Oslo Univ., Norway
Abstract :
Simulating the propagation of 3D ultrasonic waves in a nonlinear medium is a demanding task. It requires the solution of time-dependent and nonlinear partial differential equations (PDEs). For such nonlinear PDEs, we have to use an implicit numerical method that is very CPU-intensive. Parallel simulation is therefore essential for studying those ultrasonic waves with satisfactory accuracy. We present the parallelization of an ultrasonic wave simulator and report some numerical experiments that have been run on a 24-node Linux cluster. Our CPU-measurements indicate that Linux clusters can deliver satisfactory parallel computing power for the numerical solution of PDEs. For simulating 3D ultrasonic waves in particular; we have found that our Linux cluster; which consists of 48 Pentium-III 500 MHz processors inter-connected with a 100 Mbit/s Ethernet network, is fully comparable with an SGI Origin 2000 machine
Keywords :
Unix; digital simulation; mathematics computing; network operating systems; parallel processing; partial differential equations; physics computing; ultrasonic propagation; workstation clusters; 100 Mbit/s; 3D nonlinear acoustic fields; 3D ultrasonic wave propagation; CPU-intensive; Ethernet; Linux cluster; Pentium-III processors; SGI Origin 2000 machine; implicit numerical method; nonlinear partial differential equations; numerical experiments; parallel simulation; time-dependent partial differential equations; Acoustic propagation; Acoustic waves; Computational modeling; Concurrent computing; Linux; Mathematical model; Nonlinear acoustics; Nonlinear equations; Numerical simulation; Supercomputers;
Conference_Titel :
Cluster Computing, 2000. Proceedings. IEEE International Conference on
Conference_Location :
Chemnitz
Print_ISBN :
0-7695-0896-0
DOI :
10.1109/CLUSTR.2000.889038
