Title :
Performance Measurement of Magnetohydrodynamic Code for Space Plasma on the Various Scalar-Type Supercomputer Systems
Author :
Fukazawa, Keiichiro ; Umeda, Takayuki ; Miyoshi, Takahiro ; Terada, Naoki ; Matsumoto, Yosuke ; Ogino, Tatsuki
Author_Institution :
Dept. of Earth & Planetary Sci., Kyushu Univ., Fukuoka, Japan
Abstract :
The computational performance of magnetohydrodynamic (MHD) code is evaluated on several scalar-type supercomputer systems. We have made performance tuning of a 3-D MHD code for space plasma simulations on the SR16000/L2, FX1, and HX600 supercomputer systems. For parallelization of the MHD code, we use four different methods, i.e., regular 1-D, 2-D, and 3-D domain decomposition methods and a cache-hit type of 3-D domain decomposition method. We found that the regular 3-D decomposition of the MHD model is suitable for HX600 system, and the cache-hit type of 3-D decomposition is suitable for SR16000/L2 and FX1 systems. As results of these runs, we achieved a performance efficiency of almost 20% for MHD code on all systems.
Keywords :
astronomical techniques; astrophysical plasma; plasma magnetohydrodynamics; 1-D domain decomposition method; 2-D domain decomposition method; 3-D domain decomposition method; 3-D magnetohydrodynamic code; FX1 supercomputer system; HX600 supercomputer system; SR16000-L2 supercomputer system; cache-hit type; computational performance; scalar massively parallel computer system; space plasma simulations; various scalar-type supercomputer systems; Arrays; Bandwidth; Computational modeling; Computer architecture; Computer simulation; Concurrent computing; Helium; Magnetic cores; Magnetohydrodynamic power generation; Magnetohydrodynamics; Plasma measurements; Plasma simulation; Prefetching; Supercomputers; Magnetohydrodynamic (MHD) simulation; performance evaluation; scalar massively parallel computer system;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2010.2055162
