PARALLEL IMPLEMENTATION OF 3+1-DIMENSIONAL RELATIVISTIC HYDRODYNAMICS

被引:3
|
作者
DEAN, DJ
BOTTCHER, C
STRAYER, MR
WELLS, JC
机构
[1] OAK RIDGE NATL LAB, DIV PHYS, CTR COMPUTAT INTENS FIS, OAK RIDGE, TN 37831 USA
[2] VANDERBILT UNIV, DEPT PHYS & ASTRON, NASHVILLE, TN 37235 USA
来源
INTERNATIONAL JOURNAL OF MODERN PHYSICS C | 1993年 / 4卷 / 05期
关键词
RELATIVISTIC HYDRODYNAMICS; BASIS-SPLINE COLLOCATION METHOD;
D O I
10.1142/S0129183193000793
中图分类号
TP39 [计算机的应用];
学科分类号
081203 ; 0835 ;
摘要
We discuss the parallel implementation of 3+1-dimensional relativistic hydrodynamics. The discretization of these equations is performed with a basis-spline collocation method. An iterative procedure for the time evolution will also be discussed. Approximately 60% of the computational effort is spent in performing vector-matrix multiplications that may easily be vectorized. Furthermore, for large lattices, these operations may be spread across the nodes of a parallel machine. We show how to accomplish this partitioning for the hydrodynamic evolution equations. A double-ring, message-passing algorithm is shown to enhance overall code performance when compared to a single ring on iPSC/i860 architectures. Overall code performance is discussed, and an application to relativistic nuclear collision physics is presented.
引用
收藏
页码:1023 / 1040
页数:18
相关论文
共 50 条
  • [1] Observables from a solution of (1+3)-dimensional relativistic hydrodynamics
    Csanad, M.
    Vargyas, M.
    EUROPEAN PHYSICAL JOURNAL A, 2010, 44 (03): : 473 - 478
  • [2] Observables from a solution of (1+3)-dimensional relativistic hydrodynamics
    M. Csanád
    M. Vargyas
    The European Physical Journal A, 2010, 44 : 473 - 478
  • [3] Relativistic astrophysical hydrodynamics on parallel platforms
    Swesty, FD
    Wang, EYM
    Saylor, P
    PROCEEDINGS OF THE HIGH PERFORMANCE COMPUTING SYMPOSIUM - HPC '99, 1999, : 89 - 94
  • [4] Nonextensive (3+1)-dimensional hydrodynamics for relativistic heavy-ion collisions
    Shi, Jia-Hao
    Qin, Zhi-Ying
    Zhang, Jin-Peng
    Cao, Jian
    Jiang, Ze-Fang
    Zhang, Wen-Chao
    Zheng, Hua
    PHYSICAL REVIEW D, 2025, 111 (03)
  • [5] Stability of (1+1)-dimensional causal relativistic viscous hydrodynamics
    Li, J. W.
    Ma, Y. G.
    Ma, G. L.
    NUCLEAR PHYSICS A, 2010, 846 : 95 - 103
  • [6] Theta Function Solutions of the 3+1-Dimensional Jimbo-Miwa Equation
    Su, Ting
    Dai, Hui-Hui
    MATHEMATICAL PROBLEMS IN ENGINEERING, 2017, 2017 : 1 - 9
  • [7] AN APPROPRIATE ALGORITHM IN PARALLEL COMPUTATIONS FOR 3-DIMENSIONAL HYDRODYNAMICS
    CEKIRGE, HM
    BERLIN, J
    BRENATZ, RA
    KOCH, M
    MATHEMATICAL AND COMPUTER MODELLING, 1994, 20 (01) : 65 - 84
  • [8] QUATERNION QUANTUM-MECHANICS AS A TRUE 3+1-DIMENSIONAL THEORY OF TACHYONS
    SOUCEK, J
    JOURNAL OF PHYSICS A-MATHEMATICAL AND GENERAL, 1981, 14 (07): : 1629 - 1640
  • [9] Path space measure for the 3+1-dimensional Dirac equation in momentum space
    Nakamura, T
    JOURNAL OF MATHEMATICAL PHYSICS, 2000, 41 (08) : 5209 - 5222
  • [10] COMPARISON OF FLUX-CORRECTING AND SPLINE ALGORITHMS FOR SOLVING (3+1)-DIMENSIONAL RELATIVISTIC HYDRODYNAMICS
    DEAN, DJ
    BOTTCHER, C
    STRAYER, MR
    WELLS, JC
    VONKEITZ, A
    PURSUN, Y
    RISCHKE, DH
    MARUHN, JA
    PHYSICAL REVIEW E, 1994, 49 (02) : 1726 - 1733
12345