并行磁盘上AMR计算的网格层次结构的高效I/O

Proceedings. Tenth International Conference on Scientific and Statistical Database Management (Cat. No.98TB100243) Pub Date : 1998-07-01 DOI:10.1109/SSDM.1998.688107

S. Kuo, M. Winslett, Ying Chen, Yong Cho

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引用次数: 3

摘要

自适应网格细化(AMR)是一种很有前途的计算方法，它在问题空间的不同部分使用不同分辨率的网格来研究科学问题。这允许对问题空间中更“有趣”的区域进行比其他区域更详细的研究。我们为amr类型的应用程序提供了在IBM SP2上执行输入/输出的有效方法。我们提出了一种磁盘布局，可以最大限度地减少检查点/重启操作的I/O成本，并研究了几种将网格数据分散到多个磁盘的分配方法，以增强时间步/可视化操作的I/O并行性。在SP2上的实验表明，我们的策略可以帮助缩短I/O时间，以满足这两种I/O操作的性能要求。

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Efficient I/O of grid hierarchies for AMR computations on parallel disks

Adaptive mesh refinement (AMR) is a promising computational approach that investigates a scientific problem using grids of different resolutions in different portions of the problem space. This allows the more "interesting" areas of the problem space to be investigated in more detail than other areas. We present efficient ways for AMR-type applications to do input/output on the IBM SP2. We propose a disk layout that minimizes I/O costs for checkpoint/restart operations and investigate several allocation approaches to decluster grid data to multiple disks to enhance I/O parallelism for timestep/visualization operations. The experiments on the SP2 show that our strategies can help to shorten the I/O time to meet the performance requirements of the two types of I/O operations.

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Proceedings. Tenth International Conference on Scientific and Statistical Database Management (Cat. No.98TB100243)

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