A Personal Supercomputer for Climate Research

ACM/IEEE SC 1999 Conference (SC'99) Pub Date : 1900-01-01 DOI:10.1145/331532.331591

J. Hoe, C. Hill, A. Adcroft

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引用次数: 3

Abstract

We describe and analyze the performance of a cluster of personal computers dedicated to coupled climate simulations. This climate modeling system performs comparably to state-of-the-art supercomputers and yet is affordable by individual research groups, thus enabling more spontaneous application of high-end numerical models to climate science. The cluster's novelty centers around the Arctic Switch Fabric and the StarT-X network interface, a system-area interconnect substrate developed at MIT. A significant fraction of the interconnect's hardware performance is made available to our climate model through an application-specific communication library. In addition to reporting the overall application performance of our cluster, we develop an analytical performance model of our application. Based on this model, we define a metric, Potential Floating-Pointing Performance, which we use to quantify the role of high-speed interconnects in determining application performance. Our results show that a high-performance interconnect, in conjunction with a light-weight application-specific library, provides efficient support for our fine-grain parallel application on an otherwise general-purpose commodity system.

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一台用于气候研究的个人超级计算机

我们描述和分析了一组专用于耦合气候模拟的个人计算机的性能。这种气候模拟系统的性能可与最先进的超级计算机相媲美，但个别研究小组负担得起，因此可以更自然地将高端数值模型应用于气候科学。该集群的新颖之处在于北极交换结构和StarT-X网络接口，这是麻省理工学院开发的一种系统区域互连基板。互连的硬件性能的很大一部分是通过特定于应用程序的通信库提供给我们的气候模型的。除了报告集群的整体应用程序性能外，我们还开发了应用程序的分析性能模型。基于该模型，我们定义了一个度量，即潜在浮点性能，我们使用它来量化高速互连在确定应用程序性能中的作用。我们的结果表明，一个高性能的互连，结合一个轻量级的特定于应用程序的库，为我们的细粒度并行应用程序在一个通用的商业系统上提供了有效的支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ACM/IEEE SC 1999 Conference (SC'99)

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