Virtualizing and sharing reconfigurable resources in High-Performance Reconfigurable Computing systems

高性能计算技术 Pub Date : 2008-11-01 DOI:10.1109/HPRCTA.2008.4745683

E. El-Araby, I. González, T. El-Ghazawi

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引用次数: 38

Abstract

High-performance reconfigurable computers (HPRCs) are parallel computers but with added FPGA chips. Examples of such systems are the Cray XT5h and Cray XD1, the SRC-7 and SRC-6, and the SGI Altix/RASC. The execution of parallel applications on HPRCs mainly follows the single-program multiple-data (SPMD) model, which is largely the case in traditional high-performance computers (HPCs). In addition, the prevailing usage of FPGAs in such systems has been as co-processors. The overall system resources, however, are often underutilized because of the asymmetric distribution of the reconfigurable processors relative to the conventional processors. This asymmetry is often a challenge for using the SPMD programming model on these systems. In this work, we propose a resource virtualization solution based on partial run-time reconfiguration (PRTR). This technique will allow sharing the reconfigurable processors among the underutilized processors. We will present our virtualization infrastructure augmented with an analytical investigation. We will verify our proposed concepts with experimental implementations using the Cray XD1 as a testbed. It will be shown that this approach is quite promising and will allow full exploitation of the system resources with fair sharing of the reconfigurable processors among the microprocessors. Our approach is general and can be applied to any of the available HPRC systems.

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高性能可重构计算系统中可重构资源的虚拟化和共享

高性能可重构计算机(hprc)是并行计算机，但增加了FPGA芯片。这种系统的例子是克雷XT5h和克雷XD1, SRC-7和SRC-6，以及SGI Altix/RASC。在高性能计算机(hpc)上，并行应用程序的执行主要遵循单程序多数据(SPMD)模型，这在传统高性能计算机(hpc)上是普遍存在的。此外，fpga在这类系统中的普遍使用是作为协处理器。然而，由于可重构处理器相对于传统处理器的不对称分布，整个系统资源经常得不到充分利用。这种不对称性通常是在这些系统上使用SPMD编程模型的一个挑战。在这项工作中，我们提出了一个基于部分运行时重构(PRTR)的资源虚拟化解决方案。这种技术允许在未充分利用的处理器之间共享可重构处理器。我们将通过分析调查展示我们的虚拟化基础设施。我们将通过使用Cray XD1作为测试平台的实验实现来验证我们提出的概念。这将表明，这种方法是相当有前途的，将允许充分利用系统资源与公平共享的微处理器之间的可重构处理器。我们的方法是通用的，可以应用于任何可用的HPRC系统。

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

高性能计算技术

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1121