Reconfigurable Network-on-chip design for heterogeneous multi-core system architecture

2014 International Conference on High Performance Computing & Simulation (HPCS) Pub Date : 2014-07-21 DOI:10.1109/HPCSim.2014.6903730

Jih-Sheng Shen, Pao-Ann Hsiung, Juin-Ming Lu

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引用次数: 4

Abstract

Due to the need to support concurrent executions of versatile applications, the system complexity, in terms of the number of cores, is drastically increased from tens to hundreds or thousands of cores. These complex systems usually contain heterogeneous cores or processing elements such as different processor cores, memories, and several Silicon Intellectual Properties (SIPs). Network-on-chip (NoC) was proposed to provide scalability and higher throughput for these heterogeneous multi-core systems. However, general designs of NoC infrastructures for multi-core systems usually lack the flexibility to support different processing requirements such as performance, power, reliability, and response time. It is helpful if designers can provide a reconfigurable NoC design so that these requirements can be supported more easily. In this work, we take an existing reconfigurable NoC for example and discuss related hardware and software issues. Some issues such as the reconfiguration time overhead must be considered in the design of a reconfigurable NoC such that it can be used for heterogeneous multi-core systems.

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异构多核系统架构的可重构片上网络设计

由于需要支持多用途应用程序的并发执行，系统的复杂性(就核心数量而言)从几十个核心急剧增加到数百或数千个核心。这些复杂的系统通常包含异构内核或处理元素，例如不同的处理器内核、存储器和多个硅知识产权(sip)。为了给这些异构多核系统提供可扩展性和更高的吞吐量，提出了片上网络(NoC)。然而，针对多核系统的NoC基础架构的一般设计通常缺乏灵活性，无法支持不同的处理需求，如性能、功耗、可靠性和响应时间。如果设计人员能够提供可重新配置的NoC设计，以便更容易地支持这些需求，这将是有帮助的。本文以现有的可重构NoC为例，讨论了相关的硬件和软件问题。在设计可重新配置的NoC时，必须考虑一些问题，例如重新配置时间开销，以便将其用于异构多核系统。

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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2014 International Conference on High Performance Computing & Simulation (HPCS)

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