Formal methods for networks on chips

Fifth International Conference on Application of Concurrency to System Design (ACSD'05) Pub Date : 2005-06-07 DOI:10.1109/ACSD.2005.36

K. Goossens

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引用次数: 20

Abstract

Systems on a chip (SoC) are complex embedded systems consisting of many hardware and software blocks. As the complexity of SoCs grows, the focus is less on the computation, and increasingly on communication. This results in a shift from design based on platforms (design templates) to design style that is communication-centric. In this new paradigm, on-chip interconnects must address both the deep-submicron challenges (managing the number of long wires, timing closure, etc.) and complexity (scalability, quality of service, etc.). Networks on chips (NoC) have emerged as a new type of interconnect that can solve these problems. In this paper we introduce the Ethereal NoC as an example to identify when and where formal methods can play a role in this field of research. NoCs use the same basic concepts as computer networks (packets and routers), but the trade-offs that must and can be made are very different. Wires are relatively shorter, NoC resources are relatively expensive compared to the computation resources are interconnected, and the on-chip environment is more stable than off-chip (e.g. for data loss and synchronisation). As a result, many new NoC architectures have been developed.

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芯片上网络的形式化方法

片上系统(SoC)是由许多硬件和软件块组成的复杂嵌入式系统。随着soc复杂性的增长，对计算的关注越来越少，而对通信的关注越来越多。这导致了从基于平台(设计模板)的设计到以交流为中心的设计风格的转变。在这种新范例中，片上互连必须解决深亚微米的挑战(管理长线的数量，定时关闭等)和复杂性(可扩展性，服务质量等)。芯片上网络(NoC)作为一种新型的互连方式已经出现，可以解决这些问题。在本文中，我们以以太NoC为例来介绍形式化方法在何时何地可以在这一研究领域发挥作用。noc使用与计算机网络(数据包和路由器)相同的基本概念，但必须和可以做出的权衡是非常不同的。线路相对较短，与互连的计算资源相比，NoC资源相对昂贵，并且片上环境比片外环境更稳定(例如，对于数据丢失和同步)。因此，开发了许多新的NoC体系结构。

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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Fifth International Conference on Application of Concurrency to System Design (ACSD'05)

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