Trading Hardware Overhead for Communication Performance in Mesh-Type Topologies

2010 13th Euromicro Conference on Digital System Design: Architectures, Methods and Tools Pub Date : 2010-09-01 DOI:10.1109/DSD.2010.67

C. Cornelius, Philipp Gorski, S. Kubisch, D. Timmermann

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Abstract

Several alternatives of mesh-type topologies have been published for the use in Networks-on-Chip. Due to their regularity, mesh-type topologies often serve as a foundation to investigate new ideas or to customize the topology to application-specific needs. This paper analyzes existing mesh-type topologies and compares their characteristics in terms of communication and implementation costs. Furthermore, this paper proposes BEAM (Border-Enhanced Mesh) − a mesh-type topology for Networks-on-Chip. BEAM uses concentration while necessitating only low-radix routers. Thereto, additional resources are connected to the outer boundaries of a conventional mesh. As a result, overall bandwidth is traded off against hardware overhead. In conclusion, simulation and synthesis results show that the conventional mesh stands out due to its communication performance, whereas clustered and concentrated topologies offer the least hardware overhead. BEAM ranges in between and is an option to balance hardware costs and communication performance.

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在网格型拓扑中交换通信性能的硬件开销

在片上网络中已经发表了几种网格型拓扑的替代方案。由于其规律性，网格型拓扑通常作为研究新思想或根据特定应用程序需求定制拓扑的基础。本文分析了现有的网格型拓扑，比较了它们在通信和实现成本方面的特点。此外，本文提出了BEAM (Border-Enhanced Mesh) -一种用于片上网络的网格型拓扑结构。BEAM使用集中，而只需要低基数路由器。因此，附加资源被连接到常规网格的外部边界。因此，总体带宽与硬件开销相权衡。综上所述，仿真和综合结果表明，传统的网状网络由于其通信性能而脱颖而出，而聚类和集中拓扑提供了最小的硬件开销。BEAM介于两者之间，是平衡硬件成本和通信性能的一种选择。

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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2010 13th Euromicro Conference on Digital System Design: Architectures, Methods and Tools

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