FeRoNoC:灵活和可扩展的对角网格拓扑路由器实现

Proceedings of the 2011 Conference on Design & Architectures for Signal & Image Processing (DASIP) Pub Date : 2011-11-01 DOI:10.1109/DASIP.2011.6136890

M. Elhaji, Brahim Attia, A. Zitouni, R. Tourki, S. Meftali, J. Dekeyser

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引用次数: 9

摘要

片上网络(noc)可以提高复杂soc的一系列性能标准，如可扩展性、灵活性和适应性。然而，NoC的性能与其拓扑结构密切相关。直径和平均距离是影响性能和实现的重要因素。所提出的对角网格拓扑结构旨在提供硬件成本和理论服务质量(QoS)之间的良好权衡。它可以包含大量的节点，而不改变最大直径为2。在本文中，我们提出了一种名为FeRoNoC(灵活的，可扩展的路由器NoC)的新路由器架构及其对角网格拓扑的寄存器传输级(RTL)硬件实现。我们的NoC架构是基于一个灵活的、可扩展的路由器，它由分组交换技术和确定性路由算法组成。利用virtex5 FPGA实现证明了所提出拓扑的有效性和性能。对所提出的NoC结构与其他拓扑结构的性能进行了比较研究。

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FeRoNoC: Flexible and extensible Router implementation for diagonal mesh topology

Networks on Chip (NoCs) can improve a set of performances criteria, in complex SoCs, such as scalability, flexibility and adaptability. However, performances of a NoC are closely related to its topology. The diameter and average distance represent an important factor in term of performances and implementation. The proposed diagonal mesh topology is designed to offer a good tradeoff between hardware cost and theoretical quality of service (QoS). It can contain a large number of nodes without changing the maximum diameter which is equal to 2. In this paper, we present a new router architecture called FeRoNoC (Flexible, extensible Router NoC) and its Register Transfer Level (RTL) hardware implementation for the diagonal mesh topology. The architecture of our NoC is based on a flexible and extensible router which consists of a packet switching technique and deterministic routing algorithm. Effectiveness and performances of the proposed topology have been shown using a virtex5 FPGA implementation. A comparative performances study of the proposed NoC architecture with others topology is performed.

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Proceedings of the 2011 Conference on Design & Architectures for Signal & Image Processing (DASIP)

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