基于FPGA的片上网络系统级设计的多时钟混合两层路由器架构和集成拓扑综合框架

21st International Conference on VLSI Design (VLSID 2008) Pub Date : 2008-01-04 DOI:10.1109/VLSI.2008.79

A. Janarthanan, K. Tomko

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引用次数: 6

摘要

针对fpga的复杂片上系统设计需要复杂的通信架构来支持大量高性能应用。在本研究中，我们为基于FPGA的noc实现了一种混合两层路由器架构，并通过表征网络组件库(Mo-Clib)来量化其面积和性能权衡。高级路由器架构的VHDL和SystemC模型的结果显示，NoC带宽平均提高了20.4%(与传统NoC相比，最大提高了24%)。作为CAD流程的一部分，我们开发了一种算法，该算法利用上述NoC框架，并在自动NoC拓扑合成阶段将带宽容量和面积作为成本。一组实际应用和合成基准测试的实验结果表明，与基线方法相比，在同等带宽约束下，FPGA面积平均减少21.6%(最大减少26%)。

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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MoCSYS: A Multi-Clock Hybrid Two-Layer Router Architecture and Integrated Topology Synthesis Framework for System-Level Design of FPGA Based On-Chip Networks

Complex system-on-chip designs targeted for FPGAs merit sophisticated communication architectures to support a host of high performance applications. In this research we implement a hybrid two-layer router architecture for FPGA based NoCs and quantify its area and performance tradeoffs by characterizing a network component library (Mo-Clib). Results from the VHDL and SystemC models of the advanced router architecture show an average improvement of 20.4% in NoC bandwidth (maximum of 24% compared to a traditional NoC). As a part of the CAD flow, we develop an algorithm that utilizes the above NoC framework and includes bandwidth capacity and area as a cost during an automatic NoC topology synthesis phase. Experimental results for a set of real applications and synthetic benchmarks show an average reduction of 21.6% in FPGA area (maximum of 26%) for equivalent bandwidth constraints when compared with a baseline approach.

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21st International Conference on VLSI Design (VLSID 2008)

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