Design of fault tolerant algorithm for network on chip router using field programmable gate array

Priti Shahane, Rakhi Kurup
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引用次数: 0

Abstract

Many internet protocol (IP) modules are present in contemporary system on chips (SoCs). This could provide an issue with interconnection among different IP modules, which would limit the system's ability to scale. Traditional bus-based SoC architectures have a connectivity bottleneck, and network on chip (NoC) has evolved as an embedded switching network to address this issue. The interconnections between various cores or IP modules on a chip have a significant impact on communication and chip performance in terms of power, area latency and throughput. Also, designing a reliable fault tolerant NoC became a significant concern. In fault tolerant NoC it becomes critical to identify faulty node and dynamically reroute the packets keeping minimum latency. This study provides an insight into a domain of NoC, with intention of understanding fault tolerant approach based on the XY routing algorithm for 4×4 mesh architecture. The fault tolerant NoC design is synthesized on Field programmable gate array (FPGA).
利用现场可编程门阵列设计芯片网络路由器容错算法
当代芯片上系统(SoC)中有许多互联网协议(IP)模块。这可能会造成不同 IP 模块之间的互连问题,从而限制系统的扩展能力。传统的基于总线的 SoC 架构存在连接瓶颈,为解决这一问题,片上网络(NoC)作为嵌入式交换网络得到了发展。芯片上各种内核或 IP 模块之间的互连在功耗、区域延迟和吞吐量方面对通信和芯片性能有重大影响。此外,设计可靠的容错 NoC 也是一个重要问题。在容错 NoC 中,识别故障节点并动态重新路由数据包以保持最小延迟变得至关重要。本研究深入探讨了 NoC 领域,旨在了解基于 4×4 网状架构 XY 路由算法的容错方法。容错 NoC 设计是在现场可编程门阵列 (FPGA) 上合成的。
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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CiteScore
1.50
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