Assessing Routing Behavior on On-Chip-Network

2006 International Conference on Computer Engineering and Systems Pub Date : 2006-11-01 DOI:10.1109/ICCES.2006.320426

H. Nguyen, Vu-Duc Ngo, Hae-Wook Choi

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引用次数: 14

Abstract

Network-on-chip (NoC) is being proposed as a scalable and reusable communication platform for future SoC applications. An important problem in NoC design is deciding the type of routing which is one of the most crucial key factors that greatly affects the NoC architecture based systems performance. Currently, most of the proposals for routing in NoC are based upon deterministic routing mechanism because it gives better latency at low packet injection and requires less resources while guaranteeing an orderly packet arrival. However, the disadvantage of deterministic routing is that it cannot respond to dynamic network condition such as congestion. When the network becomes congested, adaptive routing provides better throughput and lower latency by allowing alternate paths. In this paper, using simulation, we evaluate the performance of adaptive routing algorithm to deterministic routing strategy respected to throughput, power consumption and latency. The simulation environment is 2D-mesh based NoC topology including different kinds of mapping video object plane decoder (VOPD) application onto this architecture. The experiment results prove the adaptive routing performance under network congestion occurrence

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评估片上网络的路由行为

片上网络(NoC)被提议作为未来SoC应用的可扩展和可重用的通信平台。NoC设计中的一个重要问题是路由类型的选择，它是影响基于NoC体系结构的系统性能的最关键因素之一。目前，大多数NoC中的路由建议都基于确定性路由机制，因为它在低数据包注入时具有更好的延迟，并且在保证数据包有序到达的同时需要更少的资源。然而，确定性路由的缺点是不能对网络拥塞等动态情况做出响应。当网络变得拥塞时，自适应路由通过允许替代路径提供更好的吞吐量和更低的延迟。在本文中，我们通过仿真来评估自适应路由算法对确定性路由策略在吞吐量、功耗和延迟方面的性能。仿真环境是基于二维网格的NoC拓扑结构，包括各种映射视频对象平面解码器(VOPD)应用到该结构上。实验结果证明了自适应路由在网络拥塞情况下的性能

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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2006 International Conference on Computer Engineering and Systems

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