共享缓冲光电分组路由器的特性

Shunyuan Ye, M. Thottan, J. Simsarian, S. Panwar
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引用次数: 1

摘要

互联网流量的快速增长迫使分组路由器增加容量以满足需求。具有更少的缓冲和更高程度的光学透明度的光分组路由器正在积极研究,作为一种提高能源效率和容量扩展的方法,而不是传统的电子路由器。由于在光域中很难对数据包进行缓冲,本文分析了一种混合型光电分组路由器的性能。路由器架构有多个光交换平面和一个共享的电子缓冲器来解决输出端口的争用。通过在交换平面上为每条输入和输出光纤使用多个端口,并使用一些交换平面的端口将交换平面互连,可以在没有缓冲区的路由器中实现相对较低的丢包率。在这种情况下,大多数流量可以只使用路由器的直通光路进行交换,而不需要进入共享缓冲区。共享电子缓冲器主要用于减少重负载时期的丢包率,偶尔用于包的光再生。我们进行了大量的模拟,以评估具有不同数量的交换平面端口,连接到电子缓冲区的数量以及交换平面之间互连数量的路由器的性能。我们证明了该路由器可以提供良好的吞吐量,具有真实的开关突发流量和异步数据包到达。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of a shared buffer optoelectronic packet router
The rapid increase in Internet traffic is forcing packet routers to grow in capacity to meet the demand. Optical packet routers with less buffering and a greater degree of optical transparency are actively being researched as a way to improve energy efficiency and capacity scaling over traditional electronic routers. Since it is difficult to buffer packets in the optical domain, in this paper we analyze the performance of a hybrid optoelectronic packet router. The router architecture has multiple optical switch planes and a shared electronic buffer to resolve output-port contention. By using multiple ports on the switch planes for each input and output fiber, and by using some switch-plane ports to inter-connect the planes, we can achieve a relatively low packet loss ratio in a router with no buffer. In this case, most traffic can be switched using only the through optical paths of the router without entering the shared buffer. The shared electronic buffer is primarily used to reduce the packet drop ratio under periods of heavy loads and occasionally for optical regeneration of a packet.We run extensive simulations to evaluate the performance of the router with varying number of switch plane ports, number of connections to the electronic buffer, and number of interconnections between the switch planes. We show that the router can provide good throughput, with realistic on-off bursty traffic and asynchronous packet arrivals.
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