Exploitation of optical interconnects in future server architectures

A. Benner, Mike Ignatowski, J. Kash, D. Kuchta, M. Ritter
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引用次数: 428

Abstract

Optical fiber links have become ubiquitous for links at the metropolitan and wide area distance scales, and have become common alternatives to electrical links in local area networks and cluster networks. As optical technology improves and link frequencies continue to increase, optical links will be increasingly considered for shorter, higher-bandwidth links such as I/O, memory, and system bus links. For these links closer to processors, issues such as packaging, power dissipation, and components cost assume increasing importance along with link bandwidth and link distance. Also, as optical links move steadily closer to the processors, we may see significant differences in how servers, particularly high-end servers, are designed and packaged to exploit the unique characteristics of optical interconnects. This paper reviews the various levels of a server interconnect hierarchy and the current status of optical interconnect technology for these different levels. The potential impacts of optical interconnect technology on future server designs are also reviewed.
光互连在未来服务器架构中的应用
光纤链路在城域和广域距离尺度上已经变得无处不在,并且已经成为局域网和集群网络中电气链路的常见替代品。随着光技术的进步和链路频率的不断提高,越来越多的应用于I/O、内存、系统总线等较短、带宽较高的链路。对于这些距离处理器较近的链路,随着链路带宽和链路距离的增加,封装、功耗和组件成本等问题变得越来越重要。此外,随着光链路稳步靠近处理器,我们可能会看到服务器,特别是高端服务器的设计和封装方式的显著差异,以利用光互连的独特特性。本文综述了服务器互连结构的各个层次以及各个层次的光互连技术的现状。光互连技术对未来服务器设计的潜在影响也进行了回顾。
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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