Elastic optical networking in the microsoft cloud [Invited]

IEEE/OSA Journal of Optical Communications and Networking Pub Date : 2016-07-01 DOI:10.1364/JOCN.8.000A45

M. Filer, J. Gaudette, Monia Ghobadi, Ratul Mahajan, Tom Issenhuth, Buddy Klinkers, J. Cox

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引用次数: 42

Abstract

To keep pace with the tremendous bandwidth growth in cloud networking, web-scale providers, such as Microsoft, have been quick to adopt elastic features of modern optical networks. In particular, colorless flexible-grid reconfigurable optical add-drop multiplexers, bandwidth-variable transceivers, and the ability to choose a variety of optical source types are integral for cloud network operators to improve network efficiency while supporting a variety of service types. We take an in-depth look at Microsoft's deployed network infrastructure and discuss the impact of elasticity on network capacity and flexibility. As a proof-of-concept, a new elastic open line system (OLS), in which the line system components and the signal sources are disaggregated, was assembled in a laboratory environment, and 4000 km of propagation over primarily nonzero dispersion-shifted fiber using multiple source types is demonstrated. Finally, the long-term goal of unifying the control plane of the OLS, DWDM signal sources, routers, and Ethernet switches under a single software-defined network controller is briefly addressed.

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微软云中的弹性光网络[特邀]

为了跟上云网络中带宽的巨大增长，web规模的提供商，如微软，已经迅速采用了现代光网络的弹性特性。特别是，无色柔性网格可重构光接多路复用器、带宽可变收发器以及选择多种光源类型的能力是云网络运营商在支持多种业务类型的同时提高网络效率所不可或缺的。我们将深入了解微软部署的网络基础设施，并讨论弹性对网络容量和灵活性的影响。作为概念验证，在实验室环境中组装了一种新的弹性开放线路系统(OLS)，其中线路系统组件和信号源被分解，并演示了使用多种源类型在主要非零色散位移光纤上传输4000公里。最后，简要介绍了将OLS、DWDM信号源、路由器和以太网交换机的控制平面统一在一个软件定义网络控制器下的长期目标。

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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来源期刊

IEEE/OSA Journal of Optical Communications and Networking

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