How 64 GBaud optical carriers maximize the capacity in core elastic WDM networks with fewer transponders per Gb/s

IEEE/OSA Journal of Optical Communications and Networking Pub Date : 2018-10-05 DOI:10.1364/JOCN.11.000A20

T. Zami, B. Lavigne, M. Bertolini

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引用次数: 10

Abstract

Following the extensive investigations of the research community throughout the last five years regarding transmission performance when roughly doubling the channel symbol rate in WDM systems from generic 32 GBaud to more than 60 GBaud, this evolution is about to appear in the field in the next twelve months. The general sense is that it will reduce the cost per transmitted gigabit per second (Gb/s), once the related faster optoelectronic interfaces become mature enough. This paper refines this consideration by quantifying the related transponders saving per Gb/s on three distinct backbone WDM networks equipped with elastic optoelectronic regenerators. It also reports how much extra network capacity stems from routing individual 64 GBaud subcarriers 75 GHz apart to serve connections, the capacities of which range from 100 Gb/s to 1 Tb/s. It eventually discusses the impact on the network performance when constraining the regenerators' placement along the light paths of the accommodated services or when simplifying the elastic regenerators by avoiding internal electrical traffic regrooming.

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64gbaud光载波如何在每Gb/s应答器较少的核心弹性WDM网络中最大限度地提高容量

在过去的五年中，研究团体对WDM系统中的信道符号速率从一般的32 GBaud大约翻倍到60 GBaud以上的传输性能进行了广泛的调查，这一演变将在未来12个月内出现在该领域。一般意义上，一旦相关的更快的光电接口变得足够成熟，它将降低每千兆每秒(Gb/s)传输的成本。本文通过量化配备弹性光电再生器的三种不同骨干WDM网络上每Gb/s的相关应答器节省量来细化这一考虑。它还报告了有多少额外的网络容量来自于将64 GBaud子载波分开75 GHz来提供连接，其容量范围从100 Gb/s到1 Tb/s。最后讨论了当限制再生器沿所容纳业务的光路放置或通过避免内部电流量重整来简化弹性再生器时对网络性能的影响。

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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IEEE/OSA Journal of Optical Communications and Networking

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