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面向AI基础设施的光互连

活动介绍

随着AI基础设施的快速发展，支持大型语言模型（如ChatGPT）的需求不断增长，网络解决方案必须在容量和速度上同步扩展。传输速率和I/O带宽的提升加速了研发周期，数通行业目前聚焦于200Gbps每通道的开发，并已经开始探索能够满足400Gbps每通道应用需求的下一代技术。

在本次网络研讨会中，行业专家将深入探讨光信号波特率向100G和200G波特升级所面临的技术挑战，特别是使用强度调制与直接检测（IM-DD）的光互连技术。尽管直调直检仍然是数据中心网络中性价比最高的方案，但在这些高速率下保持和过去一样的光纤链路距离的难度大幅增加。需要从所有可能的技术维度进行创新和研究来使能下一代光互连解决方案，本次研讨则将视线投向传递光信号的媒介：光纤链路和信道。

我们特别邀请世界顶尖光缆厂商CommScope的数据中心架构总监，分享支持下一代光互连的光纤技术进展和标准化趋势，解析新的光纤标准如何帮助行业在实现200Gbps/通道（适用于多模光纤MMF和单模光纤SMF）以及400Gbps（适用于SMF）时，确保光互连的链路稳定性和频谱效率的不断演进。

欢迎加入我们，共同了解面向AI基础设施的光互连技术发展趋势及光纤的创新。

时间/参与方式

时间：北京时间11月26日上午9:00-10:00

参与方式：线上

报名成功后请注意查看邮箱，后续发送参会链接。

演讲嘉宾

Earl Parsons博士，

CommScope数据中心架构总监

演讲者：Earl Parsons博士

简介：Earl Parsons博士是CommScope公司数据中心架构演进部门的总监。2014年，他作为主任光学工程师加入CommScope。在此之前，Parsons博士获得了亚利桑那大学光学科学的硕士和博士学位，并曾在TE SubCom（前身为Tyco Telecommunications）担任高级技术员。Parsons博士还担任过IEEE 802.3db-2022标准的编辑。他的研究方向包括面向人工智能数据中心应用的多模和单模光纤系统。

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米光灿，

华为主任工程师

主持人：米光灿

简介：米光灿是华为技术有限公司以太网实验室的主任工程师。她于2016年获得硅光子学与等离子体学博士学位，专注于光互连技术和标准的研究，积累了丰富的行业经验。她的研究兴趣涵盖从光收发器到光交换技术的各个方面，关注的应用场景则包括数据中心网络和电信/运营商系统。目前，她的工作重点是200G/通道光互连技术和标准的研究。

题目：面向未来网络的单模和多模光纤

本次会议将是系列活动的首场，旨在探讨如何利用光互连技术解决智算行业不断演进的网络带宽需求，也希望能够为光互连技术讨论和交流提供平台。

The Future of Optical Interconnects for AI Infrastructure

As AI infrastructure expands rapidly to support the development of large language models like ChatGPT, networking solutions must scale in both capacity and speed. The rise in lane rates and I/O bandwidth is driving faster R&D cycles, with the industry now focusing on 200G/lane development and exploring 400G/lane for future needs.

In this webinar, industry experts will explore how the shift to 100G and 200G baud signaling rates poses new challenges for optical interconnect technologies, particularly using Intensity Modulation with Direct Detection (IM-DD). Although IM-DD remains the most cost-effective option for data center networking, maintaining and extending optical link reaches at these high rates is becoming increasingly difficult.

Our speakers will discuss key advancements in fiber technology and standardization that could support the next generation of optical interconnects. They will provide valuable insights into how new fiber specifications could help maintain the efficiency and performance of optical links as industry moves towards 200Gbps/lane with multimode fiber (MMF) and single-mode fiber (SMF), and 400Gbps with SMF.

Join us to understand the evolving landscape of optical interconnect and the fiber innovations that will power the AI-driven future.

Speakers:

Guangcan Mi, Principal Engineer, Huawei

Earl Parsons, Director of Data Center Architecture Evolution, CommScope

This session is the first in a planned series addressing the industry's evolving optical networking needs, providing a platform for ongoing discussions around technological advancements.

Moderator: Guangcan Mi

Bio: Guangcan Mi is Principal Engineer in Ethernet Lab of Huawei Technologies Co., Ltd. Shereceived her PhD in Silicon Photonic and Plasmonics in 2016. She has since focused her career on optical interconnect technologies and standards. Her expertise spans from optical transceiver to optical switching, for applications of data center networks and telecommunications/carrier systems. Currently her work is concentrated on the development of 200G/lane optical interconnect technologies and standards, with a particular focus on IEEE 802.3df and 802.3dj.

Speaker :Earl Parsons

Bio: Dr. Earl Parsons is the Director of Data Center Architecture Evolution at CommScope. He joined CommScope in 2014 as a Principal Optical Engineer.

Prior to joining CommScope, Earl received an MS and PhD in optical sciences from the University of Arizona and was a Senior Member of Technical Staff at TE SubCom, formerly known as Tyco Telecommunications. Dr. Parsons also served as an editor of the IEEE 802.3db-2022 standard. His interests include multimode and single mode fiber optic systems to enable artificial intelligence data centers.

Title: Single Mode and Multimode Fiber for Future Networks

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