第6部分概述:超高速电缆:电缆小组委员会

2016 IEEE International Solid-State Circuits Conference (ISSCC) Pub Date : 2018-02-01 DOI:10.1109/ISSCC.2018.8310203

M. Meghelli, Hyeon-Min Bae, F. O’Mahony

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引用次数: 0

摘要

高速串行I/ o继续为每一代新系统提供更高的带宽和密度，这使得数据中心的扩展成为可能，这是由一个日益互联和数字化的世界所推动的。本次会议首先介绍了两个低功耗发射机，演示了使用PAM-4调制的数据速率为112Gb/s，两者都采用先进的CMOS FinFet技术实现。接着介绍了采用14nm CMOS FinFET技术设计的多标准4通道1.25至28.05 gb /s收发器，在6pJ/b的功率效率下支持高达40dB的通道损耗。接下来介绍了三篇描述PAM-4收发器的论文，其中两篇采用16nm CMOS FinFET技术实现，目标分别是56Gb/s和64Gb/s的长距离链路，另一篇采用28nm CMOS FDSOI实现，目标是64Gb/s的短距离链路。最后，会议以一篇介绍采用65nm CMOS技术实现的4.16pJ/b 32Gb/s PAM-4收发器的论文结束。

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Session 6 overview: Ultra-high-speed wireline: Wireline subcommittee

High-speed serial I/Os continue to be pushed to higher bandwidth and density for every new generation of systems, which enable the scaling of data centers, fueled by a world that is becoming increasingly connected and digital. This session starts with the presentation of two low-power transmitters demonstrating a data rate of 112Gb/s using PAM-4 modulation, both implemented in advanced CMOS FinFet technologies. It continues with a presentation of a multi-standard 4-lane 1.25-to-28.05Gb/s transceiver designed in 14nm CMOS FinFET technology and supporting up to 40dB of channel loss at a power efficiency of 6pJ/b. Three papers describing PAM-4 transceivers are presented next, two implemented in 16nm CMOS FinFET technology targeting long reach links at 56Gb/s and 64Gb/s respectively, and one implemented in 28nm CMOS FDSOI targeting 64Gb/s short reach links. Finally, the session concludes with a paper describing a 4.16pJ/b 32Gb/s PAM-4 transceiver implemented in 65nm CMOS technology.

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2016 IEEE International Solid-State Circuits Conference (ISSCC)

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