IO接口，可实现25Gbps以上的低功耗操作

IEEE CPMT Symposium Japan 2014 Pub Date : 2014-11-01 DOI:10.1109/ICSJ.2014.7009615

K. Otsuka, F. Fujii, Y. Akiyama, K. Hashimoto

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引用次数: 5

摘要

最近的云计算通信强烈要求比当前的带宽宽一个数量级，例如在SerDes和Interlaken协议中超过28Gbps。因此，IO收发技术成为关键问题之一。一般来说，由于CMOS晶体管和寄生电容与fCV^2有关，这些高带宽IO系统消耗相对较高的功率。另一个问题是发射机需要驱动母板或插件板的长接线。一些自适应均衡器和定时调整电路必须在IO电路中实现，随后需要消耗功率。我们的研究目标是即使在超过28Gbps的带宽下，也能将功耗节省到目前的四分之一。关键是实现从芯片设计到板设计和开路电路系统的平衡并行设计。这些将在这里提到。

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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IO interface for over 25Gbps operation with low power

Recent communication for cloud computing strongly requires one order magnitude wider bandwidth than current one, such as over 28Gbps in SerDes and Interlaken protocols. So the technology of IO transmitter and receiver becomes to one of key issues. In generally, those high bandwidth IO systems consume relative high power due to relate with fCV^2 by CMOS transistor and parasitic capacitances. Additional problem is that the transmitter needs to drive long wiring of mother board or plug-in board. Some adaptive equalizer and timing adjust circuits must be implemented in the IO circuit that subsequently requires power consumption. Our research has been aimed to save to quarter times power of current ones even in over 28Gbps band width operation. The key was for balanced concurrent design from chip design to board design and open termination circuit system. These will be mentioned here.

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IEEE CPMT Symposium Japan 2014

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