低功耗高性能移动逻辑和内存接口的设计注意事项

2008 IEEE Asian Solid-State Circuits Conference Pub Date : 2008-12-12 DOI:10.1109/ASSCC.2008.4708764

R. Palmer, J. Poulton, A. Fuller, J. Chen, J. Zerbe

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引用次数: 12

摘要

基于在90 nm CMOS上演示的14 mW、6.25 Gb/s收发器测试芯片的结果，本文重点介绍了低功耗、高性能移动存储器和逻辑接口的设计考虑。实现2.25 mW/Gbps的关键之一是高灵敏度、低偏移的接收器。精确的接收器可以实现低摆幅信号，并且需要更少的功率和发射机的面积。较小的收发器设计反过来又降低了时钟分配功率，并通过分别减少时钟和信道的负载来提高信号质量。改进的信号质量使更低的信号摆动和良好的螺旋继续。本文详细研究了这些方面，并讨论了它们对未来低功耗、高性能移动接口设计的潜在影响。

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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Design considerations for low-power high-performance mobile logic and memory interfaces

This paper highlights design considerations for low-power, high-performance mobile memory and logic interfaces, based on the results from the 14 mW, 6.25 Gb/s transceiver test chip demonstrated in 90 nm CMOS. One of the keys to achieving 2.25 mW/Gbps was the highly-sensitive, low-offset receiver. An accurate receiver enables low-swing signaling and requires less power and area from the transmitter. The smaller transceiver design in turn lowers the clock distribution power and improves the signal quality by presenting less loading to the clock and the channel, respectively. The improved signal quality enables even lower signal swing and a ldquospiral of goodnessrdquo continues. This paper examines these aspects in detail and discusses their potential implications to a broad spectrum of future low-power, high-performance mobile interface designs.

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来源期刊

2008 IEEE Asian Solid-State Circuits Conference

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