Voltage-Boosted某个

Proceedings of the 25th edition on Great Lakes Symposium on VLSI Pub Date : 2015-05-20 DOI:10.1145/2742060.2742075

Yaoqiang Li, P. Chuang, A. Kennings, M. Sachdev

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引用次数: 0

摘要

在一定的平均故障间隔时间(MTBF)下，同步器的亚稳态分辨时间可能会制约系统的性能。为了提高在单一低压供电环境下的亚稳态分辨率时间，提出了电压提升同步器(VBSs)，该同步器由一个基本的最小尺寸门闩锁紧器和一个基于开关电容的电荷泵组成。电荷泵的电容尺寸是门框闩锁面积的13倍。提出了两种电荷泵的供电策略:亚稳态驱动VBS (Metastability-driven VBS)和时钟驱动VBS (Clock-driven VBS)。在1年的MTBF规格下，MVBS和CVBS的性能分别是基本门闩的2.0-2.7倍和5.1-9.8倍，且功耗不高。

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Voltage-Boosted Synchronizers

With a specified Mean Timing Between Failure (MTBF), the metastability resolution time of synchronizers possibly constrains the system performance. To enhance metastability resolution time under single low-voltage supply environments, Voltage-Boosted Synchronizers (VBSs) consisting of a basic minimum-sized Jamb latch and a switched-capacitor-based charge pump are proposed. The capacitor of the charge pump is sized 13 times the area of the Jamb latch. Two powering strategies of the charge pump, namely Metastability-driven VBS (MVBS) and Clock-driven VBS (CVBS), are proposed. For a 1-year MTBF specification, MVBS and CVBS show 2.0-2.7 and 5.1-9.8 times the performance improvement over the basic Jamb latch, respectively, without incurring large power consumption.

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Proceedings of the 25th edition on Great Lakes Symposium on VLSI

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