A Femto/Pico-Watt Feedforward Leakage Self-Suppression Logic Family in 180 nm to 28 nm Technologies

2019 IEEE 62nd International Midwest Symposium on Circuits and Systems (MWSCAS) Pub Date : 2019-08-01 DOI:10.1109/MWSCAS.2019.8885086

J. P. Cerqueira, Jieyu Li, Jiangyi Li, Weifeng He, Mingoo Seok

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Abstract

We present a novel logic family, titled feedforward leakage self-suppression logic (FLSL), for nanowatt and sub-nanowatt always-on circuits. It addresses the prohibitively long delay of existing ultra-low leakage logic families without requiring sleep or mode control signals to exercise the leakage-suppression mode. Implemented in 180-nm CMOS, the proposed logic family achieves femto-watt per-gate leakage and a fan-out-of-4 (FO4) delay of 10.2 µs, a remarkable speed enhancement of 150X over the prior art in the same process in the same leakage level. We also investigate the impact of technology scaling by designing the FLSL logic family additionally in 65-nm and 28-nm processes. In a 28-nm process, the FLSL can achieve about 70 ns FO4 delay and 10 picowatts per-gate leakage. Finally, we prototype a finite impulse response filter core for physical sensing systems in a 180 nm. The filter can achieve the power consumption of 109 picowatts for sparse, i.e., predominantly constant or slowly changing, input signals at 1 kHz clock frequency.

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180nm至28nm技术的Femto/Pico-Watt前馈泄漏自抑制逻辑系列

我们提出了一种新的逻辑族，称为前馈泄漏自抑制逻辑(FLSL)，用于纳米瓦和亚纳米瓦的常开电路。它解决了现有超低泄漏逻辑系列的超长延迟，而不需要睡眠或模式控制信号来行使泄漏抑制模式。在180纳米CMOS中实现，所提出的逻辑系列实现了飞瓦特每栅极泄漏和10.2µs的4扇出(FO4)延迟，在相同的泄漏水平下，在相同的工艺中，速度比现有技术显著提高了150倍。我们还通过在65纳米和28纳米工艺中设计FLSL逻辑家族来研究技术缩放的影响。在28纳米工艺中，FLSL可以实现约70 ns的FO4延迟和每栅极10皮瓦的泄漏。最后，我们制作了一个用于180nm物理传感系统的有限脉冲响应滤波器芯原型。对于1 kHz时钟频率的稀疏输入信号，即主要恒定或缓慢变化的输入信号，该滤波器可以实现109皮瓦的功耗。

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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2019 IEEE 62nd International Midwest Symposium on Circuits and Systems (MWSCAS)

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