基于胞内混合vt方法的鲁棒驱动节能超低电压标准胞设计

Wenfeng Zhao, Yajun Ha, Chin Hau Hoo, A. Alvarez
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引用次数: 2

摘要

高功能产率是亚阈值标准电池设计的关键挑战之一。设备放大是一种常用但不理想的方法,因为它在能源和面积上的开销。在本文中,我们提出了一种鲁棒驱动的单元内混合电压设计方法(MVT-ULV),用于鲁棒超低电压操作。在逻辑门的弱拉网络中采用低阈值电压晶体管,增强了鲁棒性。它以最小的能量/面积开销保证了高的功能产率。我们在商用65nm CMOS工艺上证明,我们提出的设计方法在300mV电源电压下比商用库电池和在相同电池面积约束下使用以前的泄漏最小化混合vt方法(MVT-LM)构建的电池分别显示了高达60mV和110mV的鲁棒性提高。此外,在相同的产率约束下,与采用器件放大方法和以前的MVT-LM方法构建的库相比,所提出的MVT-ULV库使ITC'99基准电路的平均能效分别提高了30.1%和78.1%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robustness-driven energy-efficient ultra-low voltage standard cell design with intra-cell mixed-Vt methodology
High functional yield is one of the key challenges for subthreshold standard cell designs. Device upsizing is a commonly used but suboptimal method due to its overheads in energy and area. In this paper, we propose a robustness-driven intra-cell mixed-Vt design methodology (MVT-ULV) for the robust ultra-low voltage operation. It uses low threshold voltage transistors in the weak pulling network of logic gates to enhance the robustness. It guarantees the high functional yield with the minimum energy/area overheads. We demonstrate on a commercial 65nm CMOS process that, our proposed design methodology shows up to 60mV and 110mV robustness improvement at 300mV power supply voltage over the commercial library cells and the cells built with previous Leakage-Minimization mixed-Vt methods (MVT-LM) under the same cell area constraints, respectively. In addition, the proposed MVT-ULV library enables ITC'99 benchmark circuits to show on average 30.1% and 78.1% energy-efficiency improvement when compared to the libraries built with the device-upsizing methods and the previous MVT-LM methods under the same yield constraints, respectively.
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