快速低能耗复杂数字电路的亚阈值布局策略

IF 1.6 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Low Power Electronics and Applications Pub Date : 2022-08-02 DOI:10.3390/jlpea12030043

Jordan Morris, Pranay Prabhat, James Myers, A. Yakovlev

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引用次数: 0

摘要

这项工作提出了由几何STI间隔图案化为大块平面CMOS技术节点创建的亚阈值标准单元库的复杂电路。性能/泄漏粒度增强在侵略性电压缩放方案中提供了更安全的多vt合成。库通过32位数据路径128位AES内核的实现在硅中进行评估。与最先进的亚阈值库相比，模内标称温度(20°C)分析显示，频率和每周期能量分别提高了8.65×/24% MEP-to-MEP。研究表明，温度与性能增强的负相关关系超出了电池水平，并延伸到更复杂的设计中。在0°C至85°C的温度范围内，MEP-to-MEP性能增强和每循环能量降低。

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A Subthreshold Layout Strategy for Faster and Lower Energy Complex Digital Circuits

This work presents complex circuitry from subthreshold standard cell libraries created by geometric STI spacer patterning for bulk planar CMOS technology nodes. Performance/leakage granularity enhancement affords safer multi-Vt synthesis in aggressive voltage scaling schemes. Libraries are evaluated in silicon through implementation of 32-bit datapath 128-bit AES cores. Intra-die nominal temperature (20 °C) analysis reveals improvements of up to 8.65×/24% MEP-to-MEP in frequency and energy-per-cycle respectively, compared to a state-of-the-art subthreshold library. A negative temperature correlation with performance enhancement is demonstrated extending beyond the cell level and into more complex designs. MEP-to-MEP performance enhancement and energy-per-cycle reduction are demonstrated over a temperature range of 0 °C to 85 °C.

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