超低功耗数字亚阈值操作的器件优化

B. Paul, A. Raychowdhury, K. Roy
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引用次数: 25

摘要

对于需要超低功耗和中频工作的应用,在亚阈值区域(电源电压小于晶体管阈值电压)工作的数字电路可以比标准CMOS电路具有数量级的功率优势。使用主要用于超高性能超阈值逻辑设计的标准晶体管实现亚阈值逻辑电路是可能的。然而,在超阈值范围内优化性能的Si MOSFET并不是在亚阈值领域使用的最佳器件。本文提出了适合于亚阈值操作的器件设计。结果表明,与在亚阈值区域运行的普通超阈值器件相比,优化后的器件将逆变器链的延迟和功率延迟乘积(PDP)分别提高了44%和51%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Device optimization for ultra-low power digital sub-threshold operation
Digital circuits operated in the sub-threshold region (supply voltage less than the transistor threshold voltage) can have orders of magnitude power advantage over standard CMOS circuits for applications requiring ultra-low power and medium frequency of operation. It is possible to implement sub-threshold logic circuits using the standard transistors that are designed primarily for ultra high performance super-threshold logic design. However, a Si MOSFET so optimized for performance in the super-threshold regime is not the best device to use in the sub-threshold domain. In this paper, we propose device designs apt for sub-threshold operation. Results show that the optimized device improves the delay and power delay product (PDP) of an inverter chain by 44% and 51%, respectively, over the normal super-threshold device operated in the sub-threshold region.
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