Design Methodology for Voltage-Overscaled Ultra-Low-Power Systems

Jeon D.; Seok M.; Zhang Z.; Blaauw D.; Sylvester D.

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Design Methodology for Voltage-Overscaled Ultra-Low-Power Systems

机译：电压超标超低功耗系统的设计方法

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This paper proposes a design methodology for voltage overscaling (VOS) of ultra-low-power systems. This paper first proposes a probabilistic model of the timing error rate for basic arithmetic units and validates it using both simulations and silicon measurements of multipliers in 65-nm CMOS. The model is then applied to a modified K-best decoder that employs error tolerance to reveal the potential of the framework. With simple modifications and timing error detection-only circuitry, the conventional K-best decoder improves its error tolerance in child node expansion modules by up to 30% with less than 0.4-dB SNR degradation. With this error tolerance, the supply voltage can be overscaled by 12.1%, leading to 22.5% energy savings.

机译：本文提出了一种超低功耗系统的电压超标（VOS）设计方法。本文首先提出了基本算术单元时序误差率的概率模型，并通过仿真和65nm CMOS乘法器的硅测量对其进行了验证。然后将该模型应用于经过修改的K-best解码器，该解码器采用了容错功能以揭示框架的潜力。通过简单的修改和仅定时错误检测电路，传统的K-best解码器将其在子节点扩展模块中的错误容忍度提高了30％，而SNR下降不到0.4dB。凭借这种误差容限，电源电压可以超标12.1％，从而节省22.5％的能源。

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来源
《Circuits and Systems II: Express Briefs, IEEE Transactions on》 |2012年第12期|p.952-956|共5页
作者
Jeon D.; Seok M.; Zhang Z.; Blaauw D.; Sylvester D.;
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Department of Electrical Engineering and Computer Science, University of Michigan, Ann Arbor, MI, USA;

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正文语种 eng
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关键词
Decoding; Delays; Error analysis; Integrated circuit modeling; Low power electronics; Low voltage; Pipeline processing; Error-tolerant system; K-best decoder; low-power circuit design; voltage overscaling;

机译：解码;延误;错误分析;集成电路建模;低功耗电子产品;低电压;管道加工;容错系统;K最佳解码器;低功耗电路设计;电压超标;

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Design Methodology for Voltage-Overscaled Ultra-Low-Power Systems

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