A process variation compensating technique with an on-die leakage current sensor for nanometer scale dynamic circuits

Kim C.H.; Roy K.; Hsu S.; Krishnamurthy R.; Borkar S.

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A process variation compensating technique with an on-die leakage current sensor for nanometer scale dynamic circuits

机译：用于纳米级动态电路的带有片上漏电流传感器的过程变化补偿技术

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This paper describes a process compensating dynamic (PCD) circuit technique for maintaining the performance benefit of dynamic circuits and reducing the variation in delay and robustness. A variable strength keeper that is optimally programmed based on the die leakage, enables 10% faster performance, 35% reduction in delay variation, and 5/spl times/ reduction in the number of robustness failing dies, compared to conventional designs. A new leakage current sensor design is also presented that can detect leakage variation and generate the keeper control signals for the PCD technique. Results based on measured leakage data show 1.9-10.2/spl times/ higher signal-to-noise ratio (SNR) and reduced sensitivity to supply and p-n skew variations compared to prior leakage sensor designs.

机译：本文介绍了一种过程补偿动态（PCD）电路技术，该技术可保持动态电路的性能优势并减少延迟和鲁棒性的变化。与传统设计相比，基于冲模泄漏进行最佳编程的可变强度保持器可以使性能提高10％，延迟变化降低35％，而耐用性失败的冲模数量减少5 / spl次。还提出了一种新的泄漏电流传感器设计，可以检测泄漏变化并为PCD技术生成保持器控制信号。与先前的泄漏传感器设计相比，基于测得的泄漏数据的结果显示出1.9-10.2 / spl次/更高的信噪比（SNR）以及对电源和p-n偏斜变化的敏感性降低。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2006年第6期|p.646-649|共4页
作者
Kim C.H.; Roy K.; Hsu S.; Krishnamurthy R.; Borkar S.;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
CMOS digital integrated circuits; VLSI; compensation; electric sensing devices; leakage currents; microprocessor chips; CMOS digital integrated circuits; VLSI; current sensors; keeper control signals; leakage currents; microprocessors; nanometer scale dynamic circui;

机译：CMOS数字集成电路;VLSI;补偿;电传感器件;漏电流;微处理器芯片;CMOS数字集成电路;VLSI;电流传感器;保持器控制信号;漏电流;微处理器;纳米级动态电路;

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2. Supply Switching With Ground Collapse: Simultaneous Control of Subthreshold and Gate Leakage Current in Nanometer-Scale CMOS Circuits [J] . Shin Y., Heo S., Kim H.-O., IEEE transactions on very large scale integration (VLSI) systems . 2007,第7期

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5. Variation-aware and aging-aware design tools and techniques for nanometer-scale integrated circuits. [D] . Gupta, Saket. 2012

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A process variation compensating technique with an on-die leakage current sensor for nanometer scale dynamic circuits

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