Characterization and modeling of run-time techniques for leakage power reduction

Yuh-Fang Tsai; Duarte D.E.; Vijaykrishnan N.; Irwin M.J.

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Characterization and modeling of run-time techniques for leakage power reduction

机译：减少泄漏功率的运行时技术的表征和建模

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While some leakage power reduction techniques require modification of the process technology, others are based on circuit-level optimizations and are applied at run-time. We focus our study on the latter and compare three techniques: input vector control, body bias control, and power supply gating. We determine their limits and benefits in terms of the potential leakage reduction, performance penalty, and area and power overhead. The leakage power savings trends considering technology scaling are also presented. Due to the differences in the properties of datapath logic and memory structures, different implementations are recommended. Finally, the use of the "minimum idle time" parameter, as a metric for evaluating different leakage control mechanisms, is shown.

机译：虽然某些降低泄漏功率的技术需要修改工艺技术，但其他技术则基于电路级的优化并在运行时应用。我们将重点放在后者上，并比较三种技术：输入矢量控制，主体偏置控制和电源门控。我们根据减少的潜在泄漏，性能损失以及面积和功率开销确定其极限和优势。还介绍了考虑技术扩展的节省功耗的趋势。由于数据路径逻辑和存储器结构的属性不同，因此建议采用不同的实现方式。最后，显示了“最小空闲时间”参数的使用，作为评估不同泄漏控制机制的度量。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2004年第11期|p.1221-1233|共13页
作者
Yuh-Fang Tsai; Duarte D.E.; Vijaykrishnan N.; Irwin M.J.;
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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
VLSI; circuit optimisation; integrated circuit modelling; leakage currents; logic circuits; threshold logic; body bias control; circuit level optimization; datapath logic; input vector control; leakage control mechanisms; leakage power reduction; memory structures; p;

机译：VLSI;电路优化;集成电路建模;漏电流;逻辑电路;阈值逻辑;体偏置控制;电路电平优化;数据路径逻辑;输入矢量控制;泄漏控制机制;泄漏功率降低;存储器结构;p;

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Characterization and modeling of run-time techniques for leakage power reduction

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