通过阈值电压分配和尺寸优化实现动态和静态功率的最小化[逻辑IC设计]

Proceedings of the 2003 International Symposium on Low Power Electronics and Design, 2003. ISLPED '03. Pub Date : 2003-08-25 DOI:10.1145/871506.871545

David Nguyen, A. Davare, M. Orshansky, D. Chinnery, B. Thompson, K. Keutzer

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引用次数: 168

摘要

我们描述了一种使用双阈值电压(Vth)技术最小化总功耗的优化策略。通过同时分配Vth和栅极尺寸，可以显著节省功率。我们提出了一种基于线性规划的有效算法，该算法联合执行v值分配和栅极尺寸，以在延迟约束下最小化总功率。首先，线性规划根据功率延迟灵敏度为门分配最优的松弛量。然后，根据Vth和晶体管尺寸，通过穷举局部搜索选择最佳栅极配置。该算法的基准测试结果显示，与仅调整功耗最小化相比，该算法的功耗平均降低了32%。对于某些电路来说，可以减少57%。流量可以扩展到双电源电压库，以进一步节省电力。

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Minimization of dynamic and static power through joint assignment of threshold voltages and sizing optimization [logic IC design]

We describe an optimization strategy for minimizing total power consumption using dual threshold voltage (Vth) technology. Significant power savings are possible by simultaneous assignment of Vth with gate sizing. We propose an efficient algorithm based on linear programming that jointly performs Vth assignment and gate sizing to minimize total power under delay constraints. First, linear programming assigns the optimal amounts of slack to gates based on power-delay sensitivity. Then, an optimal gate configuration, in terms of Vth and transistor sizes, is selected by an exhaustive local search. Benchmark results for the algorithm show 32% reduction in power consumption on average, compared to sizing only power minimization. There is up to a 57% reduction for some circuits. The flow can be extended to dual supply voltage libraries to yield further power savings.

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来源期刊

Proceedings of the 2003 International Symposium on Low Power Electronics and Design, 2003. ISLPED '03.

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