使用多vt库的功率降低技术

Fifth International Workshop on System-on-Chip for Real-Time Applications (IWSOC'05) Pub Date : 2005-07-20 DOI:10.1109/IWSOC.2005.92

Meeta Srivastav, S. Rao, Himanshu Bhatnagar

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引用次数: 12

摘要

在DSM技术中，电池的泄漏功耗变得非常重要。由于泄漏功率的显著增加，应该在设计流程的早期采取一些措施来减少泄漏功率，而不是在以后才意识到这一点，或者通过增加迭代次数来增加上市时间，或者通过使用昂贵的包装来增加生产成本。我们在设计中探索了各种降低泄漏功率的方法，并推荐了一种多电压的方法。我们对130纳米和90纳米技术的测试设计进行了多重vt方法分析。我们还强调了在典型的ASIC设计流程中如何以及在何处有效地应用这种方法的方法。我们将我们的结果与所有其他方法进行了比较，并证明与普通方法相比，泄漏功率平均减少了近4.9倍，而不会对速度甚至面积造成任何损失。

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Power reduction technique using multi-Vt libraries

In DSM technology leakage power dissipation in a cell becomes significant. Due to this significant rise in leakage power some measures should be taken quite early in the design flow to reduce it rather than realizing it later and either increasing the time to market by increasing the number of iterations or increasing the cost of production by using costly packaging. We have explored various ways of reducing leakage power in the design and recommended one, the multi-Vt approach. We have carried out analysis using multi-Vt approach over a test design on 130nm and 90nm technology. We have also highlighted on ways of how and where to apply this approach effectively in a typical ASIC design flow. We compare our results with all other approaches and demonstrate an average reduction in leakage power by almost 4.9 times compared to normal approaches without paying any penalty for speed or even area.

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Fifth International Workshop on System-on-Chip for Real-Time Applications (IWSOC'05)

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