功率模拟器输入数据压缩的自适应模型

Proceedings of ASP-DAC '97: Asia and South Pacific Design Automation Conference Pub Date : 1997-01-28 DOI:10.1109/ASPDAC.1997.600263

R. Marculescu, Diana Marculescu, Massoud Pedram

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引用次数: 30

摘要

提出了一种有效的鲁棒技术，可以将大量输入向量压缩成一个更小的输入序列，从而将电路/门级仿真时间减少几个数量级，并保持功率估计的准确性。特别地，本文介绍并描述了一组动态马尔可夫树，它可以对组合电路和顺序电路中功率估计过程中出现的复杂时空相关性进行建模。结果表明，在功率估计精度没有显著损失(平均小于5%)的情况下，可以获得1-2个数量级的大压缩比。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Adaptive models for input data compaction for power simulators

Presents an effective and robust technique for compacting a large sequence of input vectors into a much smaller input sequence so as to reduce the circuit/gate-level simulation time by orders of magnitude and maintain the accuracy of the power estimates. In particular, this paper introduces and characterizes a family of dynamic Markov trees that can model complex the spatiotemporal correlations which occur during power estimation in both combinational and sequential circuits. As the results demonstrate, large compaction ratios of 1-2 orders of magnitude can be obtained without a significant loss (less than 5% on average) in the accuracy of the power estimates.

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Proceedings of ASP-DAC '97: Asia and South Pacific Design Automation Conference

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