MIXSyn: An efficient logic synthesis methodology for mixed XOR-AND/OR dominated circuits

2013 18th Asia and South Pacific Design Automation Conference (ASP-DAC) Pub Date : 2013-04-29 DOI:10.1109/ASPDAC.2013.6509585

L. Amarù, P. Gaillardon, G. Micheli

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引用次数: 26

Abstract

We present a new logic synthesis methodology, called MIXSyn, that produces area-efficient results for mixed XOR-AND/OR dominated logic functions. MIXSyn is a two step synthesis process. The first step is a hybrid logic optimization that enables selective and distinct optimization of AND/OR and XOR-intensive portions of the logic circuit. The second step is a library-free technology mapping that enhances design flexibility with a tractable computational cost. MIXSyn has been tested on a set of large MCNC benchmarks. Experimental results indicate that MIXSyn produces CMOS circuits with 18.0% and 9.2% fewer devices, on the average, with respect to state-of-art academic and commercial synthesis tools, respectively. MIXSyn is also capable to exploit the opportunity of novel XOR implementations offered by the use of double-gate ambipolar devices. Experimental results show that MIXSyn can reduce the number of ambipolar transistors by 20.9% and 15.3%, on the average, with respect to state-of-art academic and commercial synthesis tools, respectively.

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MIXSyn:一种用于混合异或与/或控制电路的高效逻辑合成方法

我们提出了一种新的逻辑合成方法，称为MIXSyn，它可以为混合异或与/或主导的逻辑函数产生面积高效的结果。MIXSyn是一个两步合成过程。第一步是混合逻辑优化，可以对逻辑电路的and /OR和xor密集部分进行选择性和明显的优化。第二步是无库的技术映射，它以可处理的计算成本增强设计灵活性。MIXSyn已经在一组大型MCNC基准测试中进行了测试。实验结果表明，与先进的学术合成工具和商业合成工具相比，MIXSyn生产的CMOS电路平均减少了18.0%和9.2%的器件。MIXSyn还能够利用双栅双极器件提供的新颖异或实现的机会。实验结果表明，与现有的学术合成工具和商用合成工具相比，MIXSyn可将双极晶体管的数量平均减少20.9%和15.3%。

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2013 18th Asia and South Pacific Design Automation Conference (ASP-DAC)

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