量子门级三门模板可逆电路的优化

2015 International Conference on Electronic Design, Computer Networks & Automated Verification (EDCAV) Pub Date : 1900-01-01 DOI:10.1109/EDCAV.2015.7060551

Pyreddy Mary Arpita, K. Datta, R. Vemula, I. Sengupta

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引用次数: 1

摘要

本文提出了一种以降低量子成本为目标，优化由多控制Toffoli (MCT)门组成的可逆网络列表的方法。首先将MCT门分解为具有最多3条控制线的小门，然后在网表上应用模板匹配方法进行优化。模板的构建考虑了所有可能的3门序列，最多有4行。这项工作构成了Dueck等人先前工作的延伸，其中在模板中考虑了2门序列。输入门网络列表由RevLib中可用的可逆基准生成，然后通过Barenco分解生成最多具有三个控制连接的Toffoli门。将该方法应用于这些网络列表，并计算最终的量子成本。在标准基准上的实验结果表明，该方法可以降低量子成本。

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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Optimization of reversible circuits using triple-gate templates at quantum gate level

The paper presents an approach for optimizing a reversible netlist consisting of multiple-control Toffoli (MCT) gates with the objective of reducing quantum cost. The MCT gates are first decomposed into smaller gates with up to three control lines, and then a template matching method is applied on the netlist for optimization. The templates are constructed by considering all possible 3-gate sequences with up to four lines. This work constitutes an extension of a previous work by Dueck et al., where 2-gate sequences were considered in the templates. The input gate netlists are generated from the reversible benchmarks available in RevLib, followed by Barenco decomposition to produce Toffoli gates with at most three control connections. The proposed approach is applied on these netlists, and the final quantum cost calculated. Experimental results on standard benchmarks show that the method can lead to reductions in quantum cost.

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2015 International Conference on Electronic Design, Computer Networks & Automated Verification (EDCAV)

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