基于共享功能决策图子图的可逆电路综合方法

Dengli Bu, Junyi Deng, Pengjie Tang, Shuhong Yang
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引用次数: 1

摘要

基于决策图的可逆电路合成方法实现了较低的量子成本,但没有考虑到可逆逻辑在量子计算中应用的量子比特限制。本文提出了一种利用共享功能决策图(sfdd)子图的合成方法,以减少合成可逆电路时的线路数。通过利用最长的主-活动路径将SFDD划分为子图,并将子图映射到可逆门级联。为了进一步减少线路数,提出了模板根匹配的方法来实现线路的重用。实验结果表明,该方法在许多情况下都能达到已知的最小行数,具有良好的可扩展性。尽管所提出的方法比先前基于功能决策图的方法增加了量子成本,但在大多数情况下它显著减少了行数。与使用量子多值决策图的一遍方法相比,在许多情况下,该方法在不增加行数的情况下降低了量子成本。与使用直接映射流的基于查找表的方法相比,该方法在少数情况下减少了行数。因此,该方法有助于量子电路的物理实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Reversible Circuit Synthesis Method Using Sub-graphs of Shared Functional Decision Diagrams
Reversible circuit synthesis methods based on decision diagrams achieve low quantum costs but do not account for quantum bit (qubit) limits for the application of reversible logic in quantum computing. Here, a synthesis method using sub-graphs of shared functional decision diagrams (SFDDs) is proposed for reducing the number of lines when synthesizing reversible circuits. An SFDD is partitioned into sub-graphs by exploiting the longest dominant-active paths, and the sub-graphs are mapped to reversible gate cascades. To further reduce the number of lines, template root matching is presented for reusing circuit lines. Experimental results indicate that the proposed method achieves the known minimum number of lines in many cases and has good scalability. Although the proposed method increases the quantum cost over a prior method based on functional decision diagrams, it significantly reduces the number of lines in most cases. Compared with the one-pass method using quantum multiple-valued decision diagrams, the proposed method reduces the quantum cost without increasing the number of lines in many cases. When compared with the lookup table-based method using a direct mapping flow, the method reduces the number of lines in a few cases. Thus, the method aids in the physical realization of a quantum circuit.
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