Interaction graph-based characterization of quantum benchmarks for improving quantum circuit mapping techniques

IF 4.1 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Medina Bandic, Carmen G. Almudever, Sebastian Feld
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引用次数: 4

Abstract

Abstract To execute quantum circuits on a quantum processor, they must be modified to meet the physical constraints of the quantum device. This process, called quantum circuit mapping , results in a gate/circuit depth overhead that depends on both the circuit properties and the hardware constraints, being the limited qubit connectivity a crucial restriction. In this paper, we propose to extend the characterization of quantum circuits by including qubit interaction graph properties using graph theory-based metrics in addition to previously used circuit-describing parameters. This approach allows for an in-depth analysis and clustering of quantum circuits and a comparison of performance when run on different quantum processors, aiding in developing better mapping techniques. Our study reveals a correlation between interaction graph-based parameters and mapping performance metrics for various existing configurations of quantum devices. We also provide a comprehensive collection of quantum circuits and algorithms for benchmarking future compilation techniques and quantum devices.
基于交互图的量子基准表征改进量子电路映射技术
要在量子处理器上执行量子电路,必须对其进行修改以满足量子器件的物理约束。这个过程被称为量子电路映射,导致门/电路深度开销,这取决于电路属性和硬件约束,有限的量子比特连接是一个关键的限制。在本文中,我们建议通过使用基于图论的度量来扩展量子电路的表征,除了以前使用的电路描述参数之外,还包括量子比特相互作用图属性。这种方法允许对量子电路进行深入分析和聚类,并在不同量子处理器上运行时比较性能,有助于开发更好的映射技术。我们的研究揭示了基于交互图的参数与各种现有量子器件配置的映射性能指标之间的相关性。我们还提供了一个全面的量子电路和算法集合,用于对未来的编译技术和量子器件进行基准测试。
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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来源期刊
CiteScore
7.60
自引率
4.20%
发文量
29
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