The Power of Simulation for Equivalence Checking in Quantum Computing

2020 57th ACM/IEEE Design Automation Conference (DAC) Pub Date : 2020-07-01 DOI:10.1109/DAC18072.2020.9218563

Lukas Burgholzer, R. Wille

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引用次数: 13

Abstract

The rapid rate of progress in the physical realization of quantum computers sparked the development of elaborate design flows for quantum computations on such devices. Each stage of these flows comes with its own representation of the intended functionality. Ensuring that each design step preserves this intended functionality is of utmost importance. However, existing solutions for equivalence checking of quantum computations heavily struggle with the complexity of the underlying problem and, thus, no conclusions on the equivalence may be reached with reasonable efforts in many cases. In this work, we uncover the power of simulation for equivalence checking in quantum computing. We show that, in contrast to classical computing, it is in general not necessary to compare the complete representation of the respective computations. Even small errors frequently affect the entire representation and, thus, can be detected within a couple of simulations. The resulting equivalence checking flow substantially improves upon the state of the art by drastically accelerating the detection of errors or providing a highly probable estimate of the operations’ equivalence.

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量子计算中等效检验的模拟能力

量子计算机物理实现的快速进展激发了在此类设备上进行量子计算的详细设计流程的发展。这些流的每个阶段都有自己的预期功能表示。确保每个设计步骤都保留预期的功能是至关重要的。然而，现有的量子计算等效性检验方案与潜在问题的复杂性严重斗争，因此，在许多情况下，通过合理的努力可能无法得出等效性的结论。在这项工作中，我们揭示了模拟在量子计算中等效检查的力量。我们表明，与经典计算相比，通常没有必要比较各自计算的完整表示。即使是很小的错误也经常影响整个表示，因此可以在几次模拟中检测到。由此产生的等效性检查流程通过大大加快错误检测或提供操作等效性的高度可能估计，大大改进了现有技术的状态。

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

2020 57th ACM/IEEE Design Automation Conference (DAC)

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