迈向通用量子电路的大规模功能验证

CoRR Pub Date : 2018-05-17 DOI:10.4204/EPTCS.287.1
M. Amy
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引用次数: 79

摘要

我们介绍了一个基于费曼路径积分的量子电路形式化规范和验证框架。我们的形式化,建立在多项式函数的指数和上,提供了一种结构化和自然的方式来指定量子操作,特别是经典函数的量子实现。通过一种具有自由变量的指数和的新颖重写系统,可以验证关于规范电路或参考电路的Clifford层次的所有级别的电路。该算法给出了Clifford群电路等价性检验的多项式时间判定过程。我们通过使用多达100个量子比特和数千个T门对优化的Clifford+T电路进行自动验证,以及使用数百个量子比特对量子算法进行功能验证,来评估我们的方法。我们的实验最终实现了对一类布尔函数的隐藏移位算法的自动验证,而这只需要最近算法模拟的一小部分时间。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards Large-scale Functional Verification of Universal Quantum Circuits
We introduce a framework for the formal specification and verification of quantum circuits based on the Feynman path integral. Our formalism, built around exponential sums of polynomial functions, provides a structured and natural way of specifying quantum operations, particularly for quantum implementations of classical functions. Verification of circuits over all levels of the Clifford hierarchy with respect to either a specification or reference circuit is enabled by a novel rewrite system for exponential sums with free variables. Our algorithm is further shown to give a polynomial-time decision procedure for checking the equivalence of Clifford group circuits. We evaluate our methods by performing automated verification of optimized Clifford+T circuits with up to 100 qubits and thousands of T gates, as well as the functional verification of quantum algorithms using hundreds of qubits. Our experiments culminate in the automated verification of the Hidden Shift algorithm for a class of Boolean functions in a fraction of the time it has taken recent algorithms to simulate.
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