Expressiveness of Commutative Quantum Circuits: A Probabilistic Approach

IEEE Transactions on Quantum Engineering Pub Date : 2024-10-30 DOI:10.1109/TQE.2024.3488518

Jorge M. Ramirez;Elaine Wong;Caio Alves;Sarah Chehade;Ryan Bennink

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Abstract

This study investigates the frame potential and expressiveness of commutative quantum circuits. Based on the Fourier series representation of these circuits, we express quantum expectation and pairwise fidelity as characteristic functions of random variables, and we characterize expressiveness as the recurrence probability of a random walk on a lattice. A central outcome of our work includes formulas to approximate the frame potential and expressiveness for any commutative quantum circuit, underpinned by convergence theorems in the probability theory. We identify the lattice volume of the random walk as means to approximate expressiveness based on circuit architecture. In the specific case of commutative circuits involving Pauli-

$Z$

rotations, we provide theoretical results relating expressiveness and circuit structure. Our probabilistic representation also provides means for bounding and approximately calculating the frame potential of a circuit through sampling methods.

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交换量子电路的表现力：概率论方法

本研究探讨了交换量子电路的框架潜力和表现力。基于这些电路的傅里叶级数表示，我们将量子期望和成对保真度表示为随机变量的特征函数，并将表现力表征为网格上随机行走的递推概率。我们工作的一个核心成果包括以概率论中的收敛定理为基础，对任何交换量子电路的框架势和表现力进行近似计算的公式。我们将随机行走的晶格体积确定为根据电路架构近似表达能力的手段。在涉及保利$Z$旋转的交换电路的具体案例中，我们提供了有关表现力和电路结构的理论结果。我们的概率表示法还提供了通过抽样方法限定和近似计算电路框架势的方法。

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

IEEE Transactions on Quantum Engineering

CiteScore

8.00

自引率

0.00%

发文量