变分振幅放大求解QUBO问题

Q2 Physics and Astronomy Quantum Reports Pub Date : 2023-10-01 DOI:10.3390/quantum5040041

Daniel Koch, Massimiliano Cutugno, Saahil Patel, Laura Wessing, Paul M. Alsing

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引用次数: 1

摘要

我们研究了在基于门的量子计算模型上使用振幅放大作为解决组合优化问题的一种手段。本研究主要关注二次无约束二进制优化(QUBO)问题，该问题非常适合量子比特叠加态。具体来说，我们演示了将qubo编码为“成本预测”操作UC的电路设计，该设计将相位分布在与成本函数成比例的基态上。然后，我们证明了当UC与标准Grover扩散算子Us结合时，可以在只需要O(π42N/M)迭代的情况下获得最优解和近最优解对应的状态的高测量概率。为了实现这些概率，需要单个标量参数ps，我们表明可以通过变分量子-经典混合方法找到该参数，并可用于启发式解。

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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Variational Amplitude Amplification for Solving QUBO Problems

We investigate the use of amplitude amplification on the gate-based model of quantum computing as a means for solving combinatorial optimization problems. This study focuses primarily on quadratic unconstrained binary optimization (QUBO) problems, which are well-suited for qubit superposition states. Specifically, we demonstrate circuit designs which encode QUBOs as ‘cost oracle’ operations UC, which distribute phases across the basis states proportional to a cost function. We then show that when UC is combined with the standard Grover diffusion operator Us, one can achieve high probabilities of measurement for states corresponding to optimal and near optimal solutions while still only requiring O(π42N/M) iterations. In order to achieve these probabilities, a single scalar parameter ps is required, which we show can be found through a variational quantum–classical hybrid approach and can be used for heuristic solutions.

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