Kernel Descent -- a Novel Optimizer for Variational Quantum Algorithms

Lars Simon, Holger Eble, Manuel Radons
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Abstract

In recent years, variational quantum algorithms have garnered significant attention as a candidate approach for near-term quantum advantage using noisy intermediate-scale quantum (NISQ) devices. In this article we introduce kernel descent, a novel algorithm for minimizing the functions underlying variational quantum algorithms. We compare kernel descent to existing methods and carry out extensive experiments to demonstrate its effectiveness. In particular, we showcase scenarios in which kernel descent outperforms gradient descent and quantum analytic descent. The algorithm follows the well-established scheme of iteratively computing classical local approximations to the objective function and subsequently executing several classical optimization steps with respect to the former. Kernel descent sets itself apart with its employment of reproducing kernel Hilbert space techniques in the construction of the local approximations -- which leads to the observed advantages.
核后裔 -- 变量量子算法的新型优化器
近年来,变量子算法作为一种利用噪声中量子(NISQ)器件实现近期量子优势的候选方法,受到了广泛关注。在本文中,我们介绍了内核下降算法(kerneldescent),这是一种用于最小化变量子算法基础函数的新型算法。我们将内核下降与现有方法进行了比较,并开展了大量实验来证明其有效性。我们特别展示了内核下降优于梯度下降和量子解析下降的案例。该算法沿用了成熟的方案,即先计算目标函数的经典局部近似值,然后针对前者执行几个经典优化步骤。核下降算法与众不同之处在于,它在构建局部近似值时采用了重现核希尔伯特空间技术,从而获得了所观察到的优势。
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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