带有随机通告的自适应优化算法的样本复杂度分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-29 DOI:10.1007/s10107-024-02078-z
Billy Jin, Katya Scheinberg, Miaolan Xie
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引用次数: 0

摘要

一些经典的自适应优化算法,如直线搜索法和信任区域法,最近已被扩展到随机设置中,在随机设置中,函数值、梯度和某些情况下的赫西亚斯(Hessians)都是通过随机信号来估计的。与大多数随机方法不同的是,这些方法不使用预先指定的步长参数序列,而是根据算法的估计进度调整步长参数,并用它来决定对随机神谕的精度要求。因此,对随机神谕的要求也是自适应的,神谕成本也会随着迭代的不同而变化。这些方法中的步长参数可以根据所感知的进度增大或减小,但与确定性方法不同的是,由于可能出现的神谕失败,步长参数并没有远离零的界限,而且以前也没有推导出步长参数的界限。这给此类方法的总复杂度分析造成了障碍,因为甲骨文成本通常随步长参数递减,当步长参数为 0 时,甲骨文成本可能会任意增大。因此,到目前为止,我们只分析了这些方法的总迭代复杂度。在本文中,我们推导出了步长参数的下限,该下限对于一大类自适应随机方法来说很有可能成立。然后,我们利用这个下限推导出一个框架,用于分析该类方法的预期和高概率总迭代复杂度。最后,我们应用这个框架分析了两种特定算法的总样本复杂度,即 STORM(Blanchet 等人,载于 INFORMS J Optim 1(2):92-119, 2019)和 SASS(Jin 等人,载于 High probability complexity bounds for adaptive step search based on stochastic oracles, 2021. https://doi.org/10.48550/ARXIV.2106.06454),在预期风险最小化问题中的总样本复杂度。
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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Sample complexity analysis for adaptive optimization algorithms with stochastic oracles

Several classical adaptive optimization algorithms, such as line search and trust-region methods, have been recently extended to stochastic settings where function values, gradients, and Hessians in some cases, are estimated via stochastic oracles. Unlike the majority of stochastic methods, these methods do not use a pre-specified sequence of step size parameters, but adapt the step size parameter according to the estimated progress of the algorithm and use it to dictate the accuracy required from the stochastic oracles. The requirements on the stochastic oracles are, thus, also adaptive and the oracle costs can vary from iteration to iteration. The step size parameters in these methods can increase and decrease based on the perceived progress, but unlike the deterministic case they are not bounded away from zero due to possible oracle failures, and bounds on the step size parameter have not been previously derived. This creates obstacles in the total complexity analysis of such methods, because the oracle costs are typically decreasing in the step size parameter, and could be arbitrarily large as the step size parameter goes to 0. Thus, until now only the total iteration complexity of these methods has been analyzed. In this paper, we derive a lower bound on the step size parameter that holds with high probability for a large class of adaptive stochastic methods. We then use this lower bound to derive a framework for analyzing the expected and high probability total oracle complexity of any method in this class. Finally, we apply this framework to analyze the total sample complexity of two particular algorithms, STORM (Blanchet et al. in INFORMS J Optim 1(2):92–119, 2019) and SASS (Jin et al. in High probability complexity bounds for adaptive step search based on stochastic oracles, 2021. https://doi.org/10.48550/ARXIV.2106.06454), in the expected risk minimization problem.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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