Information complexity of mixed-integer convex optimization

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-27 DOI:10.1007/s10107-024-02099-8
Amitabh Basu, Hongyi Jiang, Phillip Kerger, Marco Molinaro
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Abstract

We investigate the information complexity of mixed-integer convex optimization under different types of oracles. We establish new lower bounds for the standard first-order oracle, improving upon the previous best known lower bound. This leaves only a lower order linear term (in the dimension) as the gap between the lower and upper bounds. This is derived as a corollary of a more fundamental “transfer” result that shows how lower bounds on information complexity of continuous convex optimization under different oracles can be transferred to the mixed-integer setting in a black-box manner. Further, we (to the best of our knowledge) initiate the study of, and obtain the first set of results on, information complexity under oracles that only reveal partial first-order information, e.g., where one can only make a binary query over the function value or subgradient at a given point. We give algorithms for (mixed-integer) convex optimization that work under these less informative oracles. We also give lower bounds showing that, for some of these oracles, every algorithm requires more iterations to achieve a target error compared to when complete first-order information is available. That is, these oracles are provably less informative than full first-order oracles for the purpose of optimization.

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混合整数凸优化的信息复杂性
我们研究了不同类型神谕下混合整数凸优化的信息复杂性。我们为标准一阶神谕建立了新的下界,改进了之前已知的最佳下界。这使得下界和上界之间的差距只剩下一个低阶线性项(维数)。这是一个更基本的 "转移 "结果的推论,说明了在不同神谕下连续凸优化的信息复杂度下界如何以黑箱方式转移到混合整数环境中。此外,我们(据我们所知)开始研究只揭示部分一阶信息(例如,只能对给定点上的函数值或子梯度进行二元查询)的传道器下的信息复杂度,并获得了第一组相关结果。我们给出的(混合整数)凸优化算法可以在这些信息量较少的传票下运行。我们还给出了下限,表明对于其中一些奥拉夫,与有完整的一阶信息时相比,每种算法都需要更多的迭代才能达到目标误差。也就是说,就优化而言,这些算例的信息量明显低于完整的一阶算例。
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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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