Choosing the right algorithm with hints from complexity theory

IF 0.8 4区计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS Information and Computation Pub Date : 2023-11-24 DOI:10.1016/j.ic.2023.105125

Shouda Wang , Weijie Zheng , Benjamin Doerr

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引用次数: 15

Abstract

Choosing a suitable algorithm from the myriads of different search heuristics is difficult when faced with a novel optimization problem. In this work, we argue that the purely academic question of what could be the best possible algorithm in a certain broad class of black-box optimizers can give fruitful indications in which direction to search for good established heuristics. We demonstrate this approach on the recently proposed DLB benchmark. Our finding that the unary unbiased black-box complexity is only $O (n^{2})$ suggests the Metropolis algorithm as an interesting candidate and we prove that it solves the DLB problem in quadratic time. We also prove that better runtimes cannot be obtained in the class of unary unbiased algorithms. We therefore shift our attention to algorithms that use the information of more parents to generate new solutions and find that the significance-based compact genetic algorithm can solve the DLB problem in time $O (n \log n)$ .

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从复杂性理论中选择正确的算法

当面临一个新的优化问题时，从无数不同的搜索启发式算法中选择一个合适的算法是困难的。在这项工作中，我们认为，在某种广泛的黑盒优化器类别中，什么可能是最好的算法这一纯粹的学术问题可以提供富有成效的指示，在哪个方向上搜索良好的已建立的启发式。我们在最近提出的DLB基准上演示了这种方法。我们发现一元无偏黑盒复杂度仅为O(n2)，这表明Metropolis算法是一个有趣的候选算法，我们证明了它在二次时间内解决了DLB问题。我们也证明了在一元无偏算法中不能得到更好的运行时间。因此，我们将注意力转移到使用更多父母信息生成新解的算法上，并发现基于显著性的紧凑遗传算法可以在O(nlog ln n)时间内解决DLB问题。

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来源期刊

Information and Computation 工程技术-计算机：理论方法

CiteScore

2.30

自引率

0.00%

发文量

119

审稿时长

140 days

期刊介绍： Information and Computation welcomes original papers in all areas of theoretical computer science and computational applications of information theory. Survey articles of exceptional quality will also be considered. Particularly welcome are papers contributing new results in active theoretical areas such as -Biological computation and computational biology- Computational complexity- Computer theorem-proving- Concurrency and distributed process theory- Cryptographic theory- Data base theory- Decision problems in logic- Design and analysis of algorithms- Discrete optimization and mathematical programming- Inductive inference and learning theory- Logic & constraint programming- Program verification & model checking- Probabilistic & Quantum computation- Semantics of programming languages- Symbolic computation, lambda calculus, and rewriting systems- Types and typechecking

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