Extreme Algorithm Selection with Dyadic Feature Representation

verfasst von: Alexander Tornede, Marcel Wever, Eyke Hüllermeier
Abstract: Algorithm selection (AS) deals with the automatic selection of an algorithm from a fixed set of candidate algorithms most suitable for a specific instance of an algorithmic problem class, e.g., choosing solvers for SAT problems. Benchmark suites for AS usually comprise candidate sets consisting of at most tens of algorithms, whereas in algorithm configuration (AC) and combined algorithm selection and hyperparameter optimization (CASH) problems the number of candidates becomes intractable, impeding to learn effective meta-models and thus requiring costly online performance evaluations. In this paper, we propose the setting of extreme algorithm selection (XAS), which, despite assuming limited time resources and hence excluding online evaluations at prediction time, allows for considering thousands of candidate algorithms and thereby facilitates meta learning. We assess the applicability of state-of-the-art AS techniques to the XAS setting and propose approaches leveraging a dyadic representation, in which both problem instances and algorithms are described in terms of feature vectors. We find this approach to significantly improve over the current state of the art in various metrics.
Externe Organisation(en): Heinz Nixdorf Institut (HNI)
Universität Paderborn
Typ: Aufsatz in Konferenzband
Seiten: 309-324
Anzahl der Seiten: 16
Publikationsdatum: 2020
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Theoretische Informatik, Informatik (insg.)
Elektronische Version(en): https://doi.org/10.1007/978-3-030-61527-7_21 (Zugang: Geschlossen)

BibTeX

@inproceedings{5d7a6c6615914aa18824f5d836192990,
title = "Extreme Algorithm Selection with Dyadic Feature Representation",
abstract = "Algorithm selection (AS) deals with the automatic selection of an algorithm from a fixed set of candidate algorithms most suitable for a specific instance of an algorithmic problem class, e.g., choosing solvers for SAT problems. Benchmark suites for AS usually comprise candidate sets consisting of at most tens of algorithms, whereas in algorithm configuration (AC) and combined algorithm selection and hyperparameter optimization (CASH) problems the number of candidates becomes intractable, impeding to learn effective meta-models and thus requiring costly online performance evaluations. In this paper, we propose the setting of extreme algorithm selection (XAS), which, despite assuming limited time resources and hence excluding online evaluations at prediction time, allows for considering thousands of candidate algorithms and thereby facilitates meta learning. We assess the applicability of state-of-the-art AS techniques to the XAS setting and propose approaches leveraging a dyadic representation, in which both problem instances and algorithms are described in terms of feature vectors. We find this approach to significantly improve over the current state of the art in various metrics.",
keywords = "Dyadic ranking, Extreme algorithm selection, Surrogate model",
author = "Alexander Tornede and Marcel Wever and Eyke H{\"u}llermeier",
note = "Publisher Copyright: {\textcopyright} 2020, Springer Nature Switzerland AG.; 23rd International Conference on Discovery Science, DS 2020 ; Conference date: 19-10-2020 Through 21-10-2020",
year = "2020",
doi = "10.1007/978-3-030-61527-7_21",
language = "English",
isbn = "9783030615260",
series = "Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)",
publisher = "Springer Science and Business Media Deutschland GmbH",
pages = "309--324",
editor = "Annalisa Appice and Grigorios Tsoumakas and Yannis Manolopoulos and Stan Matwin",
booktitle = "Discovery Science - 23rd International Conference, DS 2020, Proceedings",
address = "Germany",
}

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Extreme Algorithm Selection with Dyadic Feature Representation

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