From Sequential Algorithm Selection to Parallel Portfolio Selection

verfasst von: M. Lindauer, Holger H. Hoos, F. Hutter
Abstract: In view of the increasing importance of hardware parallelism, a natural extension of per-instance algorithm selection is to select a set of algorithms to be run in parallel on a given problem instance, based on features of that instance. Here, we explore how existing algorithm selection techniques can be effectively parallelized. To this end, we leverage the machine learning models used by existing sequential algorithm selectors, such as 3S, ISAC, SATzilla and ME-ASP, and modify their selection procedures to produce a ranking of the given candidate algorithms; we then select the top n algorithms under this ranking to be run in parallel on n processing units. Furthermore, we adapt the pre-solving schedules obtained by aspeed to be effective in a parallel setting with different time budgets for each processing unit. Our empirical results demonstrate that, using 4 processing units, the best of our methods achieves a 12-fold average speedup over the best single solver on a broad set of challenging scenarios from the algorithm selection library.
Externe Organisation(en): Albert-Ludwigs-Universität Freiburg
University of British Columbia
Typ: Aufsatz in Konferenzband
Seiten: 1-16
Anzahl der Seiten: 16
Publikationsdatum: 29.05.2015
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Theoretische Informatik, Allgemeine Computerwissenschaft
Elektronische Version(en): https://doi.org/10.1007/978-3-319-19084-6_1 (Zugang: Geschlossen)

BibTeX

@inproceedings{49cf2cc072a24bd9b14941d9c1feccf1,
title = "From Sequential Algorithm Selection to Parallel Portfolio Selection",
abstract = "In view of the increasing importance of hardware parallelism, a natural extension of per-instance algorithm selection is to select a set of algorithms to be run in parallel on a given problem instance, based on features of that instance. Here, we explore how existing algorithm selection techniques can be effectively parallelized. To this end, we leverage the machine learning models used by existing sequential algorithm selectors, such as 3S, ISAC, SATzilla and ME-ASP, and modify their selection procedures to produce a ranking of the given candidate algorithms; we then select the top n algorithms under this ranking to be run in parallel on n processing units. Furthermore, we adapt the pre-solving schedules obtained by aspeed to be effective in a parallel setting with different time budgets for each processing unit. Our empirical results demonstrate that, using 4 processing units, the best of our methods achieves a 12-fold average speedup over the best single solver on a broad set of challenging scenarios from the algorithm selection library.",
keywords = "Algorithm selection, Answer set programming, Constraint solving, Parallel portfolios",
author = "M. Lindauer and Hoos, {Holger H.} and F. Hutter",
year = "2015",
month = may,
day = "29",
doi = "10.1007/978-3-319-19084-6_1",
language = "English",
isbn = "9783319190839",
series = "Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)",
publisher = "Springer Verlag",
pages = "1--16",
editor = "Clarisse Dhaenens and Laetitia Jourdan and Marie-Eleonore Marmion",
booktitle = "Learning and Intelligent Optimization",
address = "Germany",
note = "9th International Conference on Learning and Intelligent Optimization, LION 2015 ; Conference date: 12-01-2015 Through 15-01-2015",
}

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From Sequential Algorithm Selection to Parallel Portfolio Selection

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