MASIF: Meta-learned Algorithm Selection using Implicit Fidelity Information

verfasst von: Tim Ruhkopf, Aditya Mohan, Difan Deng, Alexander Tornede, Frank Hutter, Marius Lindauer
Abstract: Selecting a well-performing algorithm for a given task or dataset can be time-consuming and tedious, but is crucial for the successful day-to-day business of developing new AI & ML applications. Algorithm Selection (AS) mitigates this through a meta-model leveraging meta-information about previous tasks. However, most of the available AS methods are error-prone because they characterize a task by either cheap-to-compute properties of the dataset or evaluations of cheap proxy algorithms, called landmarks. In this work, we extend the classical AS data setup to include multi-fidelity information and empirically demonstrate how meta-learning on algorithms’ learning behaviour allows us to exploit cheap test-time evidence effectively and combat myopia significantly. We further postulate a budget-regret trade-off w.r.t. the selection process. Our new selector MASIF is able to jointly interpret online evidence on a task in form of varying-length learning curves without any parametric assumption by leveraging a transformer-based encoder. This opens up new possibilities for guided rapid prototyping in data science on cheaply observed partial learning curves.
Organisationseinheit(en): Institut für Informationsverarbeitung
Fachgebiet Maschinelles Lernen
Externe Organisation(en): Albert-Ludwigs-Universität Freiburg
Typ: Artikel
Journal: Transactions on Machine Learning Research
ISSN: 2835-8856
Publikationsdatum: 18.04.2023
Publikationsstatus: Elektronisch veröffentlicht (E-Pub)
Peer-reviewed: Ja
Elektronische Version(en): https://openreview.net/forum?id=5aYGXxByI6 (Zugang: Offen)

BibTeX

@article{91a29f974fce4959967ea6759e1075f4,
title = "MASIF: Meta-learned Algorithm Selection using Implicit Fidelity Information",
abstract = " Selecting a well-performing algorithm for a given task or dataset can be time-consuming and tedious, but is crucial for the successful day-to-day business of developing new AI & ML applications. Algorithm Selection (AS) mitigates this through a meta-model leveraging meta-information about previous tasks. However, most of the available AS methods are error-prone because they characterize a task by either cheap-to-compute properties of the dataset or evaluations of cheap proxy algorithms, called landmarks. In this work, we extend the classical AS data setup to include multi-fidelity information and empirically demonstrate how meta-learning on algorithms{\textquoteright} learning behaviour allows us to exploit cheap test-time evidence effectively and combat myopia significantly. We further postulate a budget-regret trade-off w.r.t. the selection process. Our new selector MASIF is able to jointly interpret online evidence on a task in form of varying-length learning curves without any parametric assumption by leveraging a transformer-based encoder. This opens up new possibilities for guided rapid prototyping in data science on cheaply observed partial learning curves.",
keywords = "Algorithm Selection, Meta-Learning, Multi-Fidelty Optimization",
author = "Tim Ruhkopf and Aditya Mohan and Difan Deng and Alexander Tornede and Frank Hutter and Marius Lindauer",
year = "2023",
month = apr,
day = "18",
language = "English",
journal = "Transactions on Machine Learning Research",
issn = "2835-8856",
}

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MASIF: Meta-learned Algorithm Selection using Implicit Fidelity Information

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