Towards Automated Design of Bayesian Optimization via Exploratory Landscape Analysis

Carolin Benjamins; Anja Jankovic; Elena Raponi; Koen van der Blom; Marius Lindauer; Carola Doerr

Towards Automated Design of Bayesian Optimization via Exploratory Landscape Analysis

Carolin Benjamins, Anja Jankovic, Elena Raponi, Koen van der Blom, Marius Lindauer, Carola Doerr

Machine Learning Section

Research output: Contribution to conference › Paper › Research › peer review

Abstract

Bayesian optimization (BO) algorithms form a class of surrogate-based heuristics, aimed at efficiently computing high-quality solutions for numerical black-box optimization problems. The BO pipeline is highly modular, with different design choices for the initial sampling strategy, the surrogate model, the acquisition function (AF), the solver used to optimize the AF, etc. We demonstrate in this work that a dynamic selection of the AF can benefit the BO design. More precisely, we show that already a na\"ive random forest regression model, built on top of exploratory landscape analysis features that are computed from the initial design points, suffices to recommend AFs that outperform any static choice, when considering performance over the classic BBOB benchmark suite for derivative-free numerical optimization methods on the COCO platform. Our work hence paves a way towards AutoML-assisted, on-the-fly BO designs that adjust their behavior on a run-by-run basis.

Original language	English
Publication status	Published - 17 Nov 2022
Event	Workshop on Meta-Learning (MetaLearn 2022) - online Duration: 2 Dec 2022 → …

Workshop

Workshop	Workshop on Meta-Learning (MetaLearn 2022)
Period	2 Dec 2022 → …

Keywords

cs.LG

Access to Document

https://openreview.net/forum?id=cmxtTF_IHdLicence: Unspecified

Algorithm Control: Efficient Learning to Control Algorithm Parameters
Lindauer, M. T. (Principal Investigator), Eimer-Rüegg, T. (Project staff), Benjamins, C. (Project staff) & Mohan, A. (Project staff)
1 Oct 2020 → 14 Sept 2024
Project: Research

Cite this

@conference{aa885b1e4bee446e94b3f7e6350f33b7,

title = "Towards Automated Design of Bayesian Optimization via Exploratory Landscape Analysis",

abstract = "Bayesian optimization (BO) algorithms form a class of surrogate-based heuristics, aimed at efficiently computing high-quality solutions for numerical black-box optimization problems. The BO pipeline is highly modular, with different design choices for the initial sampling strategy, the surrogate model, the acquisition function (AF), the solver used to optimize the AF, etc. We demonstrate in this work that a dynamic selection of the AF can benefit the BO design. More precisely, we show that already a na\{"}ive random forest regression model, built on top of exploratory landscape analysis features that are computed from the initial design points, suffices to recommend AFs that outperform any static choice, when considering performance over the classic BBOB benchmark suite for derivative-free numerical optimization methods on the COCO platform. Our work hence paves a way towards AutoML-assisted, on-the-fly BO designs that adjust their behavior on a run-by-run basis.",

keywords = "cs.LG",

author = "Carolin Benjamins and Anja Jankovic and Elena Raponi and Blom, {Koen van der} and Marius Lindauer and Carola Doerr",

year = "2022",

month = nov,

day = "17",

language = "English",

note = "Workshop on Meta-Learning (MetaLearn 2022) ; Conference date: 02-12-2022",

}

TY - CONF

T1 - Towards Automated Design of Bayesian Optimization via Exploratory Landscape Analysis

AU - Benjamins, Carolin

AU - Jankovic, Anja

AU - Raponi, Elena

AU - Blom, Koen van der

AU - Lindauer, Marius

AU - Doerr, Carola

PY - 2022/11/17

Y1 - 2022/11/17

N2 - Bayesian optimization (BO) algorithms form a class of surrogate-based heuristics, aimed at efficiently computing high-quality solutions for numerical black-box optimization problems. The BO pipeline is highly modular, with different design choices for the initial sampling strategy, the surrogate model, the acquisition function (AF), the solver used to optimize the AF, etc. We demonstrate in this work that a dynamic selection of the AF can benefit the BO design. More precisely, we show that already a na\"ive random forest regression model, built on top of exploratory landscape analysis features that are computed from the initial design points, suffices to recommend AFs that outperform any static choice, when considering performance over the classic BBOB benchmark suite for derivative-free numerical optimization methods on the COCO platform. Our work hence paves a way towards AutoML-assisted, on-the-fly BO designs that adjust their behavior on a run-by-run basis.

AB - Bayesian optimization (BO) algorithms form a class of surrogate-based heuristics, aimed at efficiently computing high-quality solutions for numerical black-box optimization problems. The BO pipeline is highly modular, with different design choices for the initial sampling strategy, the surrogate model, the acquisition function (AF), the solver used to optimize the AF, etc. We demonstrate in this work that a dynamic selection of the AF can benefit the BO design. More precisely, we show that already a na\"ive random forest regression model, built on top of exploratory landscape analysis features that are computed from the initial design points, suffices to recommend AFs that outperform any static choice, when considering performance over the classic BBOB benchmark suite for derivative-free numerical optimization methods on the COCO platform. Our work hence paves a way towards AutoML-assisted, on-the-fly BO designs that adjust their behavior on a run-by-run basis.

KW - cs.LG

M3 - Paper

T2 - Workshop on Meta-Learning (MetaLearn 2022)

Y2 - 2 December 2022

ER -

Towards Automated Design of Bayesian Optimization via Exploratory Landscape Analysis

Abstract

Workshop

Keywords

Access to Document

Projects

Algorithm Control: Efficient Learning to Control Algorithm Parameters

Cite this