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Main Authors: Klein, Aaron, Rakotoarison, Herilalaina, Thale-Bombien, Luca, Salinas, David
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.23417
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author Klein, Aaron
Rakotoarison, Herilalaina
Thale-Bombien, Luca
Salinas, David
author_facet Klein, Aaron
Rakotoarison, Herilalaina
Thale-Bombien, Luca
Salinas, David
contents Most black-box optimization methods require extensive hyperparameter tuning, often limiting their ability to generalize across different optimization domains. Foundation models for black-box optimization that learn optimization principles from a large collection of optimization trajectories offer a promising alternative, with the potential to outperform manually designed methods across diverse problem classes. However, prior work has either relied on non-public datasets or on purely synthetic data, limiting reproducibility and generalization to real-world problems. As a result, progress in this area has been constrained by the lack of large-scale, real-world, publicly available pre-training data. We introduce BBO-Pile, the first open-source dataset comprising over 500K optimization trajectories evaluated across 3095 different black-boxes for different optimizers, which represents by far the largest public dataset for this task. Using this dataset, we train a family of foundation models at multiple scales, ranging from 2M to 80M parameters and from 200M to 2B training tokens, and study their scaling behavior with respect to compute. Our results demonstrate that large-scale pre-training is a viable and effective approach to imitate black-box optimization methods, paving the way for future research in this direction.
format Preprint
id arxiv_https___arxiv_org_abs_2605_23417
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle An Open-Source Training Dataset for Foundation Models for Black-box Optimization
Klein, Aaron
Rakotoarison, Herilalaina
Thale-Bombien, Luca
Salinas, David
Machine Learning
Most black-box optimization methods require extensive hyperparameter tuning, often limiting their ability to generalize across different optimization domains. Foundation models for black-box optimization that learn optimization principles from a large collection of optimization trajectories offer a promising alternative, with the potential to outperform manually designed methods across diverse problem classes. However, prior work has either relied on non-public datasets or on purely synthetic data, limiting reproducibility and generalization to real-world problems. As a result, progress in this area has been constrained by the lack of large-scale, real-world, publicly available pre-training data. We introduce BBO-Pile, the first open-source dataset comprising over 500K optimization trajectories evaluated across 3095 different black-boxes for different optimizers, which represents by far the largest public dataset for this task. Using this dataset, we train a family of foundation models at multiple scales, ranging from 2M to 80M parameters and from 200M to 2B training tokens, and study their scaling behavior with respect to compute. Our results demonstrate that large-scale pre-training is a viable and effective approach to imitate black-box optimization methods, paving the way for future research in this direction.
title An Open-Source Training Dataset for Foundation Models for Black-box Optimization
topic Machine Learning
url https://arxiv.org/abs/2605.23417