English

Meta-Black-Box-Optimization through Offline Q-function Learning

Neural and Evolutionary Computing 2025-05-06 v1 Machine Learning

Abstract

Recent progress in Meta-Black-Box-Optimization (MetaBBO) has demonstrated that using RL to learn a meta-level policy for dynamic algorithm configuration (DAC) over an optimization task distribution could significantly enhance the performance of the low-level BBO algorithm. However, the online learning paradigms in existing works makes the efficiency of MetaBBO problematic. To address this, we propose an offline learning-based MetaBBO framework in this paper, termed Q-Mamba, to attain both effectiveness and efficiency in MetaBBO. Specifically, we first transform DAC task into long-sequence decision process. This allows us further introduce an effective Q-function decomposition mechanism to reduce the learning difficulty within the intricate algorithm configuration space. Under this setting, we propose three novel designs to meta-learn DAC policy from offline data: we first propose a novel collection strategy for constructing offline DAC experiences dataset with balanced exploration and exploitation. We then establish a decomposition-based Q-loss that incorporates conservative Q-learning to promote stable offline learning from the offline dataset. To further improve the offline learning efficiency, we equip our work with a Mamba architecture which helps long-sequence learning effectiveness and efficiency by selective state model and hardware-aware parallel scan respectively. Through extensive benchmarking, we observe that Q-Mamba achieves competitive or even superior performance to prior online/offline baselines, while significantly improving the training efficiency of existing online baselines. We provide sourcecodes of Q-Mamba at https://github.com/MetaEvo/Q-Mamba.

Keywords

Cite

@article{arxiv.2505.02010,
  title  = {Meta-Black-Box-Optimization through Offline Q-function Learning},
  author = {Zeyuan Ma and Zhiguang Cao and Zhou Jiang and Hongshu Guo and Yue-Jiao Gong},
  journal= {arXiv preprint arXiv:2505.02010},
  year   = {2025}
}

Comments

Accepted as poster by ICML 2025

R2 v1 2026-06-28T23:20:28.371Z