Flat Posterior for Bayesian Model Averaging

Sungjun Lim, Jeyoon Yeom, Sooyon Kim, Hoyoon Byun, Jinho Kang, Yohan Jung, Jiyoung Jung, Kyungwoo Song

ICLRW 2025

/iclrw/2025/lim2025iclrw-flat/

Abstract

Bayesian neural networks (BNNs) estimate the posterior distribution of model parameters and utilize posterior samples for Bayesian Model Averaging (BMA) in prediction. However, despite the crucial role of flatness in the loss landscape in improving the generalization of neural networks, its impact on BMA has been largely overlooked. In this work, we explore how posterior flatness influences BMA generalization and empirically demonstrate that \emph{(1) most approximate Bayesian inference methods fail to yield a flat posterior} and \emph{(2) BMA predictions, without considering posterior flatness, are less effective at improving generalization}. To address this, we propose Flat Posterior-aware Bayesian Model Averaging (FP-BMA), a novel training objective that explicitly encourages flat posteriors in a principled Bayesian manner. We also introduce a Flat Posterior-aware Bayesian Transfer Learning scheme that enhances generalization in downstream tasks. Empirically, we show that FP-BMA successfully captures flat posteriors, improving generalization performance,

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Cite

Text

Lim et al. "Flat Posterior for Bayesian Model Averaging." ICLR 2025 Workshops: FPI, 2025.

Markdown

[Lim et al. "Flat Posterior for Bayesian Model Averaging." ICLR 2025 Workshops: FPI, 2025.](https://mlanthology.org/iclrw/2025/lim2025iclrw-flat/)

BibTeX

@inproceedings{lim2025iclrw-flat,
  title     = {{Flat Posterior for Bayesian Model Averaging}},
  author    = {Lim, Sungjun and Yeom, Jeyoon and Kim, Sooyon and Byun, Hoyoon and Kang, Jinho and Jung, Yohan and Jung, Jiyoung and Song, Kyungwoo},
  booktitle = {ICLR 2025 Workshops: FPI},
  year      = {2025},
  url       = {https://mlanthology.org/iclrw/2025/lim2025iclrw-flat/}
}