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Improving Flow Matching by Aligning Flow Divergence

Machine Learning 2026-02-03 v1 Artificial Intelligence Numerical Analysis Numerical Analysis

Abstract

Conditional flow matching (CFM) stands out as an efficient, simulation-free approach for training flow-based generative models, achieving remarkable performance for data generation. However, CFM is insufficient to ensure accuracy in learning probability paths. In this paper, we introduce a new partial differential equation characterization for the error between the learned and exact probability paths, along with its solution. We show that the total variation gap between the two probability paths is bounded above by a combination of the CFM loss and an associated divergence loss. This theoretical insight leads to the design of a new objective function that simultaneously matches the flow and its divergence. Our new approach improves the performance of the flow-based generative model by a noticeable margin without sacrificing generation efficiency. We showcase the advantages of this enhanced training approach over CFM on several important benchmark tasks, including generative modeling for dynamical systems, DNA sequences, and videos. Code is available at \href{https://github.com/Utah-Math-Data-Science/Flow_Div_Matching}{Utah-Math-Data-Science}.

Keywords

Cite

@article{arxiv.2602.00869,
  title  = {Improving Flow Matching by Aligning Flow Divergence},
  author = {Yuhao Huang and Taos Transue and Shih-Hsin Wang and William Feldman and Hong Zhang and Bao Wang},
  journal= {arXiv preprint arXiv:2602.00869},
  year   = {2026}
}

Comments

Published in ICML 2025

R2 v1 2026-07-01T09:29:40.053Z