中文

Accelerating Redshift-Conditioned Galaxy Image Synthesis with One-step Generative Modeling

天体物理仪器与方法 2026-05-19 v1 星系天体物理 机器学习

摘要

Understanding galaxy morphology evolution across cosmic time requires models that can generate realistic galaxy populations conditioned on redshift. In this work, we study efficient redshift-conditioned generative modeling for astrophysical image synthesis using diffusion models and pixel-MeanFlow. We first review the connections between score-based diffusion models, Flow Matching, one-step generative models, and modern diffusion samplers. We then evaluate DDPM, DDIM, DEIS-AB2, DPM++2M, and one-step pixel-MeanFlow on the GalaxiesML-64 dataset using morphology-based metrics, including ellipticity, semi-major axis, S\'ersic index, and isophotal area. Our results show a clear accuracy-efficiency trade-off: standard DDPM sampling achieves the best distributional fidelity but requires high computational cost, while second-order samplers substantially improve efficiency over DDIM. Pixel-MeanFlow enables single-step generation and achieves competitive performance on several morphology statistics, though it remains weaker than many-step DDPM for fine-grained structure. Our results demonstrate that one-step generative models can recover key galaxy morphology statistics at orders-of-magnitude lower computational cost, opening a path toward efficient conditional simulators for large cosmological surveys and simulation-based scientific inference.

关键词

引用

@article{arxiv.2605.17546,
  title  = {Accelerating Redshift-Conditioned Galaxy Image Synthesis with One-step Generative Modeling},
  author = {Tianyue Yang and Sandro Tacchella and Xiao Xue},
  journal= {arXiv preprint arXiv:2605.17546},
  year   = {2026}
}

备注

19 pages, 8 figures