English

Towards More Accurate Diffusion Model Acceleration with A Timestep Tuner

Computer Vision and Pattern Recognition 2025-10-02 v2

Abstract

A diffusion model, which is formulated to produce an image using thousands of denoising steps, usually suffers from a slow inference speed. Existing acceleration algorithms simplify the sampling by skipping most steps yet exhibit considerable performance degradation. By viewing the generation of diffusion models as a discretized integral process, we argue that the quality drop is partly caused by applying an inaccurate integral direction to a timestep interval. To rectify this issue, we propose a \textbf{timestep tuner} that helps find a more accurate integral direction for a particular interval at the minimum cost. Specifically, at each denoising step, we replace the original parameterization by conditioning the network on a new timestep, enforcing the sampling distribution towards the real one. Extensive experiments show that our plug-in design can be trained efficiently and boost the inference performance of various state-of-the-art acceleration methods, especially when there are few denoising steps. For example, when using 10 denoising steps on LSUN Bedroom dataset, we improve the FID of DDIM from 9.65 to 6.07, simply by adopting our method for a more appropriate set of timesteps. Code is available at \href{https://github.com/THU-LYJ-Lab/time-tuner}{https://github.com/THU-LYJ-Lab/time-tuner}.

Keywords

Cite

@article{arxiv.2310.09469,
  title  = {Towards More Accurate Diffusion Model Acceleration with A Timestep Tuner},
  author = {Mengfei Xia and Yujun Shen and Changsong Lei and Yu Zhou and Ran Yi and Deli Zhao and Wenping Wang and Yong-Jin Liu},
  journal= {arXiv preprint arXiv:2310.09469},
  year   = {2025}
}
R2 v1 2026-06-28T12:50:29.357Z