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Improved Sample Complexity Bounds for Diffusion Model Training

Machine Learning 2025-11-19 v4 Computer Vision and Pattern Recognition Information Theory math.IT Statistics Theory Machine Learning Statistics Theory
Authors: Shivam Gupta , Aditya Parulekar , Eric Price , Zhiyang Xun
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Abstract

Diffusion models have become the most popular approach to deep generative modeling of images, largely due to their empirical performance and reliability. From a theoretical standpoint, a number of recent works have studied the iteration complexity of sampling, assuming access to an accurate diffusion model. In this work, we focus on understanding the sample complexity of training such a model; how many samples are needed to learn an accurate diffusion model using a sufficiently expressive neural network? Prior work showed bounds polynomial in the dimension, desired Total Variation error, and Wasserstein error. We show an exponential improvement in the dependence on Wasserstein error and depth, along with improved dependencies on other relevant parameters.

Keywords

diffusion model generalization bounds generalization in machine learning

Cite

@article{arxiv.2311.13745,
  title  = {Improved Sample Complexity Bounds for Diffusion Model Training},
  author = {Shivam Gupta and Aditya Parulekar and Eric Price and Zhiyang Xun},
  journal= {arXiv preprint arXiv:2311.13745},
  year   = {2025}
}

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