One-Step Diffusion Distillation via Deep Equilibrium Models
Abstract
Diffusion models excel at producing high-quality samples but naively require hundreds of iterations, prompting multiple attempts to distill the generation process into a faster network. However, many existing approaches suffer from a variety of challenges: the process for distillation training can be complex, often requiring multiple training stages, and the resulting models perform poorly when utilized in single-step generative applications. In this paper, we introduce a simple yet effective means of distilling diffusion models directly from initial noise to the resulting image. Of particular importance to our approach is to leverage a new Deep Equilibrium (DEQ) model as the distilled architecture: the Generative Equilibrium Transformer (GET). Our method enables fully offline training with just noise/image pairs from the diffusion model while achieving superior performance compared to existing one-step methods on comparable training budgets. We demonstrate that the DEQ architecture is crucial to this capability, as GET matches a larger ViT in terms of FID scores while striking a critical balance of computational cost and image quality. Code, checkpoints, and datasets are available.
Cite
@article{arxiv.2401.08639,
title = {One-Step Diffusion Distillation via Deep Equilibrium Models},
author = {Zhengyang Geng and Ashwini Pokle and J. Zico Kolter},
journal= {arXiv preprint arXiv:2401.08639},
year = {2024}
}
Comments
NeurIPS 2023