AdaDiff: Adaptive Step Selection for Fast Diffusion Models

Diffusion models, as a type of generative model, have achieved impressive results in generating images and videos conditioned on textual conditions. However, the generation process of diffusion models involves denoising dozens of steps to produce photorealistic images/videos, which is computationally expensive. Unlike previous methods that design ``one-size-fits-all'' approaches for speed up, we argue denoising steps should be sample-specific conditioned on the richness of input texts. To this end, we introduce AdaDiff, a lightweight framework designed to learn instance-specific step usage policies, which are then used by the diffusion model for generation. AdaDiff is optimized using a policy gradient method to maximize a carefully designed reward function, balancing inference time and generation quality. We conduct experiments on three image generation and two video generation benchmarks and demonstrate that our approach achieves similar visual quality compared to the baseline using a fixed 50 denoising steps while reducing inference time by at least 33%, going as high as 40%. Furthermore, our method can be used on top of other acceleration methods to provide further speed benefits. Lastly, qualitative analysis shows that AdaDiff allocates more steps to more informative prompts and fewer steps to simpler prompts.

Authors

• Hui Zhang
• Zuxuan Wu Shanghai Key Lab of Intell. Info. Processing, School of CS, Fudan University Shanghai Collaborative Innovation Center of Intelligent Visual Computing
• Zhen Xing Shanghai Key Lab of Intell. Info. Processing, School of CS, Fudan University Shanghai Collaborative Innovation Center of Intelligent Visual Computing
• Jie Shao ByteDance Inc.
• Yu-Gang Jiang Shanghai Key Lab of Intell. Info. Processing, School of CS, Fudan University Shanghai Collaborative Innovation Center of Intelligent Visual Computing

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