SODA: Spectral Orthogonal Decomposition Adaptation for Diffusion Models
Abstract
Adapting large-scale pre-trained generative models in a parameter-efficient manner is gaining traction. Traditional methods like low rank adaptation achieve parameter efficiency by imposing constraints but may not be optimal for tasks requiring high representation capacity. We propose a novel spectrum-aware adaptation framework for generative models. Our method adjusts both singular values and their basis vectors of pretrained weights. Using the Kronecker product and efficient Stiefel optimizers we achieve parameter-efficient adaptation of orthogonal matrices. Specifically we introduce Spectral Orthogonal Decomposition Adaptation (SODA) which balances computational efficiency and representation capacity. Extensive evaluations on text-to-image diffusion models demonstrate SODA's effectiveness offering a spectrum-aware alternative to existing fine-tuning methods.
Cite
Text
Zhang et al. "SODA: Spectral Orthogonal Decomposition Adaptation for Diffusion Models." Winter Conference on Applications of Computer Vision, 2025.Markdown
[Zhang et al. "SODA: Spectral Orthogonal Decomposition Adaptation for Diffusion Models." Winter Conference on Applications of Computer Vision, 2025.](https://mlanthology.org/wacv/2025/zhang2025wacv-soda/)BibTeX
@inproceedings{zhang2025wacv-soda,
title = {{SODA: Spectral Orthogonal Decomposition Adaptation for Diffusion Models}},
author = {Zhang, Xinxi and Wen, Song and Han, Ligong and Juefei-Xu, Felix and Srivastava, Akash and Huang, Junzhou and Pavlovic, Vladimir and Wang, Hao and Tao, Molei and Metaxas, Dimitris},
booktitle = {Winter Conference on Applications of Computer Vision},
year = {2025},
pages = {4665-4682},
url = {https://mlanthology.org/wacv/2025/zhang2025wacv-soda/}
}