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arxiv: 2505.24360 · v3 · pith:QUK53CR6 · submitted 2025-05-30 · cs.LG

Interpreting Large Text-to-Image Diffusion Models with Dictionary Learning

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classification cs.LG
keywords dictionarydiffusioninterpretabilityitdasaesactivationactivationsautoencoders
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Sparse autoencoders are a promising new approach for decomposing language model activations for interpretation and control. They have been applied successfully to vision transformer image encoders and to small-scale diffusion models. Inference-Time Decomposition of Activations (ITDA) is a recently proposed variant of dictionary learning that takes the dictionary to be a set of data points from the activation distribution and reconstructs them with gradient pursuit. We apply Sparse Autoencoders (SAEs) and ITDA to a large text-to-image diffusion model, Flux 1, and consider the interpretability of embeddings of both by introducing a visual automated interpretation pipeline. We find that SAEs accurately reconstruct residual stream embeddings and beat MLP neurons on interpretability. We are able to use SAE features to steer image generation through activation addition. We find that ITDA has comparable interpretability to SAEs.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Robust and Generalizable Safety Steering for Text-to-Image Diffusion Transformers

    cs.AI 2026-05 unverdicted novelty 4.0

    SafeDIG applies position-aware sparse feature transfer via SAEs in DiT models to reduce unsafe generations in target risk domains on FLUX.1 Dev and SD 3.5 while keeping source safety and quality.