Fine-tuning masked diffusion for provable self-correction

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• Inference-Time Scaling in Diffusion Models through Iterative Partial Refinement cs.LG · 2026-05-19 · unverdicted · none · ref 22 · internal anchor

  IPR improves valid solution rates on MNIST Sudoku from 55.8% to 75.0% by iteratively refining partial regions in sequential diffusion models without external verifiers or reward models.

• Remask, Don't Replace: Token-to-Mask Refinement in Diffusion Large Language Models cs.CL · 2026-04-20 · unverdicted · none · ref 13 · internal anchor

  Token-to-Mask remasking improves self-correction in diffusion LLMs by resetting erroneous commitments to masks rather than overwriting them, yielding +13.33 points on AIME 2025 and +8.56 on CMATH.

• Locally Coherent Parallel Decoding in Diffusion Language Models cs.CL · 2026-03-03 · unverdicted · none · ref 8 · internal anchor

  CoDiLA adds a compact auxiliary AR model on diffusion latents to enforce local sequential validity during parallel token sampling in discrete diffusion language models.

• Discrete Stochastic Localization for Non-autoregressive Generation cs.LG · 2026-02-18 · unverdicted · none · ref 9 · internal anchor

  Discrete Stochastic Localization lets a single trained network support an entire family of per-token SNR paths for discrete sequence generation, with masked diffusion as a special case, and improves MAUVE scores when fine-tuning pretrained checkpoints.