English

HIVE: Hidden-Evidence Verification for Hallucination Detection in Diffusion Large Language Models

Computation and Language 2026-05-18 v2

Abstract

Diffusion large language models generate text through multi-step denoising, where hallucination signals may emerge throughout the trajectory rather than only in the final output. Existing detectors mainly rely on output uncertainty or coarse trace statistics, which often fail to capture the richer hidden dynamics of D-LLMs. We propose HIVE, a hidden-evidence verification framework that extracts compressed hidden evidence from denoising trajectories, selects informative step-layer evidence, and conditions a verifier language model on the selected evidence through prefix embeddings. HIVE produces both a continuous hallucination score from verifier decision logits and structured verification outputs, including hallucination types, evidence pairs, and short rationales. Across two D-LLMs and three QA benchmarks, HIVE consistently outperforms eight strong baselines and achieves up to 0.9236 AUROC and 0.9537 AUPRC. Ablation studies further confirm the importance of hidden-evidence conditioning, learned evidence selection, two-stream evidence representation, and step-layer embeddings. These results suggest that selected hidden evidence from denoising trajectories provides a stronger and more usable hallucination signal than output-only uncertainty or coarse trace statistics.

Keywords

Cite

@article{arxiv.2604.26139,
  title  = {HIVE: Hidden-Evidence Verification for Hallucination Detection in Diffusion Large Language Models},
  author = {Guoshenghui Zhao and Tan Yu and Weijie Zhao},
  journal= {arXiv preprint arXiv:2604.26139},
  year   = {2026}
}

Comments

5 figures, appendix included

R2 v1 2026-07-01T12:40:13.549Z