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FAIR-Calib: Frontier-Aware Instability-Reweighted Calibration for Post-Training Quantization of Diffusion Large Language Models

Diffusion Large Language Models (dLLMs) refine tokens iteratively but commit them irreversibly, causing a "stability lag" where early decisions remain fragile. Post-Training Quantization (PTQ) error easily flips these borderline decisions at the write frontier, locking them in. FAIR-Calib, a two-stage PTQ framework, probes a full-precision teacher for a position prior and performs off-policy layer-wise calibration with a reweighted hidden-state MSE, protecting fragile frontier states without expensive end-to-end rollouts. Theoretically justified as a surrogate for output KL divergence, FAIR-Calib outperforms baselines on LLaDA and Dream (W4A4), reducing frontier flips and post-commit mismatches.

SourcearXiv Machine LearningAuthor: Haoyu Huang, Linlin Yang, Sheng Xu, Boyu Liu, Guodong Guo, Zhongqian Fu, Hang Zhou, Baochang Zhang

[2606.06547] FAIR-Calib: Frontier-Aware Instability-Reweighted Calibration for Post-Training Quantization of Diffusion Large Language Models

[Submitted on 4 Jun 2026]

Title:FAIR-Calib: Frontier-Aware Instability-Reweighted Calibration for Post-Training Quantization of Diffusion Large Language Models

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Abstract:Diffusion Large Language Models (dLLMs) refine tokens iteratively but commit them irreversibly, leading to a "stability lag" where early decisions remain fragile even after being written. We reveal that Post-Training Quantization (PTQ) error easily flips these borderline decisions at the write frontier, which are then permanently locked in and amplified. To address this, we propose Frontier-Aware Instability-Reweighted Calibration (FAIR-Calib), a two-stage PTQ framework for dLLMs. Stage I probes a full-precision teacher to estimate a position prior that combines frontier hits and masked-stage reliability. Stage II performs off-policy, layer-wise calibration by minimizing a reweighted hidden-state MSE, effectively prioritizing the protection of fragile frontier states without requiring expensive end-to-end diffusion rollouts. We further theoretically justify our weighted objective as a surrogate for output KL divergence. Empirically, FAIR-Calib consistently outperforms state-of-the-art baselines on LLaDA and Dream (W4A4), significantly reducing frontier decision flips and suppressing post-commit mismatches across diverse benchmarks.

Comments: Accepted as a poster at the 43rd International Conference on Machine Learning (ICML 2026)

Subjects:

Machine Learning (cs.LG); Artificial Intelligence (cs.AI)

Cite as: arXiv:2606.06547 [cs.LG]

(or arXiv:2606.06547v1 [cs.LG] for this version)

https://doi.org/10.48550/arXiv.2606.06547

arXiv-issued DOI via DataCite

Submission history

From: Haoyu Huang [view email] [v1] Thu, 4 Jun 2026 08:00:51 UTC (3,865 KB)

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