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Main Authors: Chen, Yuzhe, Cao, Jiale, Liu, Xuyang, Xie, Jin, Yang, Aiping, Pang, Yanwei
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.06330
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author Chen, Yuzhe
Cao, Jiale
Liu, Xuyang
Xie, Jin
Yang, Aiping
Pang, Yanwei
author_facet Chen, Yuzhe
Cao, Jiale
Liu, Xuyang
Xie, Jin
Yang, Aiping
Pang, Yanwei
contents Diffusion Large Language Models (dLLMs) have achieved rapid progress, viewed as a promising alternative to the autoregressive paradigm. However, most dLLM decoders still adopt a global confidence threshold, and do not explicitly model local context from neighboring decoded states or temporal consistency of predicted token IDs across steps. To address this issue, we propose a simple spatio-temporal stability guided decoding approach, named STDec. We observe strong spatio-temporal stability in dLLM decoding: newly decoded tokens tend to lie near decoded neighbors, and their predicted IDs often remain consistent across several denoising steps. Inspired by this stability, our STDec includes spatial-aware decoding and temporal-aware decoding. The spatial-aware decoding dynamically generates the token-adaptive threshold by aggregating the decoded states of nearby tokens. The temporal-aware decoding relaxes the decoding thresholds for tokens whose predicted token IDs remain consistent over denoising steps. Our STDec is training-free and remains compatible with cache-based acceleration methods. Across textual reasoning and multimodal understanding benchmarks, STDec substantially improves throughput while maintaining comparable task performance score. Notably, on MBPP with LLaDA, STDec achieves up to 14.17x speedup with a comparable score. Homepage: https://yzchen02.github.io/STDec.
format Preprint
id arxiv_https___arxiv_org_abs_2604_06330
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle STDec: Spatio-Temporal Stability Guided Decoding for dLLMs
Chen, Yuzhe
Cao, Jiale
Liu, Xuyang
Xie, Jin
Yang, Aiping
Pang, Yanwei
Computation and Language
Diffusion Large Language Models (dLLMs) have achieved rapid progress, viewed as a promising alternative to the autoregressive paradigm. However, most dLLM decoders still adopt a global confidence threshold, and do not explicitly model local context from neighboring decoded states or temporal consistency of predicted token IDs across steps. To address this issue, we propose a simple spatio-temporal stability guided decoding approach, named STDec. We observe strong spatio-temporal stability in dLLM decoding: newly decoded tokens tend to lie near decoded neighbors, and their predicted IDs often remain consistent across several denoising steps. Inspired by this stability, our STDec includes spatial-aware decoding and temporal-aware decoding. The spatial-aware decoding dynamically generates the token-adaptive threshold by aggregating the decoded states of nearby tokens. The temporal-aware decoding relaxes the decoding thresholds for tokens whose predicted token IDs remain consistent over denoising steps. Our STDec is training-free and remains compatible with cache-based acceleration methods. Across textual reasoning and multimodal understanding benchmarks, STDec substantially improves throughput while maintaining comparable task performance score. Notably, on MBPP with LLaDA, STDec achieves up to 14.17x speedup with a comparable score. Homepage: https://yzchen02.github.io/STDec.
title STDec: Spatio-Temporal Stability Guided Decoding for dLLMs
topic Computation and Language
url https://arxiv.org/abs/2604.06330