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arxiv:2607.08766

OPSD-V: On-Policy Self-Distillation for Post-Training Few-Step Autoregressive Video Generators

Published on Jul 9
ยท Submitted by
Hongyu LIU
on Jul 9
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Abstract

OPSD-V enhances few-step autoregressive video diffusion models by using real long-video data for temporal context during training, providing dense trajectory-level supervision that improves visual quality and motion dynamics without altering inference mechanisms.

We propose OPSD-V, an on-policy self-distillation paradigm for post-training few-step autoregressive (AR) video diffusion models. Existing few-step AR video generators can produce long videos with low latency, but still suffer from error accumulation and weakened motion dynamics during long autoregressive rollout. OPSD-V reduces long-horizon degradation while preserving the original few-step inference path. The key idea is to introduce real long-video data as temporal context during training and use it to provide dense trajectory-level supervision. Specifically, the student follows the exact inference-time rollout, generating each chunk conditioned on its own previously generated KV cache. In parallel, the teacher is evaluated at the same student-visited denoising states, but uses a cleaner AR-consistent temporal cache in which older history can be replaced by real-video context. This provides dense denoising-level corrective targets under on-policy AR cache dynamics, without changing the sampler, number of denoising steps, or inference-time cache mechanism. We apply OPSD-V to representative few-step AR video models, including Self-Forcing and LongLive. Experiments show consistent improvements in visual quality, motion dynamics, and VBenchLong scores. A user study with 10 participants comparing 20 video pairs shows that OPSD-V is preferred over the base models in 66.0% of overall-preference judgments (82.5% excluding ties).

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OPSD-V proposes an on-policy self-distillation framework for post-training few-step autoregressive video generators. The method keeps the student on its actual inference-time rollout states while using real long-video context to construct cleaner teacher supervision, reducing long-horizon error accumulation and improving motion dynamics without changing the original few-step sampling path. We evaluate OPSD-V on Self-Forcing and LongLive, showing improved visual quality, motion dynamics, VBenchLong scores, and user preference.

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