Paper Detail

Speculative Decoding for Autoregressive Video Generation

Yuezhou Hu, Jintao Zhang

Browse

Workflow Queues

huggingface Score 8.5

Published 2026-04-19 · First seen 2026-04-22

General AI

Open paper source

Abstract

Autoregressive video diffusion is emerging as a promising paradigm for streaming video synthesis, with step distillation serving as the primary means of accelerating inference. Whether speculative decoding, the dominant acceleration strategy for large language models, can be effectively adapted to autoregressive video generation remains an open question, because video blocks are continuous spatiotemporal tensors with no token-level distribution for exact rejection sampling. We introduce SDVG, which brings speculative decoding to block-based autoregressive video diffusion by replacing token verification with an image-quality router. A 1.3B drafter proposes candidate blocks via four denoising steps; each block is VAE-decoded and scored by ImageReward using worst-frame aggregation--taking the minimum per-frame reward to catch single-frame artifacts that averaging would mask. Blocks scoring above a fixed threshold tau are accepted into the 14B target's KV cache; the rest are regenerated by the target. Two additional design choices prove critical: the first block is always force-rejected to anchor scene composition, and tau serves as a single knob that traces a smooth quality-speed Pareto frontier. On 1003 MovieGenVideoBench prompts (832x480), SDVG retains 98.1% of target-only VisionReward quality (0.0773 vs. 0.0788) at a 1.59x speedup with tau=-0.7, and reaches 2.09x at 95.7% quality retention--while consistently outperforming draft-only generation by over +17%. The framework is training-free, requires no architectural changes, and can be seamlessly integrated into existing autoregressive video generation pipelines.

Workflow Status

Review status
pending
Role
unreviewed
Read priority
soon
Vote
Not set.
Saved
no
Collections
Not filed yet.
Next action
Not filled yet.

Reading Brief

No structured notes yet. Add `summary_sections`, `why_relevant`, `claim_impact`, or `next_action` in `papers.jsonl` to enrich this view.

Why It Surfaced

No ranking explanation is available yet.

Tags

No tags.

Similar Papers

CausalCine: Real-Time Autoregressive Generation for Multi-Shot Video Narratives 2026-05-12 · Score 7.3 General AI LottieGPT: Tokenizing Vector Animation for Autoregressive Generation 2026-04-13 · Score 5.3 General AI A Systematic Post-Train Framework for Video Generation 2026-04-28 · Score 8.0 General AI RefAlign: Representation Alignment for Reference-to-Video Generation 2026-03-26 · Score 8.8 General AI Repurposing 3D Generative Model for Autoregressive Layout Generation 2026-04-17 · Score 7.3 General AI

BibTeX

@misc{hu2026speculative,
  title = {Speculative Decoding for Autoregressive Video Generation},
  author = {Yuezhou Hu and Jintao Zhang},
  year = {2026},
  abstract = {Autoregressive video diffusion is emerging as a promising paradigm for streaming video synthesis, with step distillation serving as the primary means of accelerating inference. Whether speculative decoding, the dominant acceleration strategy for large language models, can be effectively adapted to autoregressive video generation remains an open question, because video blocks are continuous spatiotemporal tensors with no token-level distribution for exact rejection sampling. We introduce SDVG, wh},
  url = {https://huggingface.co/papers/2604.17397},
  keywords = {autoregressive video diffusion, speculative decoding, step distillation, denoising steps, VAE-decoding, ImageReward, worst-frame aggregation, VisionReward, KV cache, Pareto frontier, huggingface daily},
  eprint = {2604.17397},
  archiveprefix = {arXiv},
}

Metadata

{}