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Main Authors: Lu, Beijia, Chen, Ziyi, Xiao, Jing, Zhu, Jun-Yan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.02617
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author Lu, Beijia
Chen, Ziyi
Xiao, Jing
Zhu, Jun-Yan
author_facet Lu, Beijia
Chen, Ziyi
Xiao, Jing
Zhu, Jun-Yan
contents Diffusion models can synthesize realistic co-speech video from audio for various applications, such as video creation and virtual agents. However, existing diffusion-based methods are slow due to numerous denoising steps and costly attention mechanisms, preventing real-time deployment. In this work, we distill a many-step diffusion video model into a few-step student model. Unfortunately, directly applying recent diffusion distillation methods degrades video quality and falls short of real-time performance. To address these issues, our new video distillation method leverages input human pose conditioning for both attention and loss functions. We first propose using accurate correspondence between input human pose keypoints to guide attention to relevant regions, such as the speaker's face, hands, and upper body. This input-aware sparse attention reduces redundant computations and strengthens temporal correspondences of body parts, improving inference efficiency and motion coherence. To further enhance visual quality, we introduce an input-aware distillation loss that improves lip synchronization and hand motion realism. By integrating our input-aware sparse attention and distillation loss, our method achieves real-time performance with improved visual quality compared to recent audio-driven and input-driven methods. We also conduct extensive experiments showing the effectiveness of our algorithmic design choices.
format Preprint
id arxiv_https___arxiv_org_abs_2510_02617
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Input-Aware Sparse Attention for Real-Time Co-Speech Video Generation
Lu, Beijia
Chen, Ziyi
Xiao, Jing
Zhu, Jun-Yan
Computer Vision and Pattern Recognition
Diffusion models can synthesize realistic co-speech video from audio for various applications, such as video creation and virtual agents. However, existing diffusion-based methods are slow due to numerous denoising steps and costly attention mechanisms, preventing real-time deployment. In this work, we distill a many-step diffusion video model into a few-step student model. Unfortunately, directly applying recent diffusion distillation methods degrades video quality and falls short of real-time performance. To address these issues, our new video distillation method leverages input human pose conditioning for both attention and loss functions. We first propose using accurate correspondence between input human pose keypoints to guide attention to relevant regions, such as the speaker's face, hands, and upper body. This input-aware sparse attention reduces redundant computations and strengthens temporal correspondences of body parts, improving inference efficiency and motion coherence. To further enhance visual quality, we introduce an input-aware distillation loss that improves lip synchronization and hand motion realism. By integrating our input-aware sparse attention and distillation loss, our method achieves real-time performance with improved visual quality compared to recent audio-driven and input-driven methods. We also conduct extensive experiments showing the effectiveness of our algorithmic design choices.
title Input-Aware Sparse Attention for Real-Time Co-Speech Video Generation
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2510.02617