FlexSelect: Flexible Token Selection for Efficient Long Video Understanding

Long-form video understanding poses a significant challenge for video large language models (VideoLLMs) due to prohibitively high computational and memory demands. In this paper, we propose FlexSelect, a flexible and efficient token selection strategy for processing long videos. FlexSelect identifies and retains the most semantically relevant content by leveraging cross-modal attention patterns from a reference transformer layer. It comprises two key components: (1) a training-free token ranking pipeline that leverages faithful cross-modal attention weights to estimate each video token's importance, and (2) a rank-supervised lightweight selector that is trained to replicate these rankings and filter redundant tokens. This generic approach can be seamlessly integrated into various VideoLLM architectures, such as LLaVA-Video, InternVL and Qwen-VL, serving as a plug-and-play module to extend their temporal context length. Empirically, FlexSelect delivers strong gains across multiple long-video benchmarks including VideoMME, MLVU, LongVB, and LVBench. Moreover, it achieves significant speed-ups (for example, up to 9 times on a LLaVA-Video-7B model), highlighting FlexSelect's promise for efficient long-form video understanding. Project page available at:this https URL

@article{zhang2025_2506.00993,
  title={ FlexSelect: Flexible Token Selection for Efficient Long Video Understanding },
  author={ Yunzhu Zhang and Yu Lu and Tianyi Wang and Fengyun Rao and Yi Yang and Linchao Zhu },
  journal={arXiv preprint arXiv:2506.00993},
  year={ 2025 }
}