Saved in:
Bibliographic Details
Main Authors: Liang, Yinan, Wang, Ziwei, Xu, Xiuwei, Zhou, Jie, Lu, Jiwen
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.15369
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866912283282636800
author Liang, Yinan
Wang, Ziwei
Xu, Xiuwei
Zhou, Jie
Lu, Jiwen
author_facet Liang, Yinan
Wang, Ziwei
Xu, Xiuwei
Zhou, Jie
Lu, Jiwen
contents While multimodal large language models demonstrate strong performance in complex reasoning tasks, they pose significant challenges related to model complexity during deployment, especially for resource-limited devices. In this paper, we propose an automatic pruning method for large vision-language models to enhance the efficiency of multimodal reasoning. Conventional methods rely on the training data of the original model to select the proper pruning ratio for different network components. However, these methods are impractical for large vision-language models due to the unaffordable search costs caused by web-scale training corpus. In contrast, our approach only leverages a small number of samples to search for the desired pruning policy by maximizing its generalization ability on unknown training data while maintaining the model accuracy, which enables the achievement of an optimal trade-off between accuracy and efficiency for large visual language models. Specifically, we formulate the generalization gap of the pruning strategy using the structural risk minimization principle. Based on both task performance and generalization capability, we iteratively search for the optimal pruning policy within a given search space and optimize the vision projector to evolve the search space with higher upper bound of performance. We conduct extensive experiments on the ScienceQA, Vizwiz, MM-vet, and LLaVA-Bench datasets for the task of visual question answering. Using only 64 samples for pruning policy search, EfficientLLaVA achieves an accuracy of 83.05% on ScienceQA, along with a $\times$ 1.8 speedup compared to the dense LLaVA-v1.5-7B model.
format Preprint
id arxiv_https___arxiv_org_abs_2503_15369
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle EfficientLLaVA:Generalizable Auto-Pruning for Large Vision-language Models
Liang, Yinan
Wang, Ziwei
Xu, Xiuwei
Zhou, Jie
Lu, Jiwen
Computer Vision and Pattern Recognition
While multimodal large language models demonstrate strong performance in complex reasoning tasks, they pose significant challenges related to model complexity during deployment, especially for resource-limited devices. In this paper, we propose an automatic pruning method for large vision-language models to enhance the efficiency of multimodal reasoning. Conventional methods rely on the training data of the original model to select the proper pruning ratio for different network components. However, these methods are impractical for large vision-language models due to the unaffordable search costs caused by web-scale training corpus. In contrast, our approach only leverages a small number of samples to search for the desired pruning policy by maximizing its generalization ability on unknown training data while maintaining the model accuracy, which enables the achievement of an optimal trade-off between accuracy and efficiency for large visual language models. Specifically, we formulate the generalization gap of the pruning strategy using the structural risk minimization principle. Based on both task performance and generalization capability, we iteratively search for the optimal pruning policy within a given search space and optimize the vision projector to evolve the search space with higher upper bound of performance. We conduct extensive experiments on the ScienceQA, Vizwiz, MM-vet, and LLaVA-Bench datasets for the task of visual question answering. Using only 64 samples for pruning policy search, EfficientLLaVA achieves an accuracy of 83.05% on ScienceQA, along with a $\times$ 1.8 speedup compared to the dense LLaVA-v1.5-7B model.
title EfficientLLaVA:Generalizable Auto-Pruning for Large Vision-language Models
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2503.15369