English

TRIO: Token Reduction via Inference-Objective Guidance for Efficient Vision-Language Models

Computer Vision and Pattern Recognition 2026-05-15 v3

Abstract

Recently, reducing redundant visual tokens in vision-language models (VLMs) to accelerate VLM inference has emerged as a hot topic. However, most existing methods rely on heuristics constructed based on inter-visual-token similarity or cross-modal visual-text similarity, which gives rise to certain limitations in compression performance and practical deployment. In contrast, we propose TRIO from the perspective of inference objectives, which transforms visual token compression into preserving output result invariance and selects tokens primarily by their importance to this goal. Specifically, vision tokens are reordered with the guidance of token-level gradient saliency generated by our designed layer-local proxy loss, a coarse constraint from the current layer to the final result. Then the most valuable vision tokens are selected following the non-maximum suppression (NMS) principle.The proposed TRIO is training-free and compatible with FlashAttention, friendly to practical application and deployment. It can be deployed independently as an encoder-free method, or combined with encoder compression approaches like VisionZip for use as an encoder-involved method. On LLaVA-Next-7B, TRIO retains just 11.1\% of visual tokens but maintains 97.2\% of the original performance, with a 2.75×\times prefill speedup, 2.14×\times inference speedup, 6.22×\times lower FLOPs, and 6.05×\times reduced KV Cache overhead.Our code is available at https://github.com/ocy1/TRIO.

Keywords

Cite

@article{arxiv.2602.04657,
  title  = {TRIO: Token Reduction via Inference-Objective Guidance for Efficient Vision-Language Models},
  author = {Haokui Zhang and Congyang Ou and Dawei Yan and Peng Wang and Qingsen Yan and Yu Zhang and Ying Li and Rong Xiao},
  journal= {arXiv preprint arXiv:2602.04657},
  year   = {2026}
}
R2 v1 2026-07-01T09:36:04.989Z