GMSA: Enhancing Context Compression via Group Merging and Layer Semantic Alignment
Large language models (LLMs) have achieved impressive performance in a variety of natural language processing (NLP) tasks. However, when applied to long-context scenarios, they face two challenges, i.e., low computational efficiency and much redundant information. This paper introduces GMSA, a context compression framework based on the encoder-decoder architecture, which addresses these challenges by reducing input sequence length and redundant information. Structurally, GMSA has two key components: Group Merging and Layer Semantic Alignment (LSA). Group merging is used to effectively and efficiently extract summary vectors from the original context. Layer semantic alignment, on the other hand, aligns the high-level summary vectors with the low-level primary input semantics, thus bridging the semantic gap between different layers. In the training process, GMSA first learns soft tokens that contain complete semantics through autoencoder training. To furtherly adapt GMSA to downstream tasks, we propose Knowledge Extraction Fine-tuning (KEFT) to extract knowledge from the soft tokens for downstream tasks. We train GMSA by randomly sampling the compression rate for each sample in the dataset. Under this condition, GMSA not only significantly outperforms the traditional compression paradigm in context restoration but also achieves stable and significantly faster convergence with only a few encoder layers. In downstream question-answering (QA) tasks, GMSA can achieve approximately a 2x speedup in end-to-end inference while outperforming both the original input prompts and various state-of-the-art (SOTA) methods by a large margin.
View on arXiv@article{tang2025_2505.12215,
title={ GMSA: Enhancing Context Compression via Group Merging and Layer Semantic Alignment },
author={ Jiwei Tang and Zhicheng Zhang and Shunlong Wu and Jingheng Ye and Lichen Bai and Zitai Wang and Tingwei Lu and Jiaqi Chen and Lin Hai and Hai-Tao Zheng and Hong-Gee Kim },
journal={arXiv preprint arXiv:2505.12215},
year={ 2025 }
}