LoSiA: Efficient High-Rank Fine-Tuning via Subnet Localization and Optimization

Xujia Wang; Yunjia Qi; Bin Xu

2025 EMNLP EMNLP 2025

LoSiA: Efficient High-Rank Fine-Tuning via Subnet Localization and Optimization

Abstract

AbstractParameter-Efficient Fine-Tuning (PEFT) methods, such as LoRA, significantly reduce the number of trainable parameters by introducing low-rank decomposition matrices. However, existing methods perform extensive matrix multiplications in domain specialization tasks, resulting in computational inefficiency and sub-optimal fine-tuning performance. Hence, we propose LoSiA (**Lo**w-Resources **S**ubnet **I**ntegration **A**daptation), an innovative method that dynamically localizes and optimizes critical parameters during the training process. Specifically, it identifies a sub-network using gradient sparsity analysis and optimizes it as the trainable target. This design enables effective high-rank adaptation by updating only the sub-network parameters, reducing the additional matrix multiplication. We also present LoSiA-Pro, a faster implementation of LoSiA, which reduces the training latency by about 27% compared to LoRA. Extensive evaluations show that our method achieves minimal performance drop compared to full fine-tuning, while requiring the least training time across domain specialization and common-sense reasoning tasks. Further analysis shows that LoSiA also reduces forgetting during continued training.

🌉 Interdisciplinary Bridge — Artificial Intelligence and Deep Learning and Machine Learning

🧭 Keyword Pioneer — subnetwork localization

🐝 Cross-Pollinator — Artificial Intelligence, Computer Science, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Knowledge & Reasoning, Machine Learning, Mathematics & Optimization, Natural Language Processing, Reinforcement Learning, Robotics, Security & Privacy, Speech & Audio

Authors

Xujia Wang , Yunjia Qi , Bin Xu

Topics

Artificial Intelligence > Core AI > Foundation Models Artificial Intelligence > Core AI > Model Compression Machine Learning > Optimization & Theory > Neural Network Optimization Deep Learning > Techniques > Model Architecture Machine Learning > Application Areas > Model Compression Artificial Intelligence > Core AI > Efficient Computing Deep Learning > Optimization & Theory > Model Compression Machine Learning > Learning Types > Parameter-Efficient Fine-Tuning

Keywords

model compression knowledge distillation parameter-efficient fine-tuning low-rank adaptation high-rank adaptation subnetwork localization gradient sparsity subnetwork optimization subnet localization

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