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Main Authors: Jia, Ruofan, Xie, Weiying, Lei, Jie, Ma, Jitao, Qin, Haonan, Fang, Leyuan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.16796
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author Jia, Ruofan
Xie, Weiying
Lei, Jie
Ma, Jitao
Qin, Haonan
Fang, Leyuan
author_facet Jia, Ruofan
Xie, Weiying
Lei, Jie
Ma, Jitao
Qin, Haonan
Fang, Leyuan
contents While large pre-trained models have achieved impressive performance across AI tasks, their deployment in privacy-sensitive and distributed environments remains challenging. Federated learning (FL) offers a viable solution by enabling decentralized fine-tuning without data sharing, but real-world applications face significant obstacles due to heterogeneous client resources in compute and memory. To address this, we propose HeteroTune, a novel federated fine-tuning paradigm for large, heterogeneous models operating under limited communication and computation budgets. The core of our method lies in a novel architecture, DeMA (Dense Mixture of Adapters), which enables flexible and efficient aggregation of heterogeneous models by preserving their full representational capacity while facilitating seamless cross-model knowledge fusion. We further introduce CMGA (Cross-Model Gradient Alignment), a lightweight yet effective mechanism that enhances training stability by harmonizing gradient directions across heterogeneous client models during aggregation, mitigating update conflicts and promoting more consistent convergence in federated settings. We provide both theoretical analysis and empirical evidence showing that HeteroTune achieves state-of-the-art performance and efficiency across diverse tasks and model architectures. For example, on LLaMA models, it reduces communication overhead by 99.5%, cuts peak memory usage by ~50%, and improves performance by 4.61%.
format Preprint
id arxiv_https___arxiv_org_abs_2411_16796
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle HeteroTune: Efficient Federated Learning for Large Heterogeneous Models
Jia, Ruofan
Xie, Weiying
Lei, Jie
Ma, Jitao
Qin, Haonan
Fang, Leyuan
Machine Learning
Computation and Language
Computer Vision and Pattern Recognition
Distributed, Parallel, and Cluster Computing
68T07
I.2.11
While large pre-trained models have achieved impressive performance across AI tasks, their deployment in privacy-sensitive and distributed environments remains challenging. Federated learning (FL) offers a viable solution by enabling decentralized fine-tuning without data sharing, but real-world applications face significant obstacles due to heterogeneous client resources in compute and memory. To address this, we propose HeteroTune, a novel federated fine-tuning paradigm for large, heterogeneous models operating under limited communication and computation budgets. The core of our method lies in a novel architecture, DeMA (Dense Mixture of Adapters), which enables flexible and efficient aggregation of heterogeneous models by preserving their full representational capacity while facilitating seamless cross-model knowledge fusion. We further introduce CMGA (Cross-Model Gradient Alignment), a lightweight yet effective mechanism that enhances training stability by harmonizing gradient directions across heterogeneous client models during aggregation, mitigating update conflicts and promoting more consistent convergence in federated settings. We provide both theoretical analysis and empirical evidence showing that HeteroTune achieves state-of-the-art performance and efficiency across diverse tasks and model architectures. For example, on LLaMA models, it reduces communication overhead by 99.5%, cuts peak memory usage by ~50%, and improves performance by 4.61%.
title HeteroTune: Efficient Federated Learning for Large Heterogeneous Models
topic Machine Learning
Computation and Language
Computer Vision and Pattern Recognition
Distributed, Parallel, and Cluster Computing
68T07
I.2.11
url https://arxiv.org/abs/2411.16796