Building Communication Efficient Asynchronous Peer-to-Peer Federated LLMs with Blockchain

Sree Bhargavi Balija, Amitash Nanda, Debashis Sahoo
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Abstract

Large language models (LLM) have gathered attention with the advent of ChatGPT. However, developing personalized LLM models faces challenges in real-world applications due to data scarcity and privacy concerns. Federated learning addresses these issues, providing collaborative training while preserving the client’s data. Although it has made significant progress, federated learning still faces ongoing challenges, such as communication efficiency, heterogeneous data, and privacy-preserving methods. This paper presents a novel, fully decentralized federated learning framework for LLMs to address these challenges. We utilize different blockchain-federated LLM (BC-FL) algorithms, effectively balancing the trade-off between latency and accuracy in a decentralized-federated learning environment. Additionally, we address the challenge of communication overhead in peer-to-peer networks by optimizing the path for weight transfer and mitigating node anomalies. We conducted experiments to evaluate memory usage and latency in server and serverless environments. Our results demonstrate a decrease in latency by 5X and a 13% increase in accuracy for serverless cases. Comparisons between synchronous and asynchronous scenarios revealed a 76% reduction in information passing time for the latter. The PageRank method is most efficient in eliminating anomalous nodes for better performance of the global federated LLM model. The code is available on GitHub (https://github.com/Sreebhargavibalijaa/Federated_finetuning_LLM-s_p2p_environment)
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利用区块链构建通信效率高的异步点对点联合 LLM
随着 ChatGPT 的出现,大型语言模型(LLM)备受关注。然而,由于数据稀缺和隐私问题,开发个性化 LLM 模型在实际应用中面临挑战。联盟学习可以解决这些问题,在保留客户数据的同时提供协作训练。尽管联合学习已经取得了重大进展,但它仍然面临着持续的挑战,如通信效率、异构数据和隐私保护方法。本文提出了一种新颖的、完全去中心化的 LLM 联合学习框架,以应对这些挑战。我们利用不同的区块链联合 LLM(BC-FL)算法,有效地平衡了去中心化联合学习环境中延迟和准确性之间的权衡。此外,我们还通过优化权重传输路径和缓解节点异常来应对点对点网络中的通信开销挑战。我们进行了实验,以评估服务器和无服务器环境中的内存使用情况和延迟。结果表明,在无服务器情况下,延迟降低了 5 倍,准确率提高了 13%。同步和异步场景之间的比较显示,后者的信息传递时间减少了 76%。PageRank 方法能最有效地消除异常节点,从而提高全局联合 LLM 模型的性能。代码可在 GitHub 上获取 (https://github.com/Sreebhargavibalijaa/Federated_finetuning_LLM-s_p2p_environment)
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