A Fast, Performant, Secure Distributed Training Framework For Large Language Model
This addresses security vulnerabilities in distributed LLM training for domain-specific applications, though it is incremental as it builds on existing TEE and fine-tuning methods.
The paper tackles the problem of malicious parameter and data theft in distributed LLM training by proposing a secure framework using model slicing and Trusted Execution Environments (TEEs), with experiments showing it maintains accuracy while ensuring security.
The distributed (federated) LLM is an important method for co-training the domain-specific LLM using siloed data. However, maliciously stealing model parameters and data from the server or client side has become an urgent problem to be solved. In this paper, we propose a secure distributed LLM based on model slicing. In this case, we deploy the Trusted Execution Environment (TEE) on both the client and server side, and put the fine-tuned structure (LoRA or embedding of P-tuning v2) into the TEE. Then, secure communication is executed in the TEE and general environments through lightweight encryption. In order to further reduce the equipment cost as well as increase the model performance and accuracy, we propose a split fine-tuning scheme. In particular, we split the LLM by layers and place the latter layers in a server-side TEE (the client does not need a TEE). We then combine the proposed Sparsification Parameter Fine-tuning (SPF) with the LoRA part to improve the accuracy of the downstream task. Numerous experiments have shown that our method guarantees accuracy while maintaining security.