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Main Authors: Lin, Yu, Zhang, Qizhi, Ruan, Wenqiang, Zhang, Daode, Hong, Jue, Wu, Ye, Xia, Hanning, Mao, Yunlong, Zhong, Sheng
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.01499
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author Lin, Yu
Zhang, Qizhi
Ruan, Wenqiang
Zhang, Daode
Hong, Jue
Wu, Ye
Xia, Hanning
Mao, Yunlong
Zhong, Sheng
author_facet Lin, Yu
Zhang, Qizhi
Ruan, Wenqiang
Zhang, Daode
Hong, Jue
Wu, Ye
Xia, Hanning
Mao, Yunlong
Zhong, Sheng
contents The rapid development of large language models (LLMs) has driven the widespread adoption of cloud-based LLM inference services, while also bringing prominent privacy risks associated with the transmission and processing of private data in remote inference. For privacy-preserving LLM inference technologies to be practically applied in industrial scenarios, three core requirements must be satisfied simultaneously: (1) Accuracy and efficiency losses should be minimized to mitigate degradation in service experience. (2) The inference process can be run on large-scale clusters consist of heterogeneous legacy xPUs. (3) Compatibility with existing LLM infrastructures should be ensured to reuse their engineering optimizations. To the best of our knowledge, none of the existing privacy-preserving LLM inference methods satisfy all the above constraints while delivering meaningful privacy guarantees. In this paper, we propose AloePri, the first privacy-preserving LLM inference method for industrial applications. AloePri protects both the input and output data by covariant obfuscation, which jointly transforms data and model parameters to achieve better accuracy and privacy. We carefully design the transformation for each model component to ensure inference accuracy and data privacy while keeping full compatibility with existing infrastructures of Language Model as a Service. AloePri has been integrated into an industrial system for the evaluation of mainstream LLMs. The evaluation on Deepseek-V3.1-Terminus model (671B parameters) demonstrates that AloePri causes accuracy loss of 0.0%~3.5% and exhibits efficiency equivalent to that of plaintext inference. Meanwhile, AloePri successfully resists state-of-the-art attacks, with less than 5\% of tokens recovered. To the best of our knowledge, AloePri is the first method to exhibit practical applicability to large-scale models in real-world systems.
format Preprint
id arxiv_https___arxiv_org_abs_2603_01499
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Towards Privacy-Preserving LLM Inference via Covariant Obfuscation (Technical Report)
Lin, Yu
Zhang, Qizhi
Ruan, Wenqiang
Zhang, Daode
Hong, Jue
Wu, Ye
Xia, Hanning
Mao, Yunlong
Zhong, Sheng
Cryptography and Security
Artificial Intelligence
The rapid development of large language models (LLMs) has driven the widespread adoption of cloud-based LLM inference services, while also bringing prominent privacy risks associated with the transmission and processing of private data in remote inference. For privacy-preserving LLM inference technologies to be practically applied in industrial scenarios, three core requirements must be satisfied simultaneously: (1) Accuracy and efficiency losses should be minimized to mitigate degradation in service experience. (2) The inference process can be run on large-scale clusters consist of heterogeneous legacy xPUs. (3) Compatibility with existing LLM infrastructures should be ensured to reuse their engineering optimizations. To the best of our knowledge, none of the existing privacy-preserving LLM inference methods satisfy all the above constraints while delivering meaningful privacy guarantees. In this paper, we propose AloePri, the first privacy-preserving LLM inference method for industrial applications. AloePri protects both the input and output data by covariant obfuscation, which jointly transforms data and model parameters to achieve better accuracy and privacy. We carefully design the transformation for each model component to ensure inference accuracy and data privacy while keeping full compatibility with existing infrastructures of Language Model as a Service. AloePri has been integrated into an industrial system for the evaluation of mainstream LLMs. The evaluation on Deepseek-V3.1-Terminus model (671B parameters) demonstrates that AloePri causes accuracy loss of 0.0%~3.5% and exhibits efficiency equivalent to that of plaintext inference. Meanwhile, AloePri successfully resists state-of-the-art attacks, with less than 5\% of tokens recovered. To the best of our knowledge, AloePri is the first method to exhibit practical applicability to large-scale models in real-world systems.
title Towards Privacy-Preserving LLM Inference via Covariant Obfuscation (Technical Report)
topic Cryptography and Security
Artificial Intelligence
url https://arxiv.org/abs/2603.01499