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27 results on '"Song, Linke"'

1. The Early Bird Catches the Leak: Unveiling Timing Side Channels in LLM Serving Systems

Author

Song, Linke, Pang, Zixuan, Wang, Wenhao, Wang, Zihao, Wang, XiaoFeng, Chen, Hongbo, Song, Wei, Jin, Yier, Meng, Dan, and Hou, Rui

Subjects
Computer Science - Cryptography and Security
Abstract

The wide deployment of Large Language Models (LLMs) has given rise to strong demands for optimizing their inference performance. Today's techniques serving this purpose primarily focus on reducing latency and improving throughput through algorithmic and hardware enhancements, while largely overlooking their privacy side effects, particularly in a multi-user environment. In our research, for the first time, we discovered a set of new timing side channels in LLM systems, arising from shared caches and GPU memory allocations, which can be exploited to infer both confidential system prompts and those issued by other users. These vulnerabilities echo security challenges observed in traditional computing systems, highlighting an urgent need to address potential information leakage in LLM serving infrastructures. In this paper, we report novel attack strategies designed to exploit such timing side channels inherent in LLM deployments, specifically targeting the Key-Value (KV) cache and semantic cache widely used to enhance LLM inference performance. Our approach leverages timing measurements and classification models to detect cache hits, allowing an adversary to infer private prompts with high accuracy. We also propose a token-by-token search algorithm to efficiently recover shared prompt prefixes in the caches, showing the feasibility of stealing system prompts and those produced by peer users. Our experimental studies on black-box testing of popular online LLM services demonstrate that such privacy risks are completely realistic, with significant consequences. Our findings underscore the need for robust mitigation to protect LLM systems against such emerging threats., Comment: This work was submitted for review on Sept. 5, 2024, and the initial version was uploaded to Arxiv on Sept. 30, 2024

Published
2024

2. The Road to Trust: Building Enclaves within Confidential VMs

Author

Wang, Wenhao, Song, Linke, Mei, Benshan, Liu, Shuang, Zhao, Shijun, Yan, Shoumeng, Wang, XiaoFeng, Meng, Dan, and Hou, Rui

Subjects
Computer Science - Cryptography and Security, Computer Science - Hardware Architecture
Abstract

Integrity is critical for maintaining system security, as it ensures that only genuine software is loaded onto a machine. Although confidential virtual machines (CVMs) function within isolated environments separate from the host, it is important to recognize that users still encounter challenges in maintaining control over the integrity of the code running within the trusted execution environments (TEEs). The presence of a sophisticated operating system (OS) raises the possibility of dynamically creating and executing any code, making user applications within TEEs vulnerable to interference or tampering if the guest OS is compromised. To address this issue, this paper introduces NestedSGX, a framework which leverages virtual machine privilege level (VMPL), a recent hardware feature available on AMD SEV-SNP to enable the creation of hardware enclaves within the guest VM. Similar to Intel SGX, NestedSGX considers the guest OS untrusted for loading potentially malicious code. It ensures that only trusted and measured code executed within the enclave can be remotely attested. To seamlessly protect existing applications, NestedSGX aims for compatibility with Intel SGX by simulating SGX leaf functions. We have also ported the SGX SDK and the Occlum library OS to NestedSGX, enabling the use of existing SGX toolchains and applications in the system. Performance evaluations show that context switches in NestedSGX take about 32,000 -- 34,000 cycles, approximately $1.9\times$ -- $2.1\times$ higher than that of Intel SGX. NestedSGX incurs minimal overhead in most real-world applications, with an average overhead below 2% for computation and memory intensive workloads and below 15.68% for I/O intensive workloads., Comment: NDSS 2025 accepted version

Published
2024

15. Study on path planning and tracking of the underground mining road-header

Author

Qu Yuanyuan, Song Linke, Ji Xiaodong, and Wu Miao

Subjects
road-header, path correction, movements scheduling, path tracking, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712, Mining engineering. Metallurgy, TN1-997
Abstract

According to the working characteristics of the underground road-header, path planning and movements scheduling for path correction of the road-header is formulated.The position and orientation errors of the road-header during working are also presented based on its kinematic model.Taking the working speed and turning angular speed as control inputs, the control law is designed and simplified to ensure the convergence of position and orientation errors based on the theory of sliding mode control.The stability of the proposed control system is proved by using the principle of Lyapunov.The corresponding simulations show that the designed tracking control enables the road-header to come back to the aimed path within limited adjusting steps, The whole scheduling scheme introduced for path correction is reasonable and feasible, and can provide a positive foundation for further study of automatic mining in the coal industry.

Published
2020
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18. Pore‐throat structure characteristics and fluid mobility analysis of tight sandstone reservoirs in Shaximiao Formation, Central Sichuan.

Author

Pan, Hui, Jiang, Yuqiang, Guo, Guian, Yang, Changcheng, Deng, Haibo, Zhu, Xun, Zeng, Qinggao, Song, Linke, Cao, Jixiang, Wang, Zhanlei, and Li, Miao

Subjects
SANDSTONE, NUCLEAR magnetic resonance, FRACTAL dimensions, CLAY minerals, FLUIDS
Abstract

The pore‐throat structure and fluid mobility are the key factors of tight sandstone reservoir classification and evaluation. Taking the Jurassic Shaximiao Formation tight sandstone reservoir in Central Sichuan Basin as an example, 19 samples were analysed by casting thin sections, scanning electron microscopy, high‐pressure mercury injection and nuclear magnetic resonance to clarify the pore‐throat structure, the fluid motility and its controlling factors. The results show that the pore type of Shaximiao Formation tight sandstone reservoir consist of intergranular pores, dissolved pores and a few microfractures. Based on the feature of capillary pressure curve, the pore‐throat structure was classified into three types, corresponding to different movable fluid characteristics. The Type I has large pore and throat radius, good pore‐throat connectivity, small fractal dimension, weak reservoir heterogeneity and strong fluid motility. The distribution range of pore‐throat radius is mainly from 0.3 to 1.1 μm and the average movable fluid porosity (MFP) and movable fluid saturation (MFS) are 6.04% and 49.93%. The Type II has poor pore‐throat sorting, weak fluid motility and the distribution range of pore‐throat radius is 0.01–0.03 μm and 0.2–0.8 μm. The average MFP and MFS of Type II are 1.13% and 14.3%. The Type III has the smallest pore‐throat radius and the largest fractal dimension, corresponding to the most complex pore‐throat structure, which lead to the worst fluid mobility. The average MFP and MFS are 0.49% and 12.76%. The fluid mobility of the tight sandstone reservoir is affected by physical properties and pore‐throat structure. The reservoirs with large pore‐throat size, good connectivity between pore and throat, and low heterogeneity have higher MFP and saturation. Moreover, the mineral compositions have different effects on fluid mobility of the tight sandstone. The feldspar positively affects fluid mobility, while the clay minerals negatively affect fluid mobility. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Differential precipitation mechanism of cement and its impact on reservoir quality in tight sandstone: A case study from the Jurassic Shaximiao formation in the central Sichuan Basin, SW China

Author

Tan, Dongping, primary, Luo, Long, additional, Song, Linke, additional, Liu, Fei, additional, Wang, Jinxi, additional, Gluyas, Jon, additional, Zhou, Huanhuan, additional, Wang, Jia, additional, Zhu, Chaobin, additional, Mo, Songyu, additional, Yu, Xin, additional, and Tan, Xianfeng, additional

Published
2023
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24. Differential Precipitation Mechanism of Cement and its Impact on Reservoir Quality in Tight Sandstone: A Case Study from the Jurassic Shaximiao Formation in the Central Sichuan Basin, Sw China

Author

Tan, Dongping, primary, Luo, Long, additional, Song, Linke, additional, Liu, Fei, additional, Wang, Jinxi, additional, Gluyas, Jon, additional, Zhou, Huanhuan, additional, Wang, Jia, additional, Zhu, Chaobin, additional, Mo, Songyu, additional, and Tan, Xianfeng, additional

Published
2022
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25. Numerical simulation of fractured horizontal well considering threshold pressure gradient, non‐Darcy flow, and stress sensitivity.

Author

Xiao, Honglin, Geng, Shaoyang, Luo, Hao, Song, Linke, Wang, Huiqiang, and He, Xing

Subjects
HORIZONTAL wells, GAS wells, COMPUTER simulation, AUTOMATIC differentiation, GAS reservoirs, HYDRAULIC fracturing, DARCY'S law
Abstract

Conventional numerical simulators cannot accurately predict the production of fractured horizontal wells in tight sandstone gas reservoirs due to the threshold pressure gradient (TPG) and stress sensitivity. Additionally, non‐Darcy flow in hydraulic fractures further complicates the prediction. Therefore, a numerical simulation model was developed to accurately predict the production of fractured horizontal wells that considers the TPG, non‐Darcy flow, and stress sensitivity using the embedded discrete fracture model. The model was solved using the automatic differentiation framework of MATLAB Reservoir Simulation Toolbox. The numerical simulation demonstrated that the Darcy flow model provided an optimistic prediction of the productivity of fractured gas wells in tight reservoirs. The TPG, non‐Darcy flow, and stress‐sensitive phenomena reduced the productivity of gas wells to varying degrees and severely affected the production of gas wells. The TPG effect, non‐Darcy effect, and stress sensitivity phenomenon reduced the gas well production by 1.66%, 12.9%, and 42.42%, respectively, compared with that of the Darcy flow. In contrast to the conventional Darcy flow model, the model established in this study can accurately predict the production of gas wells in production history matching. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Er3+–Yb3+ codoped oxyfluoride germanate glass ceramics containing SrF2 nanocrystals for 1.5 µm optical amplification.

Author

Li, Siqiang, Zhang, Xizhen, Song, Linke, Zhang, Yanqiu, Gao, Duan, Zhang, Sujuan, Pan, Xiuyu, Zhang, Yuhang, and Chen, Baojiu

Subjects
*GERMANATE glasses, *ABSORPTION cross sections, *NANOCRYSTALS, *CERAMICS, *PHONONS
Abstract

Er3+–Yb3+ codoped transparent oxyfluoride germanate glass ceramics (GCs) containing SrF2 nanocrystals (NCs) have been prepared by melt quenching method. We have measured absorption, photoluminescence (PL), and PL decay. The PL spectra excited at 378 nm and 980 nm for 1.53 µm near‐infrared (NIR) and visible emission have been investigated. By using Judd–Ofelt (JO) theory, optical transition parameters have been calculated. Thanks to low phonon energy SrF2 NCs and high fluorine oxyfluoride glass matrix, strong 1.53 µm emission with large measured lifetime (τmeas) are observed. After SrF2 NCs formed, the intensity parameter Ω2 becomes smaller for GC samples, the PL intensity and full width at half maximum increase. Absorption cross section (σa) and emission cross section (σe) at 1.5 µm have been calculated by McCumber theory. The luminescence efficiency (η), effective linewidth (Δλeff), gain bandwidth (σλeff), and figure of merit (σeτm) have been evaluated. The results show excellent optical amplification performance. [ABSTRACT FROM AUTHOR]

Published
2024
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