对cpu、fpga和gpu的电级攻击:异构时代的调查和启示

Dina G. Mahmoud, Vincent Lenders, Mirjana Stojilović
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引用次数: 8

摘要

考虑到对高效高性能计算的需求,结合中央处理单元(cpu)、图形处理单元(gpu)和现场可编程门阵列(fpga)的计算机体系结构目前很流行。然而,这些组件都存在电气层面的安全风险。在迁移到异构系统(具有多租户的潜力)时,有必要了解和研究单个组件的安全漏洞如何影响整个系统。在这项工作中,我们提供了对cpu, fpga和gpu的电级攻击的调查。此外,我们还讨论了这些攻击是否可以扩展到异构系统,并强调了未来确保异构计算系统安全的开放研究方向。
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Electrical-Level Attacks on CPUs, FPGAs, and GPUs: Survey and Implications in the Heterogeneous Era
Given the need for efficient high-performance computing, computer architectures combining central processing units (CPUs), graphics processing units (GPUs), and field-programmable gate arrays (FPGAs) are currently prevalent. However, each of these components suffers from electrical-level security risks. Moving to heterogeneous systems, with the potential of multitenancy, it is essential to understand and investigate how the security vulnerabilities of individual components may affect the system as a whole. In this work, we provide a survey on the electrical-level attacks on CPUs, FPGAs, and GPUs. Additionally, we discuss whether these attacks can extend to heterogeneous systems and highlight open research directions for ensuring the security of heterogeneous computing systems in the future.
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