AroMa：评估深度学习系统对多租户加速器的窃取完整性攻击

IF 2.1 4区计算机科学 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

ACM Journal on Emerging Technologies in Computing Systems Pub Date : 2023-01-06 DOI:10.1145/3579033

Xiangru Chen, Maneesh Merugu, Jiaqi Zhang, Sandip Ray

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引用次数: 0

摘要

近年来，在计算即服务范式的支持下，多租户应用程序得到了迅猛发展。不幸的是，由于可能存在恶意意图的应用程序在空间或时间上的共存，多租户会导致新的安全漏洞。一个有趣的结论是，有可能对深度学习系统的内核权重执行有针对性的完整性攻击，这样它就可以保持功能，但通过标准的RowHammer攻击，只需改变总权重的0.0009%，就可以错误地标记输入数据的特定类别。我们对AroMa进行了广泛的评估，以证明其有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AroMa: Evaluating Deep Learning Systems for Stealthy Integrity Attacks on Multi-tenant Accelerators

Multi-tenant applications have been proliferating in recent years, supported by the emergence of computing-as-service paradigms. Unfortunately, multi-tenancy induces new security vulnerabilities due to spatial or temporal co-location of applications with possibly malicious intent. In this article, we consider a special class of stealthy integrity attacks on multi-tenant deep learning accelerators. One interesting conclusion is that it is possible to perform targeted integrity attacks on kernel weights of deep learning systems such that it remains functional but mis-labels specific categories of input data through standard RowHammer attacks by only changing 0.0009% of the total weights. We develop an automated framework, AroMa, to evaluate the impact of multi-tenancy on security of deep learning accelerators against integrity attacks on memory systems. We present extensive evaluations on AroMa to demonstrate its effectiveness.

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来源期刊

ACM Journal on Emerging Technologies in Computing Systems 工程技术-工程：电子与电气

CiteScore

4.80

自引率

4.50%

发文量

审稿时长

3 months

期刊介绍： The Journal of Emerging Technologies in Computing Systems invites submissions of original technical papers describing research and development in emerging technologies in computing systems. Major economic and technical challenges are expected to impede the continued scaling of semiconductor devices. This has resulted in the search for alternate mechanical, biological/biochemical, nanoscale electronic, asynchronous and quantum computing and sensor technologies. As the underlying nanotechnologies continue to evolve in the labs of chemists, physicists, and biologists, it has become imperative for computer scientists and engineers to translate the potential of the basic building blocks (analogous to the transistor) emerging from these labs into information systems. Their design will face multiple challenges ranging from the inherent (un)reliability due to the self-assembly nature of the fabrication processes for nanotechnologies, from the complexity due to the sheer volume of nanodevices that will have to be integrated for complex functionality, and from the need to integrate these new nanotechnologies with silicon devices in the same system. The journal provides comprehensive coverage of innovative work in the specification, design analysis, simulation, verification, testing, and evaluation of computing systems constructed out of emerging technologies and advanced semiconductors