基于介位元的晶片系统的相干攻击与对抗

IF 1.5 3区 计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Gino A. Chacon, Charles Williams, Johann Knechtel, Ozgur Sinanoglu, Paul V. Gratz, Vassos Soteriou
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引用次数: 0

摘要

工业界正朝着通过2.5D集成将处理器核心、存储器、加速器等捆绑在一起的大规模硬件系统发展。这些组件分别作为小芯片制造,然后使用中间体作为互连载体进行集成。这种新的设计风格在产量和规模经济方面是有益的,因为小芯片可能来自不同的供应商,并且相对容易集成到一个更大的复杂系统中。然而,这种方法的好处是以新的安全挑战为代价的,特别是在集成来自不受信任或不完全受信任的第三方供应商的小芯片时。在这项工作中,我们探讨了现代基于中介程序的缓存一致多核小芯片系统的这些挑战。首先,我们提出了基本的面向一致性的硬件木马攻击,这些攻击对基于芯片的设计构成重大威胁,并演示了这些基本攻击如何被精心策划,对基于中介程序的系统构成重大威胁。其次,我们提出了一个新的方案,使用一个主动中介器作为一个通用的、安全的构建平台,为现代2.5D系统形成一个物理的信任根。我们的方案的实现被限制在中介器上,因此成本很低,并且不影响小芯片和相干系统。我们表明,我们的方案可以防止一系列相干攻击,对系统性能的开销很低,约4%。此外,我们还证明了我们的方案可以随着系统大小和内存容量的增加而有效地扩展,从而降低了性能开销。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coherence Attacks and Countermeasures in Interposer-Based Chiplet Systems

Industry is moving towards large-scale hardware systems which bundle processor cores, memories, accelerators, etc. via 2.5D integration. These components are fabricated separately as chiplets and then integrated using an interposer as an interconnect carrier. This new design style is beneficial in terms of yield and economies of scale, as chiplets may come from various vendors and are relatively easy to integrate into one larger sophisticated system. However, the benefits of this approach come at the cost of new security challenges, especially when integrating chiplets that come from untrusted or not fully trusted, third- party vendors.

In this work, we explore these challenges for modern interposer-based systems of cache-coherent, multi-core chiplets. First, we present basic coherence-oriented hardware Trojan attacks that pose a significant threat to chiplet-based designs and demonstrate how these basic attacks can be orchestrated to pose a significant threat to interposer-based systems. Second, we propose a novel scheme using an active interposer as a generic, secure-by-construction platform that forms a physical root of trust for modern 2.5D systems. The implementation of our scheme is confined to the interposer, resulting in little cost and leaving the chiplets and coherence system untouched. We show that our scheme prevents a range of coherence attacks with low overheads on system performance, ∼ 4%. Further, we demonstrate that our scheme scales efficiently as system size and memory capacities increase, resulting in reduced performance overheads.

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来源期刊
ACM Transactions on Architecture and Code Optimization
ACM Transactions on Architecture and Code Optimization 工程技术-计算机:理论方法
CiteScore
3.60
自引率
6.20%
发文量
78
审稿时长
6-12 weeks
期刊介绍: ACM Transactions on Architecture and Code Optimization (TACO) focuses on hardware, software, and system research spanning the fields of computer architecture and code optimization. Articles that appear in TACO will either present new techniques and concepts or report on experiences and experiments with actual systems. Insights useful to architects, hardware or software developers, designers, builders, and users will be emphasized.
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