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引用次数: 29
摘要
部署高完整性系统是为了实现安全关键应用。为了满足这个领域的严格要求,这些系统需要一种复杂的方法来设计、验证和认证。不仅安全考虑对产品的整体可靠性有影响,而且安全性也必须考虑在内。本文分析了时间触发片上系统(TTSoC)架构,这是一种多处理器片上系统(MPSoC)器件的新架构,它的安全性能。我们讨论了多独立安全层(Multiple Independent Layers of Security, MILS)体系结构的基本遵从性标准,这是一种适用于嵌入式高完整性系统的行业就绪体系结构。我们发现这两种体系结构共享内在属性,并且我们能够证明TTSoC体系结构实现了MILS分离内核的核心需求,从而通过设计实现了其基本安全策略。
A System-on-a-Chip Platform for Mixed-Criticality Applications
High–integrity systems are deployed in order to realize safety–critical applications. To meet the rigorous requirements in this domain, these systems require a sophisticated approach to design, verfication, and certification. Not only safety consideration shave an impact on a product’s overall dependability, but also security has to be taken into account. In this paper we analyze the Time–Triggered System–on–Chip (TTSoC) architecture, which is a novel architecture for Multi–Processor System–on–Chip (MPSoC) devices, regarding its security properties. We discuss essential compliance criteria to the Multiple Independent Layers of Security (MILS) architecture, which is a industry–ready architecture for embedded high–integrity systems. We found that both architectures share intrinsic properties and we are able to show that the TTSoC architecture implements the core requirements of a MILS Separation Kernel and thus realizes its elementary security policies by design.
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