High-Assurance Reconfigurable Multicore Processor Based Systems

M. Peshave, F. Bastani, I. Yen
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引用次数: 4

Abstract

The current trend in the silicon industry has been a steady migration towards Chip Multicore Processor (CMP) system to harvest more throughputs. However, chip multicore processors report higher values of soft errors, thereby degrading the overall system reliability. Hence, engineers have been wary of using CMP architectures for safety-critical embedded real-time system applications that require high reliability levels. The larger users of these processors also dictate the processor migration trends. With newer processor architectures, the older ones are destined to become obsolete. This paper compares typical safety-critical architectures and investigates the reliabilities of different CMP architectures. We present the fault tolerance framework and detailed reliability analysis of fault-tolerant single-core and multi-core based systems. The analysis results are then used to compare the reliability of CMP architectures with the corresponding reliability of single processor architectures. Although a CMP system does encounter degradation, by applying some system level dependability assurance mitigation features, its reliability can be enhanced. This enables CMP systems to be effectively deployed in critical applications.
基于高保证可重构多核处理器的系统
硅工业目前的趋势是向芯片多核处理器(CMP)系统稳步迁移,以获得更多的吞吐量。然而,芯片多核处理器报告更高的软错误值,从而降低了整个系统的可靠性。因此,工程师们一直对将CMP架构用于要求高可靠性的安全关键型嵌入式实时系统应用持谨慎态度。这些处理器的较大用户也决定了处理器迁移趋势。有了新的处理器体系结构,旧的就注定会过时。本文比较了典型的安全关键体系结构,并研究了不同CMP体系结构的可靠性。我们提出了容错框架,并详细分析了基于容错的单核和多核系统的可靠性。然后将分析结果用于比较CMP架构与单处理器架构的可靠性。尽管CMP系统确实会遇到降级,但通过应用一些系统级可靠性保证缓解特性,可以增强其可靠性。这使得CMP系统能够有效地部署在关键应用程序中。
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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