Towards resilient multicore architectures for real-time controls

The DOD community is interested in multicore system-on-a-chip architectures to host Multi-Level Secure (MLS) command and control systems. These systems must be secure and resilient, not unlike hardened real-time control systems used in critical infrastructures. In this paper we discuss how Smart Gri...

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Hauptverfasser:	Bradetich, Ryan, Oman, Paul, Alves-Foss, Jim, Smith, Jessica
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Kernel Linux Microprocessors Multi-Level Security Multicore Architecture Multicore processing Program processors Resilient Systems System-on-a-chip
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creator	Bradetich, Ryan Oman, Paul Alves-Foss, Jim Smith, Jessica
description	The DOD community is interested in multicore system-on-a-chip architectures to host Multi-Level Secure (MLS) command and control systems. These systems must be secure and resilient, not unlike hardened real-time control systems used in critical infrastructures. In this paper we discuss how Smart Grid features will fundamentally change our power grid and communication infrastructures, and suggest that resilient multicore systems-on-a-chip may offer a solution to the increased complexity of our critical infrastructure control systems, if those architectures can be suitably hardened. We showcase two vulnerabilities in the Cell Broadband Engine and show how those vulnerabilities can be mitigated using changes to the Linux kernel. Similar problems can been found in the Intel Nehalem architecture and the Freescale P4080 architecture. We conclude that multicore architectures are only suitable for MLS and resilient real-time controls if, and only if, designers pay close attention to mitigating the inherent firmware and software vulnerabilities.
doi_str_mv	10.1109/ISRCS.2010.5603488
format	Conference Proceeding
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subjects	Kernel Linux Microprocessors Multi-Level Security Multicore Architecture Multicore processing Program processors Resilient Systems System-on-a-chip
title	Towards resilient multicore architectures for real-time controls
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