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Multi-core Devices for Safety-critical Systems

Jon Pérez, Roman Obermaisser, Jaume Abella, Francisco J. Cazorla, Kim Grüttner, Irune Agirre, Hamidreza Ahmadian, Imanol Allende

2020ACM Computing Surveys66 citationsDOIOpen Access PDF

Abstract

Multi-core devices are envisioned to support the development of next-generation safety-critical systems, enabling the on-chip integration of functions of different criticality. This integration provides multiple system-level potential benefits such as cost, size, power, and weight reduction. However, safety certification becomes a challenge and several fundamental safety technical requirements must be addressed, such as temporal and spatial independence, reliability, and diagnostic coverage. This survey provides a categorization and overview at different device abstraction levels (nanoscale, component, and device) of selected key research contributions that support the compliance with these fundamental safety requirements.

Topics & Concepts

Computer scienceCertificationReliability (semiconductor)CriticalityReliability engineeringKey (lock)Component (thermodynamics)System integrationRisk analysis (engineering)AbstractionLife-critical systemSystems engineeringSoftwarePower (physics)Computer securityDatabaseProgramming languageQuantum mechanicsPhilosophyNuclear physicsMedicinePolitical scienceThermodynamicsLawEngineeringPhysicsEpistemologyRadiation Effects in ElectronicsVLSI and Analog Circuit TestingLow-power high-performance VLSI design
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