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Neutron Irradiation Testing and Analysis of a Fault-Tolerant RISC-V System-on-Chip

Douglas A. Santos, André Martins Pio de Mattos, Lucas Matana Luza, Carlo Cazzaniga, Maria Kastriotou, Douglas R. Melo, Luigi Dilillo

202211 citationsDOIOpen Access PDF

Abstract

The radiation in harsh environments affects electronic systems, inducing permanent and temporary errors. These effects lead to unpredictable behaviors detrimental to critical applications and fail-safe systems. This work evaluates the reliability of a fault-tolerant RISC-V System-on-Chip (SoC) under atmospheric neutron irradiation in a particle accelerator. Prior work has analyzed the effectiveness of the hardening techniques of this SoC in simulation and provided a preliminary characterization in an irradiation facility. The applied hardening techniques showed a significant reliability improvement compared to the unhardened implementation of the SoC. The system executed a performance benchmark as workload, which finished correctly in most runs despite suffering from Single Event Effects (SEEs). This work presents a detailed analysis of the experimental results, reporting error rates and classification, extending the analysis given in previous works. Finally, a comprehensive discussion of implementation limitations and the proposition of further improvements are provided.

Topics & Concepts

Computer scienceWorkloadReliability engineeringEmbedded systemReliability (semiconductor)Fault toleranceFault injectionNeutron irradiationBenchmark (surveying)NeutronSoftwareOperating systemEngineeringPhysicsPower (physics)Quantum mechanicsGeographyGeodesyRadiation Effects in ElectronicsLow-power high-performance VLSI designVLSI and Analog Circuit Testing
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