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Single Event Upsets Under 14-MeV Neutrons in a 28-nm SRAM-Based FPGA in Static Mode

Juan Carlos Fabero, Hortensia Mecha, Francisco J. Franco, Juan Antonio Clemente, Golnaz Korkian, Solenne Rey, Benjamin Cheymol, Maud Baylac, G. Hubert, Raoul Velazco

2020IEEE Transactions on Nuclear Science35 citationsDOIOpen Access PDF

Abstract

A sensitivity characterization of a Xilinx Artix-7 field programmable gate array (FPGA) against 14.2-MeV neutrons is presented. The content of the internal static random access memories (SRAMs) and flip-flops was downloaded in a PC and compared with a golden version of it. Flipped cells were identified and classified as cells of the configuration RAM, block RAM (BRAM), or flip-flops. Single bit upsets (SBUs) and multiple cell upsets (MCUs) with multiplicities ranging from 2 to 8 were identified using a statistical method. Possible shapes of multiple events are also investigated, showing a trend to follow wordlines. Finally, MUlti-Scales Single Event Phenomena Predictive Platform (MUSCA SEP3) was used to make assessment of actual environments and an improvement of single event upset (SEU) injection test is proposed.

Topics & Concepts

Single event upsetUpsetStatic random-access memoryField-programmable gate arraySBusFlip-flopPhysicsFLOPSEvent (particle physics)Computer scienceEmbedded systemComputer hardwareEngineeringParallel computingCMOSOptoelectronicsMetal-organic frameworkOrganic chemistryAdsorptionChemistryQuantum mechanicsMechanical engineeringRadiation Effects in ElectronicsPhysical Unclonable Functions (PUFs) and Hardware SecurityVLSI and Analog Circuit Testing
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