Litcius/Paper detail

Analyzing Reduced Precision Triple Modular Redundancy Under Proton Irradiation

Luis A. García-Astudillo, Luis Entrena, Almudena Lindoso, Honorio Martín, Pedro Martín‐Holgado, M. García-Valderas

2022IEEE Transactions on Nuclear Science15 citationsDOIOpen Access PDF

Abstract

This work analyzes the performance of the reduced precision redundancy (RPR) error mitigation technique using the fast Fourier transform (FFT) as a case study. To this purpose, several configurations of an FFT IP design were implemented in field-programmable gate array (FPGA) using reduced precision triple modular redundancy (RP-TMR) and tested under proton irradiation and fault injection. The cross section, the sensitivity to common-mode failures (CMFs), and the signal-to-noise ratio of these configurations were evaluated. The results of the radiation experiments and fault injection campaigns are in agreement and show that the RP-TMR technique may be used as an alternative to triple modular redundancy (TMR) if small errors can be tolerated, as it has a good performance in terms of error correction capabilities, area usage, and sensitivity to critical errors.

Topics & Concepts

Triple modular redundancyRedundancy (engineering)Fast Fourier transformField-programmable gate arrayModular designFault toleranceComputer scienceError detection and correctionGate arrayElectronic engineeringEmbedded systemEngineeringAlgorithmOperating systemDistributed computingRadiation Effects in ElectronicsVLSI and Analog Circuit TestingLow-power high-performance VLSI design
Analyzing Reduced Precision Triple Modular Redundancy Under Proton Irradiation | Litcius