Lockstep Dual-Core ARM A9: Implementation and Resilience Analysis Under Heavy Ion-Induced Soft Errors

Lockstep Dual-Core ARM A9: Implementation and Resilience Analysis Under Heavy Ion-Induced Soft Errors

This paper presents a dual-core lockstep (DCLS) implementation to protect hard-core processors against radiation-induced soft errors. The proposed DCLS is applied to an Advanced RISC Machine Cortex-A9 embedded processor. Different software optimizations were evaluated to assess their impact on perfo...

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Veröffentlicht in:IEEE transactions on nuclear science 2018-08, Vol.65 (8), p.1783-1790
Hauptverfasser: Barros de Oliveira, Adria, Severino Rodrigues, Gennaro, Lima Kastensmidt, Fernanda, Added, Nemitala, Macchione, Eduardo L. A., Aguiar, Vitor A. P., Medina, Nilberto H., Silveira, Marcilei A. G.
Format: Artikel
Sprache:eng
Schlagworte:
Circuit faults
Context
Embedded processors reliability
Embedded systems
fault injection
Fault tolerance
Field programmable gate arrays
Heavy ions
lockstep
Microprocessors
Optimization
Program processors
Radiation
Radiation effects
radiation experiments
Registers
soft error
Soft errors
System reliability
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Zusammenfassung:This paper presents a dual-core lockstep (DCLS) implementation to protect hard-core processors against radiation-induced soft errors. The proposed DCLS is applied to an Advanced RISC Machine Cortex-A9 embedded processor. Different software optimizations were evaluated to assess their impact on performance and fault tolerance. Heavy ions' experiments and fault injection emulation were performed to analyze the system susceptibility to errors and the DCLS performance. Results show that the approach is able to decrease the system cross section and achieve high protection against errors. The DCLS successfully protects the system from up to 78% of the injected faults. The execution performance analysis shows that by reducing the number of verifications and augmenting the block partition execution time, it is possible to increase the system reliability with minimal performance losses.
ISSN:0018-9499
1558-1578
DOI:10.1109/TNS.2018.2852606