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FPGA
2003
ACM

Reducing pin and area overhead in fault-tolerant FPGA-based designs

14 years 5 months ago
Reducing pin and area overhead in fault-tolerant FPGA-based designs
This paper proposes a new high-level technique for designing fault tolerant systems in SRAM-based FPGAs, without modifications in the FPGA architecture. Traditionally, TMR has been successfully applied in FPGAs to mitigate transient faults, which are likely to occur in space applications. However, TMR comes with high area and power dissipation penalties. The proposed technique was specifically developed for FPGAs to cope with transient faults in the user combinational and sequential logic, while also reducing pin count, area and power dissipation. The methodology was validated by fault injection experiments in an emulation board. We present some fault coverage results and a comparison with the TMR approach. Categories and Subject Descriptors B.8.1 [Performance and Reliability]: Reliability, Testing, and Fault-Tolerance General Terms Design, Performance, Reliability. Keywords Fault-tolerance, FPGA.
Fernanda Lima, Luigi Carro, Ricardo Augusto da Luz
Added 06 Jul 2010
Updated 06 Jul 2010
Type Conference
Year 2003
Where FPGA
Authors Fernanda Lima, Luigi Carro, Ricardo Augusto da Luz Reis
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