Title :
SRAM FPGA Reliability Analysis for Harsh Radiation Environments
Author :
Ostler, Patrick S. ; Caffrey, Michael P. ; Gibelyou, Derrick S. ; Graham, Paul S. ; Morgan, Keith S. ; Pratt, Brian H. ; Quinn, Heather M. ; Wirthlin, Michael J.
Author_Institution :
Space Data Syst. Group, Los Alamos Nat. Lab., Los Alamos, NM, USA
Abstract :
This paper investigates the viability of deploying SRAM-based FPGAs into harsh Earth-orbit environments. A reliability model is presented for estimating the MTTF of SRAM FPGA designs in specific orbits and orbit conditions. The model requires orbit- and condition-specific SEU rates and design-specific estimates of the probability of failure during a single scrubbing period. Probability of failure estimates are reported for several FPGA designs from both fault-injection and accelerator experiments. The model also includes a method for estimating composite mean time to failure (MTTF) that incorporates all orbit conditions over a solar cycle. Despite using pessimistic assumptions, the results from this model suggest that SRAM FPGA designs protected by TMR and scrubbing operate very reliably in a LEO orbit and surprisingly well in ¿harsh¿ orbits.
Keywords :
SRAM chips; failure analysis; field programmable gate arrays; integrated circuit reliability; logic design; radiation hardening (electronics); Earth-orbit environment; LEO orbit; MTTF; SEU rate; SRAM FPGA design; SRAM-based FPGA reliability analysis; TMR; accelerator experiment; fault-injection experiment; harsh radiation environment; mean time-to-failure; scrubbing period; solar cycle; Circuit faults; Computational efficiency; Field programmable gate arrays; Hardware; Laboratories; Orbits; Protection; Random access memory; Redundancy; Single event upset; FPGAs; redundancy; reliability modeling; single event effects;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2033381
