Evaluation of logic SER for a network processor and the use of targeted hardening to improve system SER performance
Reliability Physics Symposium(2013)
摘要
Chip-level logic masking simulations were performed on a network processor with ~1.75M flip-flops to identify the masking factors and the functional blocks that contribute to most errors. Results indicate that most errors originate from a few functional blocks, and that targeted hardening of the flip-flops can significantly improve the overall system SER at very low area, speed, and power penalties. A novel hysteresis-based DFF hardening technique is presented with experimental results from a 28 nm test chip design.
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关键词
circuit simulation,flip-flops,logic circuits,logic design,chip-level logic masking simulations,functional blocks,hysteresis-based dff hardening technique,logic ser,masking factors,network processor,power penalties,size 28 nm,system ser performance,targeted hardening,test chip design,ser,alpha particles,flip-flop,hardening-by-design,hysteresis,logic masking,neutrons,single-event,soft error,timing masking,pipelines
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