Chip-Level Characterization And Rtn-Induced Error Mitigation Beyond 20nm Floating Gate Flash Memory
2018 IEEE INTERNATIONAL RELIABILITY PHYSICS SYMPOSIUM (IRPS)(2018)
摘要
Vt instability caused by random telegraph noise (RTN) in floating gate flash memories beyond 20nm is studied comprehensively. Experiments reveal that the RTN would cause Vt distribution with a kinked tail which re-distributes to a "Gaussian-like" shape rapidly and was measured by the self established Budget Product Tester (BPT). A Multi-Times Verify (MTV) algorithm to mitigate the statistical tail, thus enlarging operation window is also exhibited by BPT. In further, a probability model to portray the compact Vt distribution under MTV is proposed. Finally, the impact of MTV on lowering the requirement of Error-correcting code (ECC) bit is also demonstrated.
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关键词
statistical tail,BPT,compact Vt distribution,MTV,chip-level characterization,RTN-induced error mitigation,Vt instability,random telegraph noise,kinked tail,floating gate flash memory,error-correcting code bit,budget product tester,multitimes verify algorithm,size 20.0 nm
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