Publication | Closed Access
Interplay between statistical reliability and variability: A comprehensive transistor-to-circuit simulation technology
20
Citations
13
References
2013
Year
Unknown Venue
EngineeringSimulationComputational ChemistryReliability EngineeringUncertainty QuantificationNumerical SimulationModeling And SimulationReliabilityElectrical EngineeringHardware ReliabilityTraps InteractionsPhysicsStatistical ReliabilityReliability Simulation FrameworkBias Temperature InstabilityComputer EngineeringAtomic PhysicsReliability PredictionDevice ReliabilityMicroelectronicsPhysic Of FailureReliability ModellingSoftware TestingApplied PhysicsVariability SourcesCircuit Reliability
In this paper we present a reliability simulation framework from atomistic simulations up to circuit simulations, including traps interactions with variability sources. Trapping and detrapping dynamics are reproduced by a kinetic Monte-Carlo engine, which enables oxide degradation simulations such as BTI and RTN phenomenon on large ensembles of atomistic devices. Based on these results compact models are extracted and circuit lifetime projections are derived.
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