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SIERRA: a 3-D device simulator for reliability modeling
39
Citations
26
References
1989
Year
EngineeringComputer ArchitectureSystem ReliabilityIntegrated CircuitsHardware SystemsReliability EngineeringConjugate Gradient SquareSystems EngineeringModeling And SimulationReliability ModelingParallel ComputingIncomplete LuReliabilityElectrical EngineeringHardware ReliabilityComputer EngineeringConvergence RateDevice ReliabilityMicroelectronicsMemory ArchitectureReliability ModellingParallel ProgrammingCircuit ReliabilityCircuit Simulation3-D Device Simulator
SIERRA is a 3-D general-purpose semiconductor-device simulation program which serves as a foundation for investigating integrated-circuit (IC) device and reliability issues. This program solves the Poisson and continuity equations in silicon under DC, transient, and small-signal conditions. Executing on a vector/parallel minisupercomputer, SIERRA utilizes a matrix solver which uses an incomplete LU (ILU) preconditioned conjugate gradient square (CGS, BCG) method. The ILU-CGS method provides a good compromise between memory size and convergence rate. The authors have observed a 5* to 7* speedup over standard direct methods in simulations of transient problems containing highly coupled Poisson and continuity equations such as those found in reliability-oriented simulations. The application of SIERRA to parasitic CMOS latchup and DRAM (dynamic random-access memory) single-event-upset studies is described.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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