Complete Monte Carlo model description of lumped-element RSFQ logic circuits
Date
2005
Authors
Fourie C.J.
Perold W.J.
Gerber H.R.
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Over the last decade, Monte Carlo simulations have emerged as the most useful way of predicting the yield of RSFQ circuits, as they consider all manufacturing tolerance effects on a circuit, and are not restricted to bias current variations. Here we finally present a comprehensive definition of layout-extracted Monte Carlo model creation for lumped-element Spice simulations-from the local and global values for inductance, resistance and junction area from statistical models, to the inclusion of parasitics, layer-to-layer variations, variations in the penetration depth, and capacitance and mutual coupling. Finally, the addition of bias current trimming to the simulations to compensate for most global variations is described, and comparative yield results listed. © 2005 IEEE.
Description
Keywords
Capacitance, Computational complexity, Inductance, Josephson junction devices, Mathematical models, Monte Carlo methods, Probability distributions, Superconducting devices, Circuit models, Layout extraction, Monte Carlo models, RSFQ, Spice models, Yield production, Logic circuits
Citation
IEEE Transactions on Applied Superconductivity
15
2 PART I
15
2 PART I