DocumentCode
980834
Title
SPICE modeling of process variation using location depth corner models
Author
Rappitsch, Gerhard ; Seebacher, Ehrenfried ; Kocher, Michael ; Stadlober, Ernst
Author_Institution
Process & Device Characterization, austriamicrosystems AG, Premstatten, Austria
Volume
17
Issue
2
fYear
2004
fDate
5/1/2004 12:00:00 AM
Firstpage
201
Lastpage
213
Abstract
For robust designs, the influence of process variations has to be considered during circuit simulation. We propose a nonparametric statistical method to find sets of simulation parameters that cover the process spread with a minimum number of simulation runs. Process corners are determined from e-test parameter vectors using a location depth algorithm. The e-test corner vectors are then transformed to SPICE parameter vectors by a linear mapping. A special corner extension algorithm makes the resulting simulation setup robust against moderate process shifts while preserving the underlying correlation structure. To be applicable in a production and circuit design environment, the models are integrated into an automated model generation flow for usage within a design-framework. The statistical methods are validated for analog/mixed-signal benchmark circuits.
Keywords
CMOS analogue integrated circuits; MOSFET; SPICE; integrated circuit modelling; mixed analogue-digital integrated circuits; operational amplifiers; oscillators; SPICE modeling; analog/mixed-signal benchmark circuits; automated model generation; circuit simulation; corner extension algorithm; e-test parameter vectors; linear mapping; location depth algorithm; nonparametric statistical method; Circuit simulation; Circuit synthesis; Monte Carlo methods; Parametric statistics; Process design; Production; Robustness; SPICE; Statistical analysis; Vectors; Location depth; SPICE; process variation; robust design; simulation; statistical corner models;
fLanguage
English
Journal_Title
Semiconductor Manufacturing, IEEE Transactions on
Publisher
ieee
ISSN
0894-6507
Type
jour
DOI
10.1109/TSM.2004.826940
Filename
1296724
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