Project Title
Extension of the Contour Integral Method for the Electrical Design of Planar Structures in Digital System
Institute
Principal Investigator
Co-Worker
Status
Abgeschlossen
Duration
01-09-2009
-
31-07-2013
Project Abstract
The fast-paced evolution of the semiconductor industry is putting forth great challenges on electronic design automation tools.
This thesis focuses on the efficient and accurate modeling of planar structures and power planes in digital systems by the extension of a fast two-dimensional numerical technique, the contour integral method. The extension includes the derivation of analytical expressions for rapid analysis of cylindrical vias as well as the combination with other efficient approaches for handling of complex multilayer systems. The validation and evaluation of the method and its extension are thoroughly addressed by a variety of application examples.
TUHH Universitätsbibliothek. TUBDok Link: http://doku.b.tu-harburg.de/volltexte/2012/1157
This thesis focuses on the efficient and accurate modeling of planar structures and power planes in digital systems by the extension of a fast two-dimensional numerical technique, the contour integral method. The extension includes the derivation of analytical expressions for rapid analysis of cylindrical vias as well as the combination with other efficient approaches for handling of complex multilayer systems. The validation and evaluation of the method and its extension are thoroughly addressed by a variety of application examples.
TUHH Universitätsbibliothek. TUBDok Link: http://doku.b.tu-harburg.de/volltexte/2012/1157