Editorial Cuvillier

Publicaciones, tesis doctorales, capacitaciónes para acceder a una cátedra de universidad & prospectos.
Su editorial internacional especializado en ciencias y economia

Editorial Cuvillier

De En Es
Structure-Exploiting Coupled Symbolic-Numerical Model Reduction For Electrical Networks

Impresion
EUR 30,45 EUR 28,93

E-Book
EUR 0,00

Download
PDF (8,3 MB)
Open Access CC BY 4.0

Structure-Exploiting Coupled Symbolic-Numerical Model Reduction For Electrical Networks (Tienda española)

Oliver Schmidt (Autor)

Previo

Indice, Datei (85 KB)
Lectura de prueba, Datei (320 KB)

ISBN-10 (Impresion) 3869555025
ISBN-13 (Impresion) 9783869555027
ISBN-13 (E-Book) 9783736935020
Idioma Inglés
Numero de paginas 196
Edicion 1 Aufl.
Volumen 0
Lugar de publicacion Göttingen
Lugar de la disertacion TU Kaiserslautern
Fecha de publicacion 29.09.2010
Clasificacion simple Tesis doctoral
Area Matemática
Descripcion

In order to avoid immense time and financial effort for the production of deficiently designed prototypes of integrated circuits (ICs), industrial circuit design uses mathematical models and simulations to predict and analyse the physical behavior of analog electronical systems. The thereby generated (partial) differential-algebraic systems of equations are composed of component characteristics and Kirchhoff laws.

During the last years, increasing miniaturization and integration density of components on a single chip led to systems containing several millions of equations, which have to be reduced to their dominant parts in order to handle the complexity. Besides a large number of numerical analysis and reduction methods, there also exist symbolic techniques, which indeed are costly to compute, but allow deeper analytical insights into the behavior of the system.

In this book, new strategies for the analysis and reduction of systems of ever-growing size and complexity are developed by exploiting the hierarchical structure of analog electronical circuits for coupled symbolic-numerical model reduction. Thereby, the entire circuit is considered as a system of subcircuits that are interconnected by a certain topology. By using a novel concept of subsystem sensitivities, a newly developed algorithm reduces the subcircuits separately from each other. This does not only allow for a faster solving of smaller problems, it further permits the coupling of different reduction techniques. Moreover, particularly in the symbolic case, larger systems become manageable at all. Finally, the advantages and the practicability of the new techniques are demonstrated on amplifier circuit examples typically used in industrial applications.