|
|
|
Differentiation Methods for Industrial Strength Problems-
incollection
- | |
|
Area
Electrical Engineering |
Author(s)
Wolfram Klein
, Andreas Griewank
, Andrea Walther
|
Published in
Automatic Differentiation of Algorithms: From Simulation to Optimization
|
Editor(s)
George Corliss, Christèle Faure, Andreas Griewank, Laurent Hascoët, Uwe Naumann |
Year
2002 |
Publisher
Springer |
Abstract
The importance of simulation has been growing in industrial production for many years. Because of reduced product cycles, new and more complicated computer models have to be developed more quickly. The correct description and implementation of the interaction between different components of the entire simulation model as well as the nonlinear behaviour of these components lead in many cases to the need for derivative information. In this chapter, we use software packages for automatic differentiation (ad) in three real world simulation systems typical for a wide range of tasks that have to be solved in numerous industrial applications. We consider difficulties arising from particular aspects of the modelling such as the integration of ordinary differential equations or fixed-point iterations for the solution of equations. Furthermore, we discuss challenges caused by technical software issues such as inhomogeneous source codes written in different languages or table look-ups. Several results concerning the use of tools such as ADIFOR, Odyssée, and ADOL-C are presented. We discuss the benefits and the difficulties of current ad techniques applied to real industrial codes. Finally, we outline possible future developments. |
Cross-References
Corliss2002ADo |
AD Tools
ADIFOR, ADOL-C, Odyssee |
BibTeX
@INCOLLECTION{
Klein2002DMf,
author = "Wolfram Klein and Andreas Griewank and Andrea Walther",
title = "Differentiation Methods for Industrial Strength Problems",
pages = "3--23",
chapter = "1",
crossref = "Corliss2002ADo",
booktitle = "Automatic Differentiation of Algorithms: From Simulation to Optimization",
year = "2002",
editor = "George Corliss and Christ{\`e}le Faure and Andreas Griewank and Laurent
Hasco{\"e}t and Uwe Naumann",
series = "Computer and Information Science",
publisher = "Springer",
address = "New York, NY",
abstract = "The importance of simulation has been growing in industrial production for many
years. Because of reduced product cycles, new and more complicated computer models have to be
developed more quickly. The correct description and implementation of the interaction between
different components of the entire simulation model as well as the nonlinear behaviour of these
components lead in many cases to the need for derivative information. In this chapter, we use
software packages for automatic differentiation~(AD) in three real world simulation systems typical
for a wide range of tasks that have to be solved in numerous industrial applications. We consider
difficulties arising from particular aspects of the modelling such as the integration of ordinary
differential equations or fixed-point iterations for the solution of equations. Furthermore, we
discuss challenges caused by technical software issues such as inhomogeneous source codes written in
different languages or table look-ups. Several results concerning the use of tools such as ADIFOR,
Odyss{\'e}e, and ADOL-C are presented. We discuss the benefits and the difficulties of
current AD techniques applied to real industrial codes. Finally, we outline possible future
developments.",
ad_area = "Electrical Engineering",
ad_tools = "ADIFOR, ADOL-C, Odyssee"
}
| |
back
|
|
