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ORCIDEOOLT 2014: Berlin, Germany
- Peter Pepper, David Broman:
Equation-Based Object-Oriented Modeling Languages and Tools 2014, EOOLT 2014, Berlin, Germany, October 10, 2014. ACM 2014, ISBN 978-1-4503-2953-8
Algorithms and methods
- Volker Waurich, Ines Gubsch, Christian Schubert, Marcus Walther:
Reshuffling: a symbolic pre-processing algorithm for improved robustness, performance and parallelization for the simulation of differential algebraic equations. 3-10 - Patrick Täuber, Lennart A. Ochel
, Willi Braun, Bernhard Bachmann:
Practical realization and adaptation of Cellier's tearing method. 11-19 - Victorino Sanz, Alfonso Urquia, Francesco Casella:
Improving efficiency of hybrid system simulation in Modelica. 21-28
Modeling, languages and compilation
- Dirk Zimmer:
Handling infinitely fast processes in continuous system modeling. 31-34 - Matthias Arzt, Volker Waurich, Jörg Wensch:
Towards utilizing repeating structures for constant time compilation of large Modelica models. 35-38 - Henrik Nilsson, Thomas A. Nielsen:
Declarative modelling for Bayesian inference by shallow embedding. 39-42 - Klaus Röbenack, Jan Winkler, Mirko Franke:
Simulation of holonomic mechanical systems by means of automatic differentiation. 43-46
Parallelization and simulation performance
- Mahder Gebremedhin, Peter Fritzson:
Automatic task based analysis and parallelization in the context of equation based languages. 49-52 - Marcus Walther, Martin Flehmig, Ulf Markwardt, Niklas Worschech, Volker Waurich, Christian Schubert:
Performance analysis of equation based simulations. 53-56 - Robert Braun, Petter Krus:
An explicit method for decoupled distributed solvers in an equation-based modelling language. 57-65
Model processing and simulation
- Alexander Pollok, Daniel Bender:
Using multi-objective optimization to balance system-level model complexity. 69-78 - Akshay Ranade, Francesco Casella:
Multi-rate integration algorithms: a path towards efficient simulation of object-oriented models of very large systems. 79-82 - Arquimedes Canedo, Jan H. Richter:
Extraction of system functions from 1-D simulation component libraries. 83-91
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