Reduction of Numerical Sensitivities in Crash Simulations on HPC-Computers (HPC-10)
O. Mangold, R. Prohl, A. Tkachuk, und V. Trickov. Wolfgang E. Nagel, Dietmar B. Kröner, Michael M. Resch, (Eds.): High Performance Computing in Science and Engineering '11. Transactions of the High Performance Computing Center Stuttgart. Springer, Seite 631-636. (2012)
DOI: 10.1007/978-3-642-23869-7_46
Zusammenfassung
For practical application in engineering numerical simulations are required to be reliable and reproducible. Unfortunately crash simulations are highly complex and nonlinear and small changes in the initial state can produce big changes in the results. This is caused partially by physical instabilities and partially by numerical instabilities. Aim of the project is to identify the numerical sensitivities in crash simulations and suggest methods to reduce the scatter of the results.
Wolfgang E. Nagel, Dietmar B. Kröner, Michael M. Resch, (Eds.): High Performance Computing in Science and Engineering '11. Transactions of the High Performance Computing Center Stuttgart. Springer
%0 Conference Paper
%1 mangold2012reduction
%A Mangold, Oliver
%A Prohl, Raphael
%A Tkachuk, Anton
%A Trickov, Vladimir
%B Wolfgang E. Nagel, Dietmar B. Kröner, Michael M. Resch, (Eds.): High Performance Computing in Science and Engineering '11. Transactions of the High Performance Computing Center Stuttgart. Springer
%D 2012
%K KT ibb from:maltevonscheven inproceedings
%P 631-636
%R 10.1007/978-3-642-23869-7_46
%T Reduction of Numerical Sensitivities in Crash Simulations on HPC-Computers (HPC-10)
%X For practical application in engineering numerical simulations are required to be reliable and reproducible. Unfortunately crash simulations are highly complex and nonlinear and small changes in the initial state can produce big changes in the results. This is caused partially by physical instabilities and partially by numerical instabilities. Aim of the project is to identify the numerical sensitivities in crash simulations and suggest methods to reduce the scatter of the results.
@inproceedings{mangold2012reduction,
abstract = {For practical application in engineering numerical simulations are required to be reliable and reproducible. Unfortunately crash simulations are highly complex and nonlinear and small changes in the initial state can produce big changes in the results. This is caused partially by physical instabilities and partially by numerical instabilities. Aim of the project is to identify the numerical sensitivities in crash simulations and suggest methods to reduce the scatter of the results.},
added-at = {2021-03-09T13:40:59.000+0100},
author = {Mangold, Oliver and Prohl, Raphael and Tkachuk, Anton and Trickov, Vladimir},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/20cc87b75011f04d8e5733ce79bd24d8e/ibb-publication},
booktitle = {Wolfgang E. Nagel, Dietmar B. Kröner, Michael M. Resch, (Eds.): High Performance Computing in Science and Engineering '11. Transactions of the High Performance Computing Center Stuttgart. Springer},
doi = {10.1007/978-3-642-23869-7_46},
interhash = {2a059a5097f4df6862a16184b79466c3},
intrahash = {0cc87b75011f04d8e5733ce79bd24d8e},
keywords = {KT ibb from:maltevonscheven inproceedings},
pages = {631-636},
timestamp = {2021-03-09T12:40:59.000+0100},
title = {Reduction of Numerical Sensitivities in Crash Simulations on HPC-Computers (HPC-10)},
year = 2012
}
