2016-04-07

Nanoelectronic coupled problem solutions: methods and applications

Dr. E. Jan W. ter Maten, Bergische Universität Wuppertal

27 Jun 2016, 16:15–17:45; Location: S2|17-103

The project nanoCOPS is a collaborative research project within the FP7-ICT research program funded by the European Union. The consortium comprises experts in mathematics and electrical engineering from six universities (BU Wuppertal, HU Berlin, Brno UT, TU Darmstadt, FH Oberösterreich Hagenberg im Mühlkreis, EMAU Greifswald), a research institute (Max-Planck-Institute Magdeburg), three industrial partners from semiconductor industry (NXP Semiconductors, Eindhoven, the Netherlands; ON Semiconductor, Oudenaarde, Belgium; ACCO Semiconductor, Louveciennes, France) and a vendor for electromagnetic simulation tools (MAGWEL, Leuven, Belgium).
We present an overview of innovative solutions in the steps for nanoelectronic design and coupled simulation: modelling aspects, multirate time integration, model order reduction, uncertainty quantification, robust optimization, fast fault simulation. We illustrate these for several industrial applications.

References

[1] H.H.J.M. Janssen, P. Benner, K. Bittner, H.-G. Brachtendorf, L. Feng, E.J.W. ter Maten, S. Sch ̈ ops, R. Pulch, W. Schoenmaker, C. Tischendorf: The European Project nanoCOPS for Nanoelectronic Coupled Problems Solutions. To appear in: G. Russo, V. Capasso, G. Nicosia, V. Romano (Eds): Progress in Industrial Mathematics at ECMI 2014, Series Mathematics in Industry 22, Springer, 2016.

[2] R. Janssen, J. ter Maten, C. Tischendorf, H.-G. Brachtendorf, K. Bittner, W. Schoenmaker, P. Benner, L. Feng, R. Pulch, F. Deleu, A. Wieers: The nanoCOPS project on algorithms for nanoelectronic coupled problems solutions. In B. Schreffler, E. Oñate, M. Papadrakakis (Eds.): Coupled Problems in Science and Engineering VI – COUPLED PROBLEMS 2015. Proceedings of the VI International Conference on Coupled Problems in Science and Engineering, May 18-20, 2015, San Servolo Island, Venice, Italy. Publ.: CIMNE - International Center for Numerical Methods in Engineering, Barcelona, Spain, 2015, ISBN 978-84-943928-3-2, pp. 1029–1036, 2015.

[3] E.J.W. ter Maten, P. Putek, M. Günther, R. Pulch, C. Tischendorf, C. Strohm, W. Schoenmaker, P. Meuris, B. De Smedt, P. Benner, L. Feng, N. Banagaaya, Y. Yue, R. Janssen, J.J. Dohmen, B. Tasić, F. Deleu, R. Gillon, A. Wieers, H.-G. Brachtendorf, K. Bittner, T. Kratochvíl, J. Petřzela, R. Sotner, T. G ̈ otthans, J. Dřínovský, S. Schöps, D.J. Duque, T. Casper, H. De Gersem, U. Römer, P. Reynier, P. Barroul, D. Masliah, B. Rousseau: Nanoelectronic COupled Problems Solutions - nanoCOPS: Modelling, Multirate, Model Order Reduction, Uncertainty Quantification, Fast Fault Simulation. To appear in Journal for Mathematics in Industry (Springer).

Acknowledgement

NanoCOPS is supported by the EU FP7-ICT-2013-11 Programme under Grant Agreement Number 619166 (Project nanoCOPS - nanoelectronic COupled Problems Solutions). For further details see http://www.fp7-nanocops.eu/.

Category: CE Seminar

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