@Article{nanoCOPS16, author="ter Maten, E. Jan W. and Putek, Piotr A. and G{\"u}nther, Michael and Pulch, Roland and Tischendorf, Caren and Strohm, Christian and Schoenmaker, Wim and Meuris, Peter and De Smedt, Bart and Benner, Peter and Feng, Lihong and Banagaaya, Nicodemus and Yue, Yao and Janssen, Rick and Dohmen, Jos J. and Tasi{\'{c}}, Bratislav and Deleu, Frederik and Gillon, Renaud and Wieers, Aarnout and Brachtendorf, Hans-Georg and Bittner, Kai and Kratochv{\'i}l, Tom{\'a}{\v{s}} and Pet{\v{r}}zela, Ji{\v{r}}{\'i} and Sotner, Roman and G{\"o}tthans, Tom{\'a}{\v{s}} and D{\v{r}}{\'i}novsk{\'y}, Ji{\v{r}}{\'i} and Sch{\"o}ps, Sebastian and Duque Guerra, David J. and Casper, Thorben and De Gersem, Herbert and R{\"o}mer, Ulrich and Reynier, Pascal and Barroul, Patrice and Masliah, Denis and Rousseau, Beno{\^i}t", title="Nanoelectronic COupled problems solutions - nanoCOPS: modelling, multirate, model order reduction, uncertainty quantification, fast fault simulation", journal="Journal of Mathematics in Industry", year="2016", volume="7", number="1", pages="2", abstract="The FP7 project nanoCOPS derives new methods for simulation during development of designs of integrated products. It covers advanced simulation techniques for electromagnetics with feedback couplings to electronic circuits, heat and stress. It is inspired by interest from semiconductor industry and by a simulation tool vendor in electronic design automation. The project is on-going and the paper presents the outcomes achieved after the first half of the project duration.", issn="2190-5983", doi="10.1186/s13362-016-0025-5", url="http://dx.doi.org/10.1186/s13362-016-0025-5" }