Journal Articles

[14] F. Rudolf, K. Rupp, J. Weinbub, A. Morhammer, S. Selberherr: Transformation Invariant Local Element Size Specification; Applied Mathematics and Computation, 267 (2015), 195 - 206. doi:10.1016/j.amc.2015.04.027 [BibTeX]

[13] P. Sharma, S. E. Tyaginov, Y. Wimmer, F. Rudolf, K. Rupp, M. Bina, H. Enichlmair, J.M. Park, R. Minixhofer, H. Ceric, T. Grasser: Modeling of Hot-Carrier Degradation in nLDMOS Devices: Different Approaches to the Solution of the Boltzmann Transport Equation; IEEE Transactions on Electron Devices, 62 (2015), 1811 - 1818. doi:10.1109/TED.2015.2421282 [BibTeX]

[12] J. Weinbub, M. Wastl, K. Rupp, F. Rudolf, S. Selberherr: ViennaMaterials - A Dedicated Material Library for Computational Science and Engineering; Applied Mathematics and Computation, 267 (2015), 282 - 293. doi:10.1016/j.amc.2015.03.094 [BibTeX]

[11] M. Bina, S. E. Tyaginov, J. Franco, K. Rupp, Y. Wimmer, D. Osintsev, B. Kaczer, T. Grasser: Predictive Hot-Carrier Modeling of n-Channel MOSFETs; IEEE Transactions on Electron Devices, 61 (2014), 3103 - 3110. doi:10.1109/TED.2014.2340575 [BibTeX]

[10] F. Rudolf, J. Weinbub, K. Rupp, S. Selberherr: The Meshing Framework ViennaMesh for Finite Element Applications; Journal of Computational and Applied Mathematics, 270 (2014), 166 - 177. doi:10.1016/j.cam.2014.02.005 [BibTeX]

[9] K. Rupp, Ph. Tillet, A. Jüngel, T. Grasser: Achieving Portable High Performance for Iterative Solvers on Accelerators; Proceedings in Applied Mathematics and Mechanics, 14 (2014), 963 - 964. doi:10.1002/pamm.201410462 [BibTeX]

[8] J. Weinbub, K. Rupp, S. Selberherr: Highly Flexible and Reusable Finite Element Simulations with ViennaX; Journal of Computational and Applied Mathematics, 270 (2014), 484 - 495. doi:10.1016/j.cam.2013.12.013 [BibTeX]

[7] J. Weinbub, K. Rupp, S. Selberherr: ViennaX: A Parallel Plugin Execution Framework for Scientific Computing; Engineering with Computers, 30 (2014), 651 - 668. doi:10.1007/s00366-013-0314-1 [BibTeX]

[6] D. Demidov, K. Ahnert, K. Rupp, P. Gottschling: Programming CUDA and OpenCL: A Case Study Using Modern C++ Libraries; SIAM Journal on Scientific Computing, 35 (2013), 453 - 472. doi:10.1137/120903683 [BibTeX]

[5] F. Ortmann et al.: Multi-Scale Modelling for Devices and Circuits; E-Nano Newsletter, Special Issue April 2012 (2012), 31 pages. [BibTeX]

[4] K. Rupp: High-Level Manipulation of OpenCL-Based Subvectors and Submatrices; Procedia Computer Science, 9 (2012), 1857 - 1866. doi:10.1016/j.procs.2012.04.204 [BibTeX]

[3] K. Rupp, S. Selberherr: The Economic Limit to Moore's Law; IEEE Transactions on Semiconductor Manufacturing, 24 (2011), 1; 1 - 4. doi:10.1109/TSM.2010.2089811 [BibTeX]

[2] K. Rupp, A. Jüngel, T. Grasser: Matrix Compression for Spherical Harmonics Expansions of the Boltzmann Transport Equation for Semiconductors; Journal of Computational Physics, 229 (2010), 8750 - 8765. doi:10.1016/j.jcp.2010.08.008 [BibTeX]

[1] K. Rupp, S. Selberherr: The Economic Limit to Moore´s Law; Proceedings of the IEEE, 98 (2010), 3; 351 - 353. doi:10.1109/JPROC.2010.2040205 [BibTeX]