Publications Josef Weinbub

247 records

Books and Editorships

18.   Weinbub, J., Kotlyar, R. (2023).
Designing Future Quantum-Based Nanoelectronics Through Modeling and Simulation.
IEEE Nanotechnology Magazine, Vol.17, Institute of Electrical and Electronics Engineers (IEEE) (p. 3). https://doi.org/10.1109/MNANO.2023.3279710 (reposiTUm)

17.   Olivares, S., Weinbub, J. (Eds.). (2023).
IWW International Wigner Workshop 2023: Book of Abstracts.
Institute for Microelectronics, TU Wien. (reposiTUm)

16.   Ferry, D. K., Oriols, X., Weinbub, J. (2023).
Quantum Transport in Semiconductor Devices: Simulation Using Particles.
IOP Publishing. https://doi.org/10.1088/978-0-7503-5237-6 (reposiTUm)

15.   Kim, K., Weinbub, J., Everitt, M. (Eds.). (2021).
Book of Abstracts of the 4th International Wigner Workshop.
Institute for Microelectronics, TU Wien. (reposiTUm)

14.   Weinbub, J., Everitt, M., Ferry, D. K. (2021).
Special Issue on Wigner Functions in Computational Electronics and Photonics.
Journal of Computational Electronics, Vol.20, invited (p. 2019). https://doi.org/10.1007/s10825-021-01814-4 (reposiTUm)

13.   Ferry, D., Goodnick, S., Porod, W., Vasileska, D., Weinbub, J. (Eds.). (2019).
Book of Abstracts of the 20th International Workshop on Computational Nanotechnology (IWCN).
Institute for Microelectronics, TU Wien. (reposiTUm)

12.   Ferry, D., Weinbub, J., Goodnick, S. (Eds.). (2019).
Book of Abstracts of the 3rd International Wigner Workshop.
Institute for Microelectronics, TU Wien. (reposiTUm)

11.   Weinbub, J., Manstetten, P., Goodnick, S. (Eds.). (2019).
Book of Abstracts of the Workshop on High Performance TCAD.
Institute for Microelectronics, TU Wien. (reposiTUm)

10.   Janes, D. B., Riechert, H., Machida, T., Conley, J. F., Weinbub, J., Goodnick, S. (Eds.). (2019).
Innovative Nanoscale Devices and Systems.
Institute for Microelectronics, TU Wien. (reposiTUm)

9.   Watson, L. T., Sosonkina, M., Thacker, W. I., Weinbub, J., Rupp, K. (Eds.). (2018).
High Performance Computing.
The Society for Modeling and Simulation International. (reposiTUm)

8.   Weinbub, J., Jonker, B., Riechert, H., Machida, T., Goodnick, S., Selberherr, S. (Eds.). (2018).
Innovative Nanoscale Devices and Systems.
Society for Micro- and Nanoelectronics. (reposiTUm)

7.   Weinbub, J., Ferry, D., Knezevic, I., Nedjalkov, M., Selberherr, S. (Eds.). (2017).
Book of Abstracts of the 2nd International Wigner Workshop.
Institute for Microelectronics, TU Wien. (reposiTUm)

6.   Polok, L., Sosonkina, M., Thacker, W. I., Weinbub, J. (Eds.). (2017).
High Performance Computing.
The Society for Modeling and Simulation International. (reposiTUm)

5.   Matsumoto, K., Jonker, B., Weinbub, J., Machida, T., Selberherr, S., Goodnick, S. (Eds.). (2017).
Innovative Nanoscale Devices and Systems.
Society for Micro- and Nanoelectronics. (reposiTUm)

4.   Weinbub, J., Baboulin, M., Thacker, W. I., Polok, L., Bhowmick, S. (Eds.). (2016).
High Performance Computing.
The Society for Modeling and Simulation International. (reposiTUm)

3.   Ferry, D., Weinbub, J. (Eds.). (2015).
Booklet of the 1st International Wigner Workshop.
Institute for Microelectronics, TU Wien. (reposiTUm)

2.   Watson, L. T., Weinbub, J., Sosonkina, M., Thacker, W. I., Rupp, K. (Eds.). (2015).
High Performance Computing.
The Society for Modeling and Simulation International. (reposiTUm)

1.   Nedjalkov, M., Weinbub, J., Ferry, D. K. (2015).
Introduction to the Special Issue on Wigner Functions.
Journal of Computational Electronics, Vol.14 (pp. 857–858). https://doi.org/10.1007/s10825-015-0745-6 (reposiTUm)

Publications in Scientific Journals

52.   Reiter, T., Aguinsky, L. F., Souza Berti Rodrigues, F., Weinbub, J., Hössinger, A., Filipovic, L. (2024).
Modeling the Impact of Incomplete Conformality During Atomic Layer Processing.
Solid-State Electronics, 211, Article 108816. https://doi.org/10.1016/j.sse.2023.108816 (reposiTUm)

51.   Souza Berti Rodrigues, F., Aguinsky, L. F., Lenz, C., Hössinger, A., Weinbub, J. (2023).
3D Modeling of Feature-Scale Fluorocarbon Plasma Etching in Silica.
Journal of Computational Electronics, 22(5), 1558–1563. https://doi.org/10.1007/s10825-023-02068-y (reposiTUm)

50.   Lenz, C., Aguinsky, L. F., Hössinger, A., Weinbub, J. (2023).
A Complementary Topographic Feature Detection Algorithm Based on Surface Curvature for Three-Dimensional Level-Set Functions.
Journal of Scientific Computing, 94(3), 1–21. https://doi.org/10.1007/s10915-023-02133-5 (reposiTUm)

49.   Lenz, C., Manstetten, P., Aguinsky, L. F., Rodrigues, F., Hössinger, A., Weinbub, J. (2023).
Automatic Grid Refinement for Thin Material Layer Etching in Process TCAD Simulations.
Solid-State Electronics, 200, Article 108534. https://doi.org/10.1016/j.sse.2022.108534 (reposiTUm)

48.   Aguinsky, L. F., Souza Berti Rodrigues, F., Reiter, T., Klemenschits, X., Filipovic, L., Hössinger, A., Weinbub, J. (2023).
Modeling Incomplete Conformality During Atomic Layer Deposition in High Aspect Ratio Structures.
Solid-State Electronics, 201, Article 108584. https://doi.org/10.1016/j.sse.2022.108584 (reposiTUm)

47.   Ferry, D. K., Weinbub, J., Nedjalkov, M., Selberherr, S. (2022).
A Review of Quantum Transport in Field-Effect Transistors.
Semiconductor Science and Technology, 37(4), 043001. https://doi.org/10.1088/1361-6641/ac4405 (reposiTUm)

46.   Weinbub, J., Kosik, R. (2022).
Computational Perspective on Recent Advances in Quantum Electronics: From Electron Quantum Optics to Nanoelectronic Devices and Systems.
Journal of Physics: Condensed Matter, 34(16), 163001. https://doi.org/10.1088/1361-648x/ac49c6 (reposiTUm)

45.   Lenz, C., Toifl, A., Quell, M., Rodrigues, F., Hössinger, A., Weinbub, J. (2022).
Curvature Based Feature Detection for Hierarchical Grid Refinement in TCAD Topography Simulations.
Solid-State Electronics, 191(108258), 108258. https://doi.org/10.1016/j.sse.2022.108258 (reposiTUm)

44.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2022).
Gate-Controlled Electron Quantum Interference Logic.
Nanoscale, 14(37), 13520–13525. https://doi.org/10.1039/d2nr04423d (reposiTUm)

43.   Nedjalkov, M., Ballicchia, M., Kosik, R., Weinbub, J. (2022).
Gauge-Invariant Semidiscrete Wigner Theory.
Physical Review A, 106(052213). https://doi.org/10.1103/physreva.106.052213 (reposiTUm)

42.   Aguinsky, L. F., Rodrigues, F., Wachter, G., Trupke, M., Schmid, U., Hössinger, A., Weinbub, J. (2022).
Phenomenological Modeling of Low-Bias Sulfur Hexafluoride Plasma Etching of Silicon.
Solid-State Electronics, 191(108262), 108262. https://doi.org/10.1016/j.sse.2022.108262 (reposiTUm)

41.   Benam, M., Ballicchia, M., Weinbub, J., Selberherr, S., Nedjalkov, M. (2021).
A Computational Approach for Investigating Coulomb Interaction Using Wigner-Poisson Coupling.
Journal of Computational Electronics, 20(2), 775–784. https://doi.org/10.1007/s10825-020-01643-x (reposiTUm)

40.   Toifl, A., Rodrigues, F., Aguinsky, L. F., Hössinger, A., Weinbub, J. (2021).
Continuum Level-Set Model for Anisotropic Wet Etching of Patterned Sapphire Substrates.
Semiconductor Science and Technology, 36(4), 045016. https://doi.org/10.1088/1361-6641/abe49b (reposiTUm)

39.   Aguinsky, L. F., Wachter, G., Manstetten, P., Rodrigues, F., Trupke, M., Schmid, U., Hössinger, A., Weinbub, J. (2021).
Modeling and Analysis of Sulfur Hexafluoride Plasma Etching for Silicon Microcavity Resonators.
Journal of Micromechanics and Microengineering, 31(12), 125003. https://doi.org/10.1088/1361-6439/ac2bad (reposiTUm)

38.   Quell, M., Suvorov, V., Hössinger, A., Weinbub, J. (2021).
Parallel Velocity Extension for Level-Set-Based Material Flow on Hierarchical Meshes in Process TCAD.
IEEE Transactions on Electron Devices, 68(11), 5430–5437. https://doi.org/10.1109/ted.2021.3087451 (reposiTUm)

37.   Quell, M., Diamantopoulos, G., Hössinger, A., Weinbub, J. (2021).
Shared-Memory Block-Based Fast Marching Method for Hierarchical Meshes.
Journal of Computational and Applied Mathematics, 392(113488), 113488. https://doi.org/10.1016/j.cam.2021.113488 (reposiTUm)

36.   Ferry, D. K., Nedjalkov, M., Weinbub, J., Ballicchia, M., Welland, I., Selberherr, S. (2020).
Complex Systems in Phase Space.
Entropy, 22(10), 1103. https://doi.org/10.3390/e22101103 (reposiTUm)

35.   Toifl, A., Quell, M., Klemenschits, X., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2020).
The Level-Set Method for Multi-Material Wet Etching and Non-Planar Selective Epitaxy.
IEEE Access, 8, 115406–115422. https://doi.org/10.1109/access.2020.3004136 (reposiTUm)

34.   Diamantopoulos, G., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
A Shared Memory Parallel Multi-Mesh Fast Marching Method for Re-Distancing.
Advances in Computational Mathematics, 45(4), 2029–2045. https://doi.org/10.1007/s10444-019-09683-z (reposiTUm)

33.   Ballicchia, M., Ferry, D., Nedjalkov, M., Weinbub, J. (2019).
Investigating Quantum Coherence by Negative Excursions of the Wigner Quasi-Distribution.
Applied Sciences, 9(7), 1344. https://doi.org/10.3390/app9071344 (reposiTUm)

32.   Toifl, A., Simonka, V., Hössinger, A., Selberherr, S., Grasser, T., Weinbub, J. (2019).
Simulation of the Effects of Postimplantation Annealing on Silicon Carbide DMOSFET Characteristics.
IEEE Transactions on Electron Devices, 66(7), 3060–3065. https://doi.org/10.1109/ted.2019.2916929 (reposiTUm)

31.   Woerle, J., Šimonka, V., Müller, E., Hössinger, A., Sigg, H., Selberherr, S., Weinbub, J., Camarda, M., Grossner, U. (2019).
Surface Morphology of 4h-SiC After Thermal Oxidation.
Materials Science Forum, 963, 180–183. https://doi.org/10.4028/www.scientific.net/msf.963.180 (reposiTUm)

30.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D. K. (2019).
Wigner Equation for General Electromagnetic Fields: The Weyl-Stratonovich Transform.
Physical Review B, 99(014423). https://doi.org/10.1103/physrevb.99.014423 (reposiTUm)

29.   Gnam, L., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
Accelerating Flux Calculations Using Sparse Sampling.
Micromachines, 9(11), 1–18. https://doi.org/10.3390/mi9110550 (reposiTUm)

28.   Ballicchia, M., Weinbub, J., Nedjalkov, M. (2018).
Electron Evolution Around a Repulsive Dopant in a Quantum Wire: Coherence Effects.
Nanoscale, 10(48), 23037–23049. https://doi.org/10.1039/c8nr06933f (reposiTUm)

27.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2018).
Electron Interference in a Double-Dopant Potential Structure.
Physica Status Solidi (RRL) - Rapid Research Letters, 12(7), 1800111. https://doi.org/10.1002/pssr.201800111 (reposiTUm)

26.   Simonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2018).
Empirical Model for Electrical Activation of Aluminum- And Boron-Implanted Silicon Carbide.
IEEE Transactions on Electron Devices, 65(2), 674–679. https://doi.org/10.1109/ted.2017.2786086 (reposiTUm)

25.   Šimonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2018).
Modeling and Simulation of Electrical Activation of Acceptor-Type Dopants in Silicon Carbide.
Materials Science Forum, 924, 192–195. https://doi.org/10.4028/www.scientific.net/msf.924.192 (reposiTUm)

24.   Weinbub, J., Ferry, D. K. (2018).
Recent Advances in Wigner Function Approaches.
Applied Physics Reviews, 5(4), 041104. https://doi.org/10.1063/1.5046663 (reposiTUm)

23.   Nedjalkov, M., Ellinghaus, P., Weinbub, J., Sadi, T., Asenov, A., Dimov, I., Selberherr, S. (2018).
Stochastic Analysis of Surface Roughness Models in Quantum Wires.
Computer Physics Communications, 228, 30–37. https://doi.org/10.1016/j.cpc.2018.03.010 (reposiTUm)

22.   Šimonka, V., Toifl, A., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
Transient Model for Electrical Activation of Aluminium and Phosphorus-Implanted Silicon Carbide.
Journal of Applied Physics, 123(23), 235701. https://doi.org/10.1063/1.5031185 (reposiTUm)

21.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Analysis of Lense-Governed Wigner Signed Particle Quantum Dynamics.
Physica Status Solidi (RRL) - Rapid Research Letters, 11(7), 1700102-1-1700102–1700105. (reposiTUm)

20.   Šimonka, V., Nawratil, G., Hössinger, A., Weinbub, J., Selberherr, S. (2017).
Anisotropic Interpolation Method of Silicon Carbide Oxidation Growth Rates for Three-Dimensional Simulation.
Solid-State Electronics, 128, 135–140. https://doi.org/10.1016/j.sse.2016.10.032 (reposiTUm)

19.   Manstetten, P., Filipovic, L., Hössinger, A., Weinbub, J., Selberherr, S. (2017).
Framework to Model Neutral Particle Flux in Convex High Aspect Ratio Structures Using One-Dimensional Radiosity.
Solid-State Electronics, 128, 141–147. https://doi.org/10.1016/j.sse.2016.10.029 (reposiTUm)

18.   Šimonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2017).
ReaxFF Reactive Molecular Dynamics Study of Orientation Dependence of Initial Silicon Carbide Oxidation.
The Journal of Physical Chemistry A, 121(46), 8791–8798. https://doi.org/10.1021/acs.jpca.7b08983 (reposiTUm)

17.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Spintronics as a Non-Volatile Complement to Modern Microelectronics.
Informacije Midem - Journal of Microelectronics Electronic Components and Materials, 47(4), 195–210. (reposiTUm)

16.   Manstetten, P., Weinbub, J., Hössinger, A., Selberherr, S. (2017).
Using Temporary Explicit Meshes for Direct Flux Calculation on Implicit Surfaces.
Procedia Computer Science, 108, 245–254. https://doi.org/10.1016/j.procs.2017.05.067 (reposiTUm)

15.   Weinbub, J., Hössinger, A. (2016).
Comparison of the Parallel Fast Marching Method, the Fast Iterative Method, and the Parallel Semi-Ordered Fast Iterative Method.
Procedia Computer Science, 80, 2271–2275. https://doi.org/10.1016/j.procs.2016.05.408 (reposiTUm)

14.   Šimonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Growth Rates of Dry Thermal Oxidation of 4h-Silicon Carbide.
Journal of Applied Physics, 120(13), 135705. https://doi.org/10.1063/1.4964688 (reposiTUm)

13.   Rupp, K., Weinbub, J., Jüngel, A., Grasser, T. (2016).
Pipelined Iterative Solvers With Kernel Fusion for Graphics Processing Units.
ACM Transactions on Mathematical Software, 43(2), 1–27. https://doi.org/10.1145/2907944 (reposiTUm)

12.   Rupp, K., Tillet, P., Rudolf, F., Weinbub, J., Morhammer, A., Grasser, T., Jüngel, A., Selberherr, S. (2016).
ViennaCL---Linear Algebra Library for Multi- And Many-Core Architectures.
SIAM Journal on Scientific Computing, 38(5), S412–S439. https://doi.org/10.1137/15m1026419 (reposiTUm)

11.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S., Dimov, I. (2015).
Distributed-Memory Parallelization of the Wigner Monte Carlo Method Using Spatial Domain Decomposition.
Journal of Computational Electronics, 14(1), 151–162. https://doi.org/10.1007/s10825-014-0635-3 (reposiTUm)

10.   Weinbub, J., Ellinghaus, P., Nedjalkov, M. (2015).
Domain Decomposition Strategies for the Two-Dimensional Wigner Monte Carlo Method.
Journal of Computational Electronics, 14(4), 922–929. https://doi.org/10.1007/s10825-015-0730-0 (reposiTUm)

9.   Nedjalkov, M., Weinbub, J., Ellinghaus, P., Selberherr, S. (2015).
The Wigner Equation in the Presence of Electromagnetic Potentials.
Journal of Computational Electronics, 14(4), 888–893. https://doi.org/10.1007/s10825-015-0732-y (reposiTUm)

8.   Rudolf, F., Rupp, K., Weinbub, J., Morhammer, A., Selberherr, S. (2015).
Transformation Invariant Local Element Size Specification.
Applied Mathematics and Computation, 267, 195–206. https://doi.org/10.1016/j.amc.2015.04.027 (reposiTUm)

7.   Weinbub, J., Wastl, M., Rupp, K., Rudolf, F., Selberherr, S. (2015).
ViennaMaterials - A Dedicated Material Library for Computational Science and Engineering.
Applied Mathematics and Computation, 267, 282–293. https://doi.org/10.1016/j.amc.2015.03.094 (reposiTUm)

6.   Weinbub, J., Hössinger, A. (2014).
Accelerated Redistancing for Level Set-Based Process Simulations With the Fast Iterative Method.
Journal of Computational Electronics, 13(4), 877–884. https://doi.org/10.1007/s10825-014-0604-x (reposiTUm)

5.   Zisser, W. H., Ceric, H., Weinbub, J., Selberherr, S. (2014).
Electromigration Reliability of Open TSV Structures.
Microelectronics Reliability, 54(9–10), 2133–2137. https://doi.org/10.1016/j.microrel.2014.07.099 (reposiTUm)

4.   Weinbub, J., Rupp, K., Selberherr, S. (2014).
Highly Flexible and Reusable Finite Element Simulations With ViennaX.
Journal of Computational and Applied Mathematics, 270, 484–495. https://doi.org/10.1016/j.cam.2013.12.013 (reposiTUm)

3.   Rudolf, F., Weinbub, J., Rupp, K., Selberherr, S. (2014).
The Meshing Framework ViennaMesh for Finite Element Applications.
Journal of Computational and Applied Mathematics, 270, 166–177. https://doi.org/10.1016/j.cam.2014.02.005 (reposiTUm)

2.   Weinbub, J., Rupp, K., Selberherr, S. (2014).
ViennaX: A Parallel Plugin Execution Framework for Scientific Computing.
Engineering with Computers, 30(4), 651–668. https://doi.org/10.1007/s00366-013-0314-1 (reposiTUm)

1.   Ortmann, F., Roche, S., Greer, J. C., Huhs, G., Shulthess, T., Deutsch, T., Weinberger, P., Payne, M., Sellier, J. M., Sprekels, J., Weinbub, J., Rupp, K., Nedjalkov, M., Vasileska, D., Alfi nito, E., Reggiani, L., Guerra, D., Ferry, D. K., Saraniti, M., … Macucci, M. (2012).
Multi-Scale Modelling for Devices and Circuits.
E-Nano Newsletter, SPECIAL ISSUE APRIL 2012, 31. (reposiTUm)

Contributions to Books

12.   Lenz, C., Scharinger, A., Manstetten, P., Hössinger, A., Weinbub, J. (2021).
A Novel Surface Mesh Simplification Method for Flux-Dependent Topography Simulations of Semiconductor Fabrication Processes.
In M. van Beurden, N. Budko, W. Schilders (Eds.), Scientific Computing in Electrical Engineering (pp. 73–81). Springer. https://doi.org/10.1007/978-3-030-84238-3_8 (reposiTUm)

11.  L.F. Aguinsky, G. Wachter, F. Rodrigues, A. Scharinger, A. Toifl, M. Trupke, U. Schmid, A. Hössinger, J. Weinbub:
"Feature-Scale Modeling of Low-Bias SF6 Plasma Etching of Si";
in: "Proceedings of the 2021 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS)", B. Cretu (ed.); IEEE, 2021, 1 - 4. https://doi.org/10.1109/EuroSOI-ULIS53016.2021.9560685

10.   Quell, M., Diamantopoulos, G., Hössinger, A., Selberherr, S., Weinbub, J. (2020).
Parallel Correction for Hierarchical Re-Distancing Using the Fast Marching Method.
In I. Dimov, S. Fidanova (Eds.), Advances in High Performance Computing (pp. 438–451). Springer International Publishing. https://doi.org/10.1007/978-3-030-55347-0_37 (reposiTUm)

9.   Quell, M., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2020).
Parallelized Construction of Extension Velocities for the Level-Set Method.
In R. Wyrzykowski, E. Deelman, J. Dongarra, K. Karczewski (Eds.), Parallel Processing and Applied Mathematics (pp. 348–358). Springer International Publishing. https://doi.org/10.1007/978-3-030-43229-4_30 (reposiTUm)

8.   Gnam, L., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
Accelerating Flux Calculations Using Sparse Sampling.
In L. Filipovic, T. Grasser (Eds.), Miniaturized Transistors (pp. 176–192). MDPI. https://doi.org/10.3390/mi9110550 (reposiTUm)

7.   Gnam, L., Selberherr, S., Weinbub, J. (2019).
Evaluation of Serial and Parallel Shared-Memory Distance-1 Graph Coloring Algorithms.
In G. Nikolov, N. T. Kolkovska, K. Georgiev (Eds.), Numerical Methods and Applications (pp. 106–114). Springer International Publishing. https://doi.org/10.1007/978-3-030-10692-8_12 (reposiTUm)

6.   Ruscher, S. H., Weinbub, J., Selberherr, S. (2018).
Evaluating Software Testing Methods in an Active and Assisted Living Context.
In F. Piazolo, S. Schlögl (Eds.), Innovative Lösungen für eine alternde Gesellschaft (pp. 68–76). Pabst Science Publishers. (reposiTUm)

5.   Manstetten, P., Gnam, L., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
Sparse Surface Speed Evaluation on a Dynamic Three-Dimensional Surface Using an Iterative Partitioning Scheme.
In Y. Shi, H. Fu, Y. Tian, V. V. Krzhizhanovskaya, M. H. Lees, J. Dongarra, P. M. A. Sloot (Eds.), Lecture Notes in Computer Science (pp. 694–707). Springer International Publishing. https://doi.org/10.1007/978-3-319-93698-7_53 (reposiTUm)

4.   Weinbub, J., Rupp, K., Selberherr, S. (2013).
A Flexible Dynamic Data Structure for Scientific Computing.
In G.-C. Yang, S.-L. Ao, L. Gelman (Eds.), Lecture Notes in Electrical Engineering (pp. 565–577). Springer. https://doi.org/10.1007/978-94-007-6190-2_43 (reposiTUm)

3.   Weinbub, J., Rupp, K., Selberherr, S. (2013).
A Lightweight Task Graph Scheduler for Distributed High-Performance Scientific Computing.
In P. Manninen, P. Öster (Eds.), Applied Parallel and Scientific Computing (pp. 563–566). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-36803-5_47 (reposiTUm)

2.   Rodríguez, J., Weinbub, J., Pahr, D., Rupp, K., Selberherr, S. (2013).
Distributed High-Performance Parallel Mesh Generation With ViennaMesh.
In P. Manninen, P. Öster (Eds.), Applied Parallel and Scientific Computing (pp. 548–552). Springer Berlin Heidelberg. https://doi.org/10.1007/978-3-642-36803-5_44 (reposiTUm)

1.   Osintsev, D., Sverdlov, V., Stanojevic, Z., Makarov, A., Weinbub, J., Selberherr, S. (2011).
Properties of Silicon Ballistic Spin Fin-Based Field-Effect Transistors.
In Y. Omura, H. Ishii, B.-Y. Nguyen, S. Selberherr, F. Gamiz, J. A. Martino, J.-P. Raskin (Eds.), ECS Transactions (pp. 277–282). ECS Transactions. https://doi.org/10.1149/1.3570806 (reposiTUm)

Talks and Poster Presentations (with Proceedings-Entry)

136.   Aguinsky, L., Toifl, A., Souza Berti Rodrigues, F., Hössinger, A., Weinbub, J. (2023).
A Modern Formulation of Knudsen Diffusion With Applications to Nanofabrication.
In 2023 IEEE 23rd International Conference on Nanotechnology (NANO) (pp. 270–275), Jeju City, Korea, Democratic People's Republic of. https://doi.org/10.1109/NANO58406.2023.10231251 (reposiTUm)

135.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2023).
Coherent Wigner Dynamics of a Superposition State in a Tunable Barrier Quantum Dot.
In Book of Abstracts of the International Workshop on Computational Nanotechnology 2023 (IWCN) (pp. 90–91), Barcelona, Spain. (reposiTUm)

134.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2023).
Gauge-Invariant Wigner Particle Model for Linear Electromagnetic Fields.
In Book of Abstracts: IWW International Wigner Workshop 2023 (pp. 3–5), Barcelona, Spain. (reposiTUm)

133.   Ballicchia, M., Etl, C., Nedjalkov, M., Weinbub, J. (2023).
Wigner Transport in Magnetic Fields.
In Book of abstracts of the International Workshop on Computational Nanotechnology 2023 (pp. 119–120), Barcelona, Spain. (reposiTUm)

132.   Rodrigues, F., Aguinsky, L., Hössinger, A., Weinbub, J. (2022).
3D Feature-Scale Modeling of Highly Selective Fluorocarbon Plasma Etching.
In SISPAD 2022: International Conference on Simulation of Semiconductor Processes and Devices - Conference Abstract Booklet (pp. 32–33), Granada, Spain. (reposiTUm)

131.   Lenz, C., Manstetten, P., Hössinger, A., Weinbub, J. (2022).
Automatic Grid Refinement for Thin Material Layer Etching in Process TCAD Simulations.
In SISPAD 2022: International Conference on Simulation of Semiconductor Processes and Devices - Conference Abstract Booklet (pp. 117–118), Granada, Spain. (reposiTUm)

130.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Electromagnetic Control of Electron Interference.
In Book of Abstracts of the CECAM Flagship Workshop on Quantum Transport Methods and Algorithms: From Particles to Waves Approaches (p. 15), Zurich, Switzerland. (reposiTUm)

129.   Aguinsky, L., Rodrigues, F., Klemenschits, X., Filipovic, L., Hössinger, A., Weinbub, J. (2022).
Modeling Non-Ideal Conformality During Atomic Layer Deposition in High Aspect Ratio Structures.
In Proceedings of the International Conference on Simulation of Semiconductor Processes and Devices (SISPAD 2022) (pp. 40–41), Granada, Spain. (reposiTUm)

128.   Quell, M., Hössinger, A., Weinbub, J. (2022).
Shared-Memory Fast Marching Method for Re-Distancing on Hierarchical Meshes.
In Book of Abstracts of the Austrian-Slovenian HPC Meeting (ASHPC) (p. 1), Maribor, Slovenia. https://doi.org/10.25365/phaidra.337 (reposiTUm)

127.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Wigner Dynamics of Electron Quantum Superposition States in a Confined and Opened Quantum Dot.
In 2022 IEEE 22nd International Conference on Nanotechnology (NANO), Palma de Mallorca, Spain. https://doi.org/10.1109/nano54668.2022.9928753 (reposiTUm)

126.   Weinbub, J. (2022).
Wigner Signed-Particles: Computational Challenges and Simulation Opportunities.
In Book of Abstracts of the CECAM Flagship Workshop on Quantum Transport Methods and Algorithms: From Particles to Waves Approaches (p. 1), Zurich, Switzerland. (reposiTUm)

125.   Lenz, C., Toifl, A., Hössinger, A., Weinbub, J. (2021).
Curvature Based Feature Detection for Hierarchical Grid Refinement in TCAD Topography Simulations.
In 2021 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EuroSOI-ULIS). https://doi.org/10.1109/eurosoi-ulis53016.2021.9560690 (reposiTUm)

124.  C. Lenz, A. Toifl, A. Hössinger, J. Weinbub:
"Curvature-Based Feature Detection for Hierarchical Grid Refinement in Epitaxial Growth Simulations";
Talk: Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS), Caen, France; 2021-09-01 - 2021-09-03; in: "Book of Abstracts of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS)", (2021), 109 - 110.

123.   Weinbub, J., Ballicchia, M., Nedjalkov, M., Selberherr, S. (2021).
Electromagnetic Coherent Electron Control.
In 2021 IEEE Latin America Electron Devices Conference (LAEDC), San Jose, Costa Rica. https://doi.org/10.1109/laedc51812.2021.9437949 (reposiTUm)

122.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2021).
Electron Quantum Optics for Quantum Interference Logic Devices.
In WINDS Book of Abstracts (pp. 58–59), Kona. (reposiTUm)

121.   Lenz, C., Scharinger, A., Quell, M., Manstetten, P., Hössinger, A., Weinbub, J. (2021).
Evaluating Parallel Feature Detection Methods for Implicit Surfaces.
In Book of Abstracts of the Austrian-Slovenian HPC Meeting (ASHPC) (p. 31), Maribor, Slovenia. (reposiTUm)

120.   Rodrigues, F., Aguinsky, L., Toifl, A., Hössinger, A., Weinbub, J. (2021).
Feature Scale Modeling of Fluorocarbon Plasma Etching for via Structures Including Faceting Phenomena.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2021) (pp. 101–102). (reposiTUm)

119.   Aguinsky, L., Wachter, G., Scharinger, A., Rodrigues, F., Toifl, A., Trupke, M., Schmid, U., Hössinger, A., Weinbub, J. (2021).
Feature-Scale Modeling of Low-Bias SF₆ Plasma Etching of Si.
In 2021 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EuroSOI-ULIS) (pp. 1–4), Caen, France. https://doi.org/10.1109/eurosoi-ulis53016.2021.9560685 (reposiTUm)

118.   Ballicchia, M., Benam, M., Nedjalkov, M., Selberherr, S., Weinbub, J. (2021).
Modeling Coulomb Interaction With a 'Wigner-Poisson' Coupling Scheme.
In International Wigner Workshop IWW 2021 Book of Abstracts (pp. 64–65), Austria. (reposiTUm)

117.   Weinbub, J. (2021).
Modeling and Simulation of Two-Dimensional Single-Electron Control.
In Proceedings of the International Meet on Nanotechnology (NANOMEET 2021), Porto, Portugal. (reposiTUm)

116.   Weinbub, J. (2021).
Modeling and Simulation of Two-Dimensional Single-Electron Dynamics.
In Proceedings of the Global Summit on Condensed Matter Physics (CONMAT), Valencia, Spain. (reposiTUm)

115.   Rodrigues, F., Aguinsky, L., Toifl, A., Scharinger, A., Hössinger, A., Weinbub, J. (2021).
Surface Reaction and Topography Modeling of Fluorocarbon Plasma Etching.
In 2021 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Dallas, TX, United States. https://doi.org/10.1109/sispad54002.2021.9592583 (reposiTUm)

114.   Lenz, C., Scharinger, A., Hössinger, A., Weinbub, J. (2020).
A Novel Surface Mesh Simplification Method for Flux-Dependent Topography Simulations of Semiconductor Fabrication Processes.
In Book of Abstracts of the International Conferences on Scientific Computing in Electrical Engineering (SCEE) (pp. 99–100), Eindhoven, Netherlands. (reposiTUm)

113.   Scharinger, A., Manstetten, P., Hössinger, A., Weinbub, J. (2020).
Generative Model Based Adaptive Importance Sampling for Flux Calculations in Process TCAD.
In 2020 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Tokyo, Japan. https://doi.org/10.23919/sispad49475.2020.9241615 (reposiTUm)

112.   Quell, M., Diamantopoulos, G., Hössinger, A., Weinbub, J. (2020).
Shared-Memory Block-Based Fast Marching Method for Hierarchical Meshes.
In Proceedings of the 7th European Seminar on Computing (ESCO 2020), Pilsen, Czechia. (reposiTUm)

111.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2020).
Single Electron Control by a Uniform Magnetic Field in a Focusing Double-Well Potential Structure.
In 2020 IEEE 20th International Conference on Nanotechnology (IEEE-NANO), Cork, Ireland. https://doi.org/10.1109/nano47656.2020.9183565 (reposiTUm)

110.   Gnam, L., Manstetten, P., Quell, M., Rupp, K., Selberherr, S., Weinbub, J. (2019).
A Flexible Shared-Memory Parallel Mesh Adaptation Framework.
In 2019 19th International Conference on Computational Science and Its Applications (ICCSA), Trieste, Italy. https://doi.org/10.1109/iccsa.2019.00016 (reposiTUm)

109.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D., Rupp, K. (2019).
A Gauge-Invariant Wigner Equation for General Electromagnetic Fields.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 67–68), Evanston, IL, United States. (reposiTUm)

108.   Aguinsky, L., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
A Mathematical Extension to Knudsen Diffusion Including Direct Flux and Accurate Geometric Description.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 109–110), Evanston, IL, United States. (reposiTUm)

107.   Aguinsky, L., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
An Extended Knudsen Diffusion Model for Aspect Ratio Dependent Atomic Layer Etching.
In Abstracts of the International Conference on Atomic Layer Deposition (ALD) Featuring the International Workshop on Atomic Layer Etching (ALE) (p. 109), Bellevue, WA, USA. (reposiTUm)

106.   Weinbub, J., Nedjalkov, M. (2019).
Computational Strategies for Two-Dimensional Wigner Monte Carlo.
In Procedings of the High Performance Computing Conference (HPC) (pp. 55–56), Borovets, Bulgaria. (reposiTUm)

105.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
Effects of Repulsive Dopants on Quantum Transport in a Nanowire.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 115–116), Evanston, IL, United States. (reposiTUm)

104.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
Electron Evolution and Boundary Conditions in the Wigner Signed-Particle Approach.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 24–25), Waikoloa, Hawaii, USA. (reposiTUm)

103.   Weinbub, J., Ballicchia, M., Ferry, D., Nedjalkov, M. (2019).
Electron Interference and Wigner Function Negativity in Dopant Potential Structures.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 14–15), Waikoloa, Hawaii, USA. (reposiTUm)

102.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2019).
Electron Interference in Single- And Double-Dopant Potential Structures.
In Proceedings of the International Conference on Large-Scale Scientific Computations (LSSC) (pp. 103–104), Sozopol, Bulgaria. (reposiTUm)

101.   Hössinger, A., Manstetten, P., Diamantopoulos, G., Quell, M., Weinbub, J. (2019).
High Performance Computing Aspects in Semiconductor Process Simulation.
In Book of Abstracts of the Workshop on High Performance TCAD (WHPTCAD) (pp. 3–4), Chicago, IL, USA. (reposiTUm)

100.   Manstetten, P., Diamantopoulos, G., Gnam, L., Aguinsky, L., Quell, M., Toifl, A., Scharinger, A., Hössinger, A., Ballicchia, M., Nedjalkov, M., Weinbub, J. (2019).
High Performance TCAD: From Simulating Fabrication Processes to Wigner Quantum Transport.
In Book of Abstracts of the Workshop on High Performance TCAD (WHPTCAD) (p. 13), Chicago, IL, USA. (reposiTUm)

99.   Manstetten, P., Aguinsky, L., Selberherr, S., Weinbub, J. (2019).
High-Performance Ray Tracing for Nonimaging Applications.
In Book of Abstracts of the Workshop on High Performance TCAD (WHPTCAD) (p. 20), Chicago, IL, USA. (reposiTUm)

98.   Ballicchia, M., Ferry, D., Nedjalkov, M., Weinbub, J. (2019).
Linking Wigner Function Negativity to Quantum Coherence in a Nanowire.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2019) (pp. 59–60), Evanston, IL, United States. (reposiTUm)

97.   Toifl, A., Quell, M., Hössinger, A., Babayan, A., Selberherr, S., Weinbub, J. (2019).
Novel Numerical Dissipation Scheme for Level-Set Based Anisotropic Etching Simulations.
In 2019 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Udine, Italy. https://doi.org/10.1109/sispad.2019.8870443 (reposiTUm)

96.   Kosik, R., Thesberg, M., Weinbub, J., Kosina, H. (2019).
On the Consistency of the Stationary Wigner Equation.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 30–31), Waikoloa, Hawaii, USA. (reposiTUm)

95.   Quell, M., Diamantopoulos, G., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
Parallelized Bottom-Up Correction in Hierarchical Re-Distancing for Topography Simulation.
In Procedings of the High Performance Computing Conference (HPC) (p. 45), Borovets, Bulgaria. (reposiTUm)

94.   Quell, M., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
Parallelized Construction of Extension Velocities for the Level-Set Method.
In Proceedings of the International Conference on Parallel Processing and Applied Mathematics (PPAM) (p. 42), Bialystok, Poland. (reposiTUm)

93.   Quell, M., Toifl, A., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
Parallelized Level-Set Velocity Extension Algorithm for Nanopatterning Applications.
In 2019 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Udine, Italy. https://doi.org/10.1109/sispad.2019.8870482 (reposiTUm)

92.   Nedjalkov, M., Weinbub, J., Ballicchia, M., Selberherr, S., Dimov, I., Ferry, D., Rupp, K. (2019).
Posedness of Stationary Wigner Equation.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 32–33), Waikoloa, Hawaii, USA. (reposiTUm)

91.   Ballicchia, M., Nedjalkov, M., Selberherr, S., Weinbub, J. (2019).
Potentials for Single Electron State Processing.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 111–112), Kona. (reposiTUm)

90.   Diamantopoulos, G., Manstetten, P., Gnam, L., Simonka, V., Aguinsky, L., Quell, M., Toifl, A., Hössinger, A., Weinbub, J. (2019).
Recent Advances in High Performance Process TCAD.
In CSE19 Abstracts (p. 335), Atlanta, GA, USA. (reposiTUm)

89.   Cervenka, J., Weinbub, J. (2019).
Superposed States and the Wigner Approach.
In Proceedings of the International Conference on Large-Scale Scientific Computations (LSSC) (p. 50), Sozopol, Bulgaria. (reposiTUm)

88.   Aguinsky, L., Manstetten, P., Hössinger, A., Selberherr, S., Weinbub, J. (2019).
Three-Dimensional TCAD for Atomic Layer Processing.
In Book of Abstracts of the Workshop on High Performance TCAD (WHPTCAD) (p. 5), Chicago, IL, USA. (reposiTUm)

87.   Diamantopoulos, G., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
A Shared-Memory Parallel Multi-Mesh Fast Marching Method for Full and Narrow Band Re-Distancing.
In Proc. 6th European Seminar on Computing (p. 1), Pilsen, Czech Republic. (reposiTUm)

86.   Gnam, L., Manstetten, P., Selberherr, S., Weinbub, J. (2018).
Comparison of High-Performance Graph Coloring Algorithms.
In Proceedings of the Vienna Young Scientists Symposium (pp. 30–31), Wien, Austria. (reposiTUm)

85.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2018).
Electron Interference in a Double-Dopant Potential Structure.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 52–53), Kona. (reposiTUm)

84.   Gnam, L., Selberherr, S., Weinbub, J. (2018).
Evaluation of Serial and Parallel Shared-Memory Distance-1 Graph Coloring Algorithms.
In Book of Abstracts of the Ninth International Conference on Numerical Methods and Applications (NM&A'18) (p. 52), Borovets, Bulgaria. (reposiTUm)

83.   Rupp, K., Rudolf, F., Weinbub, J. (2018).
Features of ViennaCL in PETSc.
In Book of Abstracts of the 2018 Austrian HPC Meeting (AHPC) (p. 18), Grundlsee, Austria, Austria. (reposiTUm)

82.   Simonka, V., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
Investigation of Post-Implantation Annealing for Phosphorus-Implanted 4h-Silicon Carbide.
In Proceedings of the International Conference on Microelectronic Devices and Technologies (MicDAT) (pp. 42–44), Barcelona, Spain. (reposiTUm)

81.   Ballicchia, M., Weinbub, J., Dimov, I., Nedjalkov, M. (2018).
Recent Advances of the Wigner Signed-Particle Approach.
In Abstracts Annual Meeting of the Bulgarian Section of SIAM (BGSIAM) (pp. 18–19), Sofia, Bulgaria. (reposiTUm)

80.   Toifl, A., Simonka, V., Hössinger, A., Selberherr, S., Weinbub, J. (2018).
Steady-State Empirical Model for Electrical Activation of Silicon-Implanted Gallium Nitride.
In 2018 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Austin, TX, United States. https://doi.org/10.1109/sispad.2018.8551728 (reposiTUm)

79.  J. Woerle, V. Simonka, E. Müller, A. Hössinger, H. Sigg, S. Selberherr, J. Weinbub, M. Camarda, U. Grossner:
"Surface Morphology of 4H-SiC After Thermal Oxidation";
Talk: European Conference on Silicon Carbide and Related Materials (ECSCRM), Birmingham, UK; 2018-09-02 - 2018-09-06; in: "Proceedings of the European Conference on Silicon Carbide and Related Materials (ECSCRM)", (2018).

78.   Manstetten, P., Hössinger, A., Weinbub, J., Selberherr, S. (2017).
Accelerated Direct Flux Calculations Using an Adaptively Refined Icosahedron.
In 2017 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Kamakura, Japan. https://doi.org/10.23919/sispad.2017.8085267 (reposiTUm)

77.   Ballicchia, M., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Classical and Quantum Electron Evolution With a Repulsive Dopant.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 105–106), Kona. (reposiTUm)

76.   Manstetten, P., Simonka, V., Diamantopoulos, G., Gnam, L., Makarov, A., Hössinger, A., Weinbub, J. (2017).
Computational and Numerical Challenges in Semiconductor Process Simulation.
In CSE17 Abstracts (p. 46), Atlanta, GA, USA. (reposiTUm)

75.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Current in Magnetic Tunnel Junctions at Spin-Dependent Hopping.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (pp. 87–88), Kona. (reposiTUm)

74.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Electron Spin at Work in Modern and Emerging Devices.
In Abstracts of the Energy-Materials-Nanotechnology Meeting on Quantum (EMN) (pp. 31–33), Wien, Austria, Austria. (reposiTUm)

73.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Enhanced Shot Noise as a Signature of Trap-Assisted Tunneling in Magnetic Tunnel Junctions: A Monte Carlo Approach.
In Proceedings of the 25th International Symposium on Nanostructures: Physics and Technology (pp. 132–133), Sankt Petersburg, Russland. (reposiTUm)

72.   Diamantopoulos, G., Weinbub, J., Hössinger, A., Selberherr, S. (2017).
Evaluation of the Shared-Memory Parallel Fast Marching Method for Re-Distancing Problems.
In 2017 17th International Conference on Computational Science and Its Applications (ICCSA), Trieste, Italy. https://doi.org/10.1109/iccsa.2017.7999648 (reposiTUm)

71.   Sverdlov, V., Mahmoudi, H., Windbacher, T., Makarov, A., Weinbub, J., Selberherr, S. (2017).
MTJs - Spin-Based Binary Memristors for Non-Volatile Memory and Logic Applications.
In Abstracts of the Energy-Materials-Nanotechnology Meeting on Memristive Switching, Network (EMN) (pp. 33–34), Milan, Italy. (reposiTUm)

70.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Modeling Spin-Dependent Phenomena for New Device Applications.
In CSE17 Abstracts (pp. 45–46), Atlanta, GA, USA. (reposiTUm)

69.  V. Simonka, A. Hössinger, J. Weinbub, S. Selberherr:
"Modeling and Simulation of Electrical Activation of Acceptor-Type Dopants in Silicon Carbide";
Poster: International Conference on Silicon Carbide and Related Materials (ICSCRM), Washington D.C., USA; 2017-09-17 - 2017-09-22; in: "Proceedings of the International Conference on Silicon Carbide and Related Materials (ICSCRM)", (2017).

68.   Simonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2017).
Modeling of Electrical Activation Ratios of Phosphorus and Nitrogen Doped Silicon Carbide.
In 2017 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Kamakura, Japan. https://doi.org/10.23919/sispad.2017.8085280 (reposiTUm)

67.   Sverdlov, V., Makarov, A., Weinbub, J., Selberherr, S. (2017).
Non-Volatility by Spin in Modern Nanoelectronics.
In 2017 IEEE 30th International Conference on Microelectronics (MIEL), Beograd. https://doi.org/10.1109/miel.2017.8190061 (reposiTUm)

66.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Spin-Based Non-Volatile Memory and Logic in Modern Nanoelectronics.
In Abstracts of the BIT's 7th Annual World Congress of Nano Science, Technology-2017 (p. 343), Xi'an, China. (reposiTUm)

65.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Spin-Dependent Trap-Assisted Tunneling in Magnetic Tunnel Junctions: A Monte Carlo Study.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2017) (pp. 88–90), Windermere, United Kingdom. (reposiTUm)

64.   Sverdlov, V., Weinbub, J., Selberherr, S. (2017).
Spintronics as a Non-Volatile Complement to Nanoelectronics.
In Proceedings of the 53rd International Conference on Microelectronics, Devices and Materials (MIDEM 2017) (p. 10), Ljubljana, Slovenia. (reposiTUm)

63.   Gnam, L., Weinbub, J., Hössinger, A., Selberherr, S. (2017).
Towards a Metric for an Automatic Hull Mesh Coarsening Strategy.
In Proceedings of the Vienna Young Scientists Symposium (pp. 118–119), Wien, Austria. (reposiTUm)

62.   Gnam, L., Weinbub, J., Rupp, K., Rudolf, F., Selberherr, S. (2017).
Using Graph Partitioning and Coloring for Flexible Coarse-Grained Shared-Memory Parallel Mesh Adaptation.
In Proceedings of the 26th International Meshing Roundtable (IMR26) (p. 5), Austin, Texas, USA. (reposiTUm)

61.   Rudolf, F., Morhammer, A., Rupp, K., Weinbub, J. (2017).
VSC School Project: Performance Enhancements of Algebraic Multigrid Methods in ViennaCL.
In Book of Abstracts of the 2017 Austrian HPC Meeting (AHPC) (p. 1), Grundlsee, Austria, Austria. (reposiTUm)

60.   Ellinghaus, P., Nedjalkov, M., Weinbub, J., Selberherr, S. (2017).
Wigner Analysis of Surface Roughness in Quantum Wires.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 40–41), Waikoloa, Hawaii, USA. (reposiTUm)

59.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2017).
Wigner Modelling of Surface Roughness in Quantum Wires.
In Book of Abstracts of the International Workshop on Computational Nanotechnology (IWCN 2017) (pp. 171–172), Windermere, United Kingdom. (reposiTUm)

58.   Weinbub, J., Nedjalkov, M., Dimov, I., Selberherr, S. (2017).
Wigner-Signed Particles Study of Double Dopant Quantum Effects.
In Book of Abstracts of the International Wigner Workshop (IW2) (pp. 50–51), Waikoloa, Hawaii, USA. (reposiTUm)

57.   Rupp, K., Weinbub, J. (2016).
A Computational Scientist's Perspective on Current and Future Hardware Architectures.
In Book of Abstracts of the 2016 Austrian HPC Meeting (AHPC) (p. 24), Grundlsee, Austria, Austria. (reposiTUm)

56.   Simonka, V., Nawratil, G., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Direction Dependent Three-Dimensional Silicon Carbide Oxidation Growth Rate Calculations.
In 2016 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). https://doi.org/10.1109/ulis.2016.7440094 (reposiTUm)

55.   Simonka, V., Nawratil, G., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Geometrical Aspects of Three-Dimensional Silicon Carbide Oxidation Growth Rate Modeling.
In Book of Abstracts of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) (pp. 128–129), Bologna, Italy. (reposiTUm)

54.   Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
Modeling Carrier Transport in Nanoscale Semiconductor Devices.
In Abstracts of the BIT's 6th Annual World Congress of Nano Science, Technology-2016 (p. 377), Xi'an, China. (reposiTUm)

53.   Manstetten, P., Filipovic, L., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Modeling Neutral Particle Flux in High Aspect Ratio Holes Using a One-Dimensional Radiosity Approach.
In Book of Abstracts of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) (pp. 68–69), Bologna, Italy. (reposiTUm)

52.   Morhammer, A., Rupp, K., Rudolf, F., Weinbub, J. (2016).
Optimized Sparse Matrix-Matrix Multilication for Multi-Core CPUs, GPUs and MICs.
In Book of Abstracts of the 2016 Austrian HPC Meeting (AHPC) (p. 23), Grundlsee, Austria, Austria. (reposiTUm)

51.   Weinbub, J., Hössinger, A. (2016).
Shared-Memory Parallelization of the Fast Marching Method Using an Overlapping Domain-Decomposition Approach.
In 24th High Performance Computing Symposium, Orlando, FL, USA. https://doi.org/10.22360/springsim.2016.hpc.052 (reposiTUm)

50.   Nedjalkov, M., Weinbub, J., Dimov, I., Selberherr, S. (2016).
Signed Particle Interpretation for Wigner-Quantum Electron Evolution.
In Abstracts Third National Congress of Physical Sciences (p. 1), Sofia, Bulgaria. (reposiTUm)

49.   Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
The Description of Carrier Transport for Quantum Systems.
In Book of Abstracts of the Energy Materials Nanotechnology Meeting on Quantum (pp. 41–42), Phuket, Thailand. (reposiTUm)

48.   Simonka, V., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Three-Dimensional Growth Rate Modeling and Simulation of Silicon Carbide Thermal Oxidation.
In 2016 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Nuremberg, Germany. https://doi.org/10.1109/sispad.2016.7605190 (reposiTUm)

47.   Manstetten, P., Filipovic, L., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Using One-Dimensional Radiosity to Model Neutral Particle Flux in High Aspect Ratio Holes.
In 2016 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS). https://doi.org/10.1109/ulis.2016.7440067 (reposiTUm)

46.   Manstetten, P., Filipovic, L., Hössinger, A., Weinbub, J., Selberherr, S. (2016).
Using One-Dimensional Radiosity to Model Neutral Flux in Convex High Aspect Ratio Structures.
In 2016 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Nuremberg, Germany. https://doi.org/10.1109/sispad.2016.7605198 (reposiTUm)

45.   Ellinghaus, P., Nedjalkov, M., Weinbub, J., Selberherr, S. (2016).
Wigner Modelling of Quantum Wires.
In Abstracts of the Workshop on Innovative Nanoscale Devices and Systems (WINDS) (p. 2), Kona. (reposiTUm)

44.   Weinbub, J., Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
Comparison of Slab and Block Decomposition Strategies for the Two-Dimensional Wigner Monte Carlo Method.
In Abstracts International Symposium on Advanced Nanodevices and Nanotechnology (ISANN), Kaanapali. (reposiTUm)

43.   Ghosh, J., Osintsev, D., Sverdlov, V., Weinbub, J., Selberherr, S. (2015).
Evaluation of Spin Lifetime in Thin-Body FETs: A High Performance Computing Approach.
In Large-Scale Scientific Computing 10th International Conference, LSSC 2015 (pp. 285–292), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-319-26520-9_31 (reposiTUm)

42.   Rudolf, F., Weinbub, J., Rupp, K., Resutik, P., Morhammer, A., Selberherr, S. (2015).
Free Open Source Mesh Healing for TCAD Device Simulations.
In Large-Scale Scientific Computing 10th International Conference, LSSC 2015 (pp. 293–300), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-319-26520-9_32 (reposiTUm)

41.   Rudolf, F., Weinbub, J., Rupp, K., Resutik, P., Selberherr, S. (2015).
Mesh Healing for TCAD Simulations.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (p. 66), Sozopol, Bulgaria. (reposiTUm)

40.   Weinbub, J., Ellinghaus, P., Selberherr, S. (2015).
Parallelization of the Two-Dimensional Wigner Monte Carlo Method.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (p. 73), Sozopol, Bulgaria. (reposiTUm)

39.   Weinbub, J., Dang, F., Gillberg, T., Selberherr, S. (2015).
Shared-Memory Parallelization of the Semi-Ordered Fast Iterative Method.
In Proceedings of the High Performance Computing Symposium (HPC) (pp. 217–224). (reposiTUm)

38.   Osintsev, D., Ghosh, J., Sverdlov, V., Weinbub, J., Selberherr, S. (2015).
Spin Lifetime in MOSFETs: A High Performance Computing Approach.
In Abstracts International Conference on Large-Scale Scientific Computations (LSSC) (pp. 60–61), Sozopol, Bulgaria. (reposiTUm)

37.   Rudolf, F., Weinbub, J., Rupp, K., Morhammer, A., Selberherr, S. (2015).
Symmetry-Aware 3D Volumetric Mesh Generation - An Analysis of Performance and Element Quality.
In Proceedings of the 24th International Meshing Roundtable (IMR24) (p. 5), Austin, Texas, USA. (reposiTUm)

36.   Ellinghaus, P., Weinbub, J., Nedjalkov, M., Selberherr, S. (2015).
ViennaWD - Applications.
In Booklet of the International Wigner Workshop (IW2) (p. 9), Waikoloa, Hawaii, USA. (reposiTUm)

35.   Weinbub, J., Ellinghaus, P., Nedjalkov, M., Selberherr, S. (2015).
ViennaWD - Status and Outlook.
In Booklet of the International Wigner Workshop (IW2) (p. 8), Waikoloa, Hawaii, USA. (reposiTUm)

34.   Weinbub, J., Rupp, K., Rudolf, F. (2014).
A Flexible Material Database for Computational Science and Engineering.
In Proc. 4th European Seminar on Computing (p. 226), Pilsen, Czech Republic. (reposiTUm)

33.   Rupp, K., Rudolf, F., Weinbub, J., Jungel, A., Grasser, T. (2014).
Automatic Finite Volume Discretizations Through Symbolic Computations.
In Proc. 4th European Seminar on Computing (p. 192), Pilsen, Czech Republic. (reposiTUm)

32.   Zisser, W., Ceric, H., Weinbub, J., Selberherr, S. (2014).
Electromigration Reliability of Open TSV Structures.
In Abstracts 25th European Symposium on Reliability of Electron Devices, Failure Physics and Analysis (ESREF) (p. 48), Maastricht. (reposiTUm)

31.   Zisser, W., Ceric, H., Weinbub, J., Selberherr, S. (2014).
Electromigration Induced Resistance Increase in Open TSVs.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931610 (reposiTUm)

30.   Zisser, W., Ceric, H., Weinbub, J., Selberherr, S. (2014).
Electromigration Reliability of Open TSV Structures.
In Proceedings of the 21th International Symposium on the Physical and Failure Analysis of Integrated Circuits (IPFA), Singapore. https://doi.org/10.1109/ipfa.2014.6898179 (reposiTUm)

29.   Rudolf, F., Wimmer, Y., Weinbub, J., Rupp, K., Selberherr, S. (2014).
Mesh Generation Using Dynamic Sizing Functions.
In Proc. 4th European Seminar on Computing (p. 191), Pilsen, Czech Republic. (reposiTUm)

28.   Rupp, K., Tillet, P., Rudolf, F., Weinbub, J., Grasser, T., Jüngel, A. (2014).
Performance Portability Study of Linear Algebra Kernels in OpenCL.
In Proceedings of the International Workshop on OpenCL 2013 & 2014 - IWOCL '14, Bristol, UK. https://doi.org/10.1145/2664666.2664674 (reposiTUm)

27.   Rudolf, F., Weinbub, J., Rupp, K., Morhammer, A., Selberherr, S. (2014).
Template-Based Mesh Generation for Semiconductor Devices.
In 2014 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Yokohama, Japan. https://doi.org/10.1109/sispad.2014.6931602 (reposiTUm)

26.   Rupp, K., Rudolf, F., Weinbub, J. (2013).
A Discussion of Selected Vienna-Libraries for Computational Science.
In Proceedings of C++Now (2013) (p. 10), Aspen, CO, USA. (reposiTUm)

25.   Weinbub, J., Rupp, K., Selberherr, S. (2013).
Increasing Flexibility and Reusability of Finite Element Simulations With ViennaX.
In Abstracts 4th International Congress on Computational Engineering and Sciences (p. 1), Las Vegas, USA. (reposiTUm)

24.   Sverdlov, V., Mahmoudi, H., Makarov, A., Osintsev, D., Weinbub, J., Windbacher, T., Selberherr, S. (2013).
Modeling Spin-Based Devices in Silicon.
In Book of Abstracts of the International Workshop on Computational Electronics (IWCE) (pp. 70–71), Urbana-Champaign, IL, USA. (reposiTUm)

23.   Rupp, K., Tillet, P., Rudolf, F., Weinbub, J. (2013).
ViennaCL - Portable High Performance at High Convenience.
In ENUMATH 2013 Proceedings (pp. 1–2), Lausanne, Switzerland. (reposiTUm)

22.   Wagner, M., Rupp, K., Weinbub, J. (2012).
A Comparison of Algebraic Multigrid Preconditioners Using Graphics Processing Units and Multi-Core Central Processing Units.
In Proceedings of the High Performance Computing Symposium (HPC) (p. 7), Orlando, FL, USA. (reposiTUm)

21.   Weinbub, J., Rupp, K., Selberherr, S. (2012).
A Flexible Execution Framework for High-Performance TCAD Applications.
In 2012 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD) (pp. 400–403), Denver, Colorado, United States. (reposiTUm)

20.   Weinbub, J., Rupp, K., Selberherr, S. (2012).
A Generic Multi-Dimensional Run-Time Data Structure for High-Performance Scientific Computing.
In Proceedings of the World Congress on Engineering (WCE) (pp. 1076–1081), London, UK. (reposiTUm)

19.   Weinbub, J. (2012).
A Lightweight Task Graph Scheduler for Distributed High-Performance Scientific Computing.
In Proceedings of the International Workshop on the State-of-the-Art in Scientific and Parallel Computing (p. 1), Helsinki, Finland. (reposiTUm)

18.   Weinbub, J. (2012).
Distributed High-Performance Parallel Mesh Generation With ViennaMesh.
In Proceedings of the International Workshop on the State-of-the-Art in Scientific and Parallel Computing (p. 1), Helsinki, Finland. (reposiTUm)

17.   Weinbub, J., Rupp, K., Selberherr, S. (2012).
Towards Distributed Heterogenous High-Performance Computing With ViennaCL.
In Large-Scale Scientific Computing: 8th International Conference, LSSC 2011 (pp. 359–367), Sozopol, Bulgaria. https://doi.org/10.1007/978-3-642-29843-1_41 (reposiTUm)

16.   Weinbub, J., Rupp, K., Filipovic, L., Makarov, A., Selberherr, S. (2012).
Towards a Free Open Source Process and Device Simulation Framework.
In 2012 15th International Workshop on Computational Electronics. https://doi.org/10.1109/iwce.2012.6242867 (reposiTUm)

15.   Weinbub, J., Rupp, K., Selberherr, S. (2012).
Utilizing Modern Programming Techniques and the Boost Libraries for Scientific Software Development.
In Proceedings of C++Now (2012) (p. 10), Aspen, CO, USA. (reposiTUm)

14.   Weinbub, J., Cervenka, J., Rupp, K., Selberherr, S. (2011).
A Generic High-Quality Meshing Framework.
In Proceedings of the 11th US National Congress on Computational Mechanics (USNCCM) (p. 1), Minneapolis, USA. (reposiTUm)

13.   Weinbub, J., Rupp, K., Selberherr, S. (2011).
Distributed Heterogenous High-Performance Computing With ViennaCL.
In Abstracts Intl. Conf. on Large-Scale Scientific Computations (pp. 88–90), Sozopol, Bulgaria. (reposiTUm)

12.   Weinbub, J., Cervenka, J., Rupp, K., Selberherr, S. (2011).
High-Quality Mesh Generation Based on Orthogonal Software Modules.
In 2011 International Conference on Simulation of Semiconductor Processes and Devices, Osaka, Japan. https://doi.org/10.1109/sispad.2011.6035078 (reposiTUm)

11.   Makarov, A., Sverdlov, V., Osintsev, D., Weinbub, J., Selberherr, S. (2011).
Modeling of the Advanced Spin Transfer Torque Memory: Macro- And Micromagnetic Simulations.
In Proceedings of the 25th European Simulation and Modelling Conference (pp. 177–181), Guimaraes, Portugal. (reposiTUm)

10.   Osintsev, D., Sverdlov, V., Stanojevic, Z., Makarov, A., Weinbub, J., Selberherr, S. (2011).
Properties of Silicon Ballistic Spin Fin-Based Field-Effect Transistors.
In Meeting Abstracts (p. 1), Honolulu, Austria. (reposiTUm)

9.   Weinbub, J., Schwaha, P., Heinzl, R., Stimpfl, F., Selberherr, S. (2010).
A Dispatched Covariant Type System for Numerical Applications in C++.
In AIP Conference Proceedings (pp. 1663–1666), Korfu, Griechenland. (reposiTUm)

8.   Weinbub, J., Heinzl, R., Schwaha, P., Stimpfl, F., Selberherr, S. (2010).
A Lightweight Material Library for Scientific Computing in C++.
In Proceedings of the European Simulation and Modelling Conference (ESM) (pp. 454–458), Malta. (reposiTUm)

7.   Mach, G., Heinzl, R., Schwaha, P., Stimpfl, F., Weinbub, J., Selberherr, S. (2010).
A Modular Tool Chain for High Performance CFD Simulations in Intracranial Aneurysms.
In AIP Conference Proceedings (pp. 1647–1650), Korfu, Griechenland. (reposiTUm)

6.   Stimpfl, F., Weinbub, J., Heinzl, R., Schwaha, P., Selberherr, S. (2010).
A Unified Topological Layer for Finite Element Space Discretization.
In AIP Conference Proceedings (pp. 1655–1658), Korfu, Griechenland. (reposiTUm)

5.   Rupp, K., Weinbub, J., Rudolf, F. (2010).
Automatic Performance Optimization in ViennaCL for GPUs.
In Proceedings of the 9th Workshop on Parallel/High-Performance Object-Oriented Scientific Computing - POOSC '10, Reno, Nevada, USA. https://doi.org/10.1145/2039312.2039318 (reposiTUm)

4.   Makarov, A., Weinbub, J., Sverdlov, V., Selberherr, S. (2010).
First-Principles Modeling of Bipolar Resistive Switching in Metal-Oxide Based Memory.
In Proceedings of the European Simulation and Modelling Conference (ESM) (pp. 181–186), Malta. (reposiTUm)

3.   Gottschling, P., Heinzl, R., Weinbub, J., Kirchner, N., Sauer, M., Klomfass, A., Steinhardt, C., Wensch, J. (2010).
Generic C++ Implementation of High-Performance BFS-RBF-based Mesh Motion Schemes.
In AIP Conference Proceedings (pp. 1631–1634), Korfu, Griechenland. (reposiTUm)

2.   Rupp, K., Rudolf, F., Weinbub, J. (2010).
ViennaCL - A High Level Linear Algebra Library for GPUs and Multi-Core CPUs.
In Proceedings of the International Workshop on GPUs and Scientific Applications (GPUScA 2010) (pp. 51–56), Vienna. (reposiTUm)

1.   Weinbub, J., Rupp, K., Selberherr, S. (2010).
ViennaIPD - An Input Control Language for Scientific Computing.
In Proceedings of the Industrial Simulation Conference (pp. 34–38), Budapest. (reposiTUm)

Talks and Poster Presentations (without Proceedings-Entry)

12.   Weinbub, J., Ballicchia, M., Etl, C., Nedjalkov, M. (2023, March 6).
Wigner Signed Particles for Electron Quantum Optics
Mini Workshop “QuantMOCOTE - Modelling, Optimization and Control of Quantum systems in Technology and Education,” Würzburg, Germany. (reposiTUm)

11.   Ballicchia, M., Nedjalkov, M., Weinbub, J. (2022).
Monte Carlo Approach for Solving Integral Equations: From Classical-Boltzmann to Quantum-Wigner Particles.
Workshop Monte Carlo Simulation: Beyond Moore’s Law, 2022 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), Granada, Spain. (reposiTUm)

10.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2022).
Quantum Transport in Phase Space: Introduction and Applications.
Summer School on Methods and Models of Kinetic Theory, Pesaro, Italy. (reposiTUm)

9.   Weinbub, J. (2022).
Wigner Signed Particles for Electron Quantum Optics.
UW-Madison’s Grainger Institute Computing in Engineering Forum, USA, International. (reposiTUm)

8.   Weinbub, J., Ballicchia, M., Nedjalkov, M. (2021).
Single Electron Control for Quantum Interference Devices.
Summer School on Methods and Models of Kinetic Theory - Winter Prelude, Porto Ercole, Italy. (reposiTUm)

7.   Filipovic, L., Kampl, M., Knobloch, T., Rzepa, G., Weinbub, J. (2018).
Ihr Smartphone - Ein Supercomputer Vor 20 Jahren. Ein Einblick in Die Mikro- Und Nanoelektronik (Mit Virtual Reality).
Lange Nacht der Forschung 2018, Wien, Austria. (reposiTUm)

6.   Windbacher, T., Ullmann, B., Grill, A., Weinbub, J. (2016).
Ihr Smartphone - Ein Supercomputer Vor 20 Jahren. Ein Einblick in Die Mikro- Und Nanoelektronik.
European Researchers’ Night: beSCIENCEd 2016, Wien, Austria. (reposiTUm)

5.   Nedjalkov, M., Ellinghaus, P., Weinbub, J., Selberherr, S., Sadi, T., Asenov, A., Wang, L., Amoroso, S. M., Towie, E. (2016).
Physical Models for Variation-Aware Device Simulation.
Workshop on Variability-Aware Design Technology Co-Optimization, Nuremberg, Germany, EU. (reposiTUm)

4.   Nedjalkov, M., Weinbub, J., Ellinghaus, P., Selberherr, S. (2016).
Wigner Signed Particles - An Intuitive Alternative of Particle-Wave Duality.
SEMODAY Meeting, Florence, Italy, EU. (reposiTUm)

3.   Rupp, K., Tillet, P., St Clere Smithe, T., Karovic, N., Weinbub, J., Rudolf, F. (2015).
ViennaCL - Fast Linear Algebra for Multi and Many-Core Architectures.
SIAM Conference on Computational Science and Engineering, Atlanta, GA, USA, Non-EU. (reposiTUm)

2.   Weinbub, J. (2013).
Research Software Engineering.
SPOMECH Autumn School, Ostrava, Czech Republic, EU. (reposiTUm)

1.   Rupp, K., Weinbub, J., Rudolf, F. (2012).
Highly Productive Application Development With ViennaCL for Accelerators.
AGU 2012 Fall Meeting, San Francisco, CA, United States of America (the). (reposiTUm)

Habilitation Theses

1.   Weinbub, J. (2019).
High Performance Simulation of Microelectronic Devices With Nanometer Dimensions
Technische Universität Wien. (reposiTUm)

Doctor's Theses (authored and supervised)

9.   Lenz, C. (2023).
Hierarchical Grid Algorithms for Topography Simulation
Technische Universität Wien. https://doi.org/10.34726/hss.2023.115141 (reposiTUm)

8.   Aguinsky, L. F. (2022).
Phenomenological Modeling of Reactive Single-Particle Transport in Semiconductor Processing
Technische Universität Wien. https://doi.org/10.34726/hss.2023.107502 (reposiTUm)

7.   Quell, M. (2022).
Parallel Velocity Extension and Load-Balanced Re-Distancing on Hierarchical Grids for High Performance Process TCAD
Technische Universität Wien. https://doi.org/10.34726/hss.2022.97084 (reposiTUm)

6.   Toifl, A. (2021).
Numerical Methods for Three-Dimensional Selective Epitaxy and Anisotropic Wet Etching Simulations
Technische Universität Wien. https://doi.org/10.34726/hss.2021.91744 (reposiTUm)

5.   Gnam, L. (2020).
High Performance Mesh Adaptation for Technology Computer-Aided Design
Technische Universität Wien. https://doi.org/10.34726/hss.2020.76784 (reposiTUm)

4.   Manstetten, P. L. (2018).
Efficient Flux Calculations for Topography Simulation
Technische Universität Wien. https://doi.org/10.34726/hss.2018.57263 (reposiTUm)

3.   Šimonka, V. (2018).
Thermal Oxidation and Dopant Activation of Silicon Carbide
Technische Universität Wien. https://doi.org/10.34726/hss.2018.60302 (reposiTUm)

2.   Rudolf, F. (2016).
Symmetry- And Similarity-Aware Volumetric Meshing
Technische Universität Wien. https://doi.org/10.34726/hss.2016.40647 (reposiTUm)

1.   Weinbub, J. (2014).
Frameworks for Micro- And Nanoelectronics Device Simulation
Technische Universität Wien. https://doi.org/10.34726/hss.2014.23675 (reposiTUm)

Diploma and Master Theses (authored and supervised)

7.   Adel, A. (2023).
Dynamic Particle Data Structures for Wigner Monte Carlo Simulations
Technische Universität Wien. https://doi.org/10.34726/hss.2023.107246 (reposiTUm)

6.   Pöppl, F. (2020).
Analysis and Optimization of Nested Meshes for Adaptive Mesh Refinement
Technische Universität Wien. https://doi.org/10.34726/hss.2020.42985 (reposiTUm)

5.  N. Freiberger:
"Design, Development, and Analysis of a Comprehensive DNA En-and Decoding Open Source Program using Python";
Supervisor: J. Weinbub, D. Iurashev; Fachhochschule Wiener Neustadt und Institut für Mikroelektronik, 2020; final examination: 2020-09-17.

4.   Lenz, C. (2019).
Curvature Based Surface Mesh Simplification
Technische Universität Wien. https://doi.org/10.34726/hss.2019.43658 (reposiTUm)

3.   Toifl, A. (2018).
Modeling and Simulation of Thermal Annealing of Implanted GaN and SiC
Technische Universität Wien. (reposiTUm)

2.   Mach, G. (2016).
A Highly Versatile Tool Chain for Robust Computational Fluid Dynamics Simulations
Technische Universität Wien. (reposiTUm)

1.  J. Weinbub:
"Adaptive Mesh Generation";
Supervisor: E. Langer, R. Heinzl; Institut für Mikroelektronik, 2009; final examination: 2009-10-09.