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Karl Rupp
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2020 – today
- 2021
- [j12]Richard Tran Mills
, Mark F. Adams, Satish Balay, Jed Brown
Toward performance-portable PETSc for GPU-based exascale systems. Parallel Comput. 108: 102831 (2021) - 2020
- [i8]Richard Tran Mills, Mark F. Adams, Satish Balay, Jed Brown, Alp Dener
Toward Performance-Portable PETSc for GPU-based Exascale Systems. CoRR abs/2011.00715 (2020)
2010 – 2019
- 2019
- [c20]Lukas Gnam
A Flexible Shared-Memory Parallel Mesh Adaptation Framework. ICCSA (7) 2019: 158-165 - 2018
- [c19]Hong Zhang, Richard Tran Mills, Karl Rupp, Barry F. Smith:
Vectorized Parallel Sparse Matrix-Vector Multiplication in PETSc Using AVX-512. ICPP 2018: 55:1-55:10 - [c18]Tibor Grasser, Bernhard Stampfer
Characterization and physical modeling of the temporal evolution of near-interfacial states resulting from NBTI/PBTI stress in nMOS/pMOS transistors. IRPS 2018: 2 - 2016
- [j11]Karl Rupp, Philippe Tillet, Florian Rudolf, Josef Weinbub
ViennaCL - Linear Algebra Library for Multi- and Many-Core Architectures. SIAM J. Sci. Comput. 38(5) (2016) - [j10]Karl Rupp, Josef Weinbub
Pipelined Iterative Solvers with Kernel Fusion for Graphics Processing Units. ACM Trans. Math. Softw. 43(2): 11:1-11:27 (2016) - [c17]Karl Rupp:
The OpenCL Library Ecosystem: Current Status and Future Perspectives. IWOCL 2016: 13:1-13:2 - [c16]Dave A. May, Patrick Sanan, Karl Rupp, Matthew G. Knepley, Barry F. Smith:
Extreme-Scale Multigrid Components within PETSc. PASC 2016: 5 - [c15]Andreas Selinger, Karl Rupp, Siegfried Selberherr:
Evaluation of mobile ARM-based SoCs for high performance computing. SpringSim (HPS) 2016: 21 - [i7]Dave A. May, Patrick Sanan, Karl Rupp, Matthew G. Knepley, Barry F. Smith:
Extreme-scale Multigrid Components within PETSc. CoRR abs/1604.07163 (2016) - [i6]Matthew G. Knepley, Karl Rupp, Andy R. Terrel:
Finite Element Integration with Quadrature on the GPU. CoRR abs/1607.04245 (2016) - 2015
- [j9]Florian Rudolf, Karl Rupp, Josef Weinbub
Transformation invariant local element size specification. Appl. Math. Comput. 267: 195-206 (2015) - [j8]Josef Weinbub
ViennaMaterials - A dedicated material library for computational science and engineering. Appl. Math. Comput. 267: 282-293 (2015) - [j7]Prateek Sharma, Stanislav Tyaginov, Yannick Wimmer, Florian Rudolf, Karl Rupp, Hubert Enichlmair, J. H. Park, Hajdin Ceric
Comparison of analytic distribution function models for hot-carrier degradation modeling in nLDMOSFETs. Microelectron. Reliab. 55(9-10): 1427-1432 (2015) - [c14]Florian Rudolf, Josef Weinbub
Free Open Source Mesh Healing for TCAD Device Simulations. LSSC 2015: 293-300 - [e2]Karl Rupp, Layne T. Watson, William I. Thacker, Masha Sosonkina:
Proceedings of the Symposium on Modeling and Simulation in Medicine, part of the 2015 Spring Simulation Multiconference, SpringSim '15, Alexandria, VA, USA, April 12-15, 2015. SCS/ACM 2015, ISBN 978-1-5108-0102-8 [contents] - [i5]Karl Rupp, Satish Balay, Jed Brown, Matthew G. Knepley, Lois C. McInnes, Barry Smith:
On The Evolution Of User Support Topics in Computational Science and Engineering Software. CoRR abs/1510.01122 (2015) - 2014
- [j6]Josef Weinbub
ViennaX: a parallel plugin execution framework for scientific computing. Eng. Comput. 30(4): 651-668 (2014) - [j5]Florian Rudolf, Josef Weinbub
The meshing framework ViennaMesh for finite element applications. J. Comput. Appl. Math. 270: 166-177 (2014) - [j4]Josef Weinbub
Highly flexible and reusable finite element simulations with ViennaX. J. Comput. Appl. Math. 270: 484-495 (2014) - [c13]Karl Rupp, Philippe Tillet, Florian Rudolf, Josef Weinbub
Performance portability study of linear algebra kernels in OpenCL. IWOCL 2014: 8:1-8:11 - [c12]Yushan Wang, Marc Baboulin, Karl Rupp, Olivier P. Le Maître, Yann Fraigneau:
Solving 3D incompressible Navier-Stokes equations on hybrid CPU/GPU systems. SpringSim (HPS) 2014: 12 - [i4]Karl Rupp, Philippe Tillet, Florian Rudolf, Josef Weinbub, Tibor Grasser, Ansgar Jüngel:
Performance Portability Study of Linear Algebra Kernels in OpenCL. CoRR abs/1409.0669 (2014) - [i3]Karl Rupp, Josef Weinbub, Ansgar Jüngel, Tibor Grasser:
Pipelined Iterative Solvers with Kernel Fusion for Graphics Processing Units. CoRR abs/1410.4054 (2014) - 2013
- [j3]Denis Demidov
Programming CUDA and OpenCL: A Case Study Using Modern C++ Libraries. SIAM J. Sci. Comput. 35(5) (2013) - [c11]Philippe Tillet, Karl Rupp, Siegfried Selberherr, Chin-Teng Lin:
Towards Performance-Portable, Scalable, and Convenient Linear Algebra. HotPar 2013 - [c10]Prasanna Balaprakash
Empirical performance modeling of GPU kernels using active learning. PARCO 2013: 646-655 - [e1]Fang (Cherry) Liu, Karl Rupp, Rhonda D. Phillips, William I. Thacker:
2013 Spring Simulation Multiconference, SpringSim '13, San Diego, CA, USA, April 7-10, 2013, Proceedings of the High Performance Computing Symposium (HPC). ACM 2013, ISBN 978-1-62748-033-8 [contents] - [i2]Matthew G. Knepley, Jed Brown, Karl Rupp, Barry F. Smith:
Achieving High Performance with Unified Residual Evaluation. CoRR abs/1309.1204 (2013) - 2012
- [c9]Volodymyr Kysenko, Karl Rupp
GPU-Accelerated Non-negative Matrix Factorization for Text Mining. NLDB 2012: 158-163 - [c8]Jorge Rodríguez, Josef Weinbub
Distributed High-Performance Parallel Mesh Generation with ViennaMesh. PARA 2012: 548-552 - [c7]Josef Weinbub
A Lightweight Task Graph Scheduler for Distributed High-Performance Scientific Computing. PARA 2012: 563-566 - [c6]Karl Rupp
High-Level Manipulation of OpenCL-Based Subvectors and Submatrices. ICCS 2012: 1857-1866 - [i1]Denis Demidov, Karsten Ahnert, Karl Rupp, Peter Gottschling:
Programming CUDA and OpenCL: A Case Study Using Modern C++ Libraries. CoRR abs/1212.6326 (2012) - 2011
- [c5]Karl Rupp
A GPU-Accelerated Parallel Preconditioner for the Solution of the Boltzmann Transport Equation for Semiconductors. Facing the Multicore-Challenge 2011: 147-157 - [c4]Josef Weinbub
Towards Distributed Heterogenous High-Performance Computing with ViennaCL. LSSC 2011: 359-367 - 2010
- [j2]Karl Rupp, Ansgar Jüngel
Matrix compression for spherical harmonics expansions of the Boltzmann transport equation for semiconductors. J. Comput. Phys. 229(23): 8750-8765 (2010) - [j1]Karl Rupp, Siegfried Selberherr
The Economic Limit to Moore's Law [Point of View]. Proc. IEEE 98(3): 351-353 (2010) - [c3]Karl Rupp
Symbolic integration at compile time in finite element methods. ISSAC 2010: 347-354 - [c2]Karl Rupp
Increased efficiency in finite element computations through template metaprogramming. SpringSim 2010: 92
2000 – 2009
- 2007
- [c1]Annett Bartsch
Application of C and Ku-Band scatterometer data for catchment hydrology in northern latitudes. IGARSS 2007: 3702-3705
Coauthor Index
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