André Rigland Brodtkorb
André Rigland Brodtkorb
Scientist at the Norwegian Meteorological Institute / Associate Professor Oslo Metropolitan
Email verificata su - Home page
Citata da
Citata da
State-of-the-art in heterogeneous computing
AR Brodtkorb, C Dyken, TR Hagen, JM Hjelmervik, OO Storaasli
Scientific Programming 18 (1), 1-33, 2010
GPU Programming Strategies and Trends in GPU Computing
AR Brodtkorb, TR Hagen, ML Sætra
Journal of Parallel and Distributed Computing 73, 4-13, 2012
Efficient shallow water simulations on GPUs: Implementation, visualization, verification, and validation
AR Brodtkorb, ML Sætra, M Altinakar
Computers & Fluids 55, 1-12, 2010
Simulation and visualization of the Saint-Venant system using GPUs
AR Brodtkorb, TR Hagen, KA Lie, JR Natvig
Computing and Visualization in Science 13 (7), 341-353, 2010
GPU computing in discrete optimization. Part II: Survey focused on routing problems
C Schulz, G Hasle, AR Brodtkorb, TR Hagen
EURO journal on transportation and logistics 2 (1-2), 159-186, 2013
GPU computing in discrete optimization. Part I: Introduction to the GPU
AR Brodtkorb, TR Hagen, C Schulz, G Hasle
EURO journal on transportation and logistics 2 (1-2), 129-157, 2013
Shallow water simulations on multiple GPUs
ML Sætra, AR Brodtkorb
International Workshop on Applied Parallel Computing, 56-66, 2010
Efficient GPU-Implementation of Adaptive Mesh Refinement for the Shallow-Water Equations
ML Sætra, AR Brodtkorb, KA Lie
Journal of Scientific Computing, 2014
Scientific Computing on Heterogeneous Architectures
AR Brodtkorb
University of Oslo, 2010
The graphics processor as a mathematical coprocessor in MATLAB
AR Brodtkorb
2008 International Conference on Complex, Intelligent and Software Intensive …, 2008
A comparison of three commodity-level parallel architectures: Multi-core CPU, Cell BE and GPU
AR Brodtkorb, TR Hagen
International Conference on Mathematical Methods for Curves and Surfaces, 70-80, 2008
A MATLAB interface to the GPU
A Brodtkorb
Explicit Shallow Water Simulations on GPUs: Guidelines and Best Practices
AR Brodtkorb, ML Sætra
Evaluation of selected finite-difference and finite-volume approaches to rotational shallow-water flow
HH Holm, AR Brodtkorb, G Brostrøm, KH Christensen, ML Sætra
Global Science Press, 2020
GPU Computing with Python: Performance, Energy Efficiency and Usability
HH Holm, AR Brodtkorb, ML Sætra
Computation 8 (1), 4, 2020
Real-time online camera synchronization for volume carving on GPU
TA Haufmann, AR Brodtkorb, A Berge, A Kim
2013 10th IEEE International Conference on Advanced Video and Signal Based …, 2013
An asynchronous API for numerical linear algebra
AR Brodtkorb
Scalable Computing: Practice and Experience 9 (3), 2008
Visualization of Marine Sand Dune Displacements Utilizing Modern Gpu Techniques
T Gierlinger, AR Brodtkorb, A Stumpf, M Weiler, F Michel
ISPRS-International Archives of the Photogrammetry, Remote Sensing and …, 2015
Comparison Between Algebraic Multigrid and Multilevel Multiscale Methods for Reservoir Simulation
H Nilsen, A Moncorge, K Bao, O Møyner, K Lie, A Brodtkorb
ECMOR XVII 2020 (1), 1-17, 2020
Real-World Oceanographic Simulations on the GPU using a Two-Dimensional Finite-Volume Scheme
AR Brodtkorb, HH Holm
arXiv preprint arXiv:1912.02457, 2019
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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