GPU Day 2016 - THE FUTURE OF MANY-CORE COMPUTING IN SCIENCE
The 6th in the conference series organized by the Wigner Research Centre for Physics of the Hungarian Academy of Sciences is dedicated to the field of many-core computing in scientific and industrial applications.
The conference is FREE to attend, but registration is mandatory!
Registration is closed!
Book of Abstracts is available HERE.
Preliminary schedule is available HERE.
TOPICS INCLUDE:
Confirmed key presenters:
Special Talks by:
Contributed Talks:
NIIF HPC for research and education accelerated with GPUs
Zoltán Kiss (National Information Infrastructure Development Institute)
Parallel evaluation of general vector-arithmetic trees
András Leitereg (Eötvös University)
Simulation of Surface Growth on GPU supercomputers
Jeffrey Kelling (Helmholtz-Zentrum Dresden-Rossendorf),
Géza Ódor (Centre of Energy Research, Institute for Technical Physics and Materials Science)
A GPU cluster optimized multigrid scheme for computing unsteady incompressible fluid flow
György Tegze (Wigner Research Centre for Physics, Institute for Solid State Physics and Optics)
HIJING++, OOP concepts and simple parallelization
Szilveszter Harangozó (Wigner Research Centre for Physics, Institute for Particle and Nuclear Physics)
Applications of GPU-accelerated deep neural networks to analyze galaxy spectra
László Dobos (Eötvös University, Department of Physics of Complex Systems)
Light curve modeling of eclipsing binary stars
Gábor Marschalkó (Szeged University, Baja Observatory)
Fast determination of some orbital elements of eclipsing binary stars on GPU
János Sztakovics (Eötvös University)
Eclipse Timing Variation analysis of binary stars with CUDA
Tamás Hajdu (Eötvös University)
The PYCBC package and its use in the search of the Gravitational waves detection, its application in GPUs
Balázs Kacskovics, László Somlai (Wigner Research Centre for Physics, Institute for Particle and Nuclear Physics)
Hierarchical Volumetric Fusion of Depth Images
Milán Magdics (Budapest University of Technology and Economics,
Department of Control Engineering and Information Technology)
Photorealistic 3D CT visualization supported by HPC GPU and CPU coprocessors
László Kovács (University of Debrecen, Faculty of Informatics)
A high-throughput stream-oriented GPU environment for simultaneous processing and visualization of EEG measurements
Zoltán Juhász
(University of Pannonia, Department of Electrical Engineering and Information Systems)
DEADLINES:
Please send your abstracts and questions to:
Dániel BERÉNYI
{berenyi} . {daniel} {at} {wigner} . {mta} . {hu}
ORGANIZERS:
Dániel BERÉNYI (Wigner RCP)
Máté Ferenc NAGY-EGRI (Wigner RCP)
Gergely DEBRECZENI (ADASWORKS Ltd. / Wigner RCP)
Gergely Gábor BARNAFÖLDI (Wigner RCP)