5th GPU WORKSHOP - THE FUTURE OF MANY-CORE COMPUTING IN SCIENCE 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.
BOOK OF ABSTRACTS AVAILABLE HERE.
TOPICS INCLUDE:
- current status and near-future of many-core hardware and software
- many-core computing in physics and other fields of science
- medical application, image processing, computer vision, reconstruction
- industrial applications of many-core computing
- many-core computing in education
- mobile computing in science
- student projects
LIST OF KEY TALKS:
- NVIDIA Products Overview
Gernot ZIEGLER (NVIDIA)
- GCN Architecture, HSA Platform Evolution and the AMD Developer Ecosystem
Benjamin COQUELLE (AMD)
- SYCL: An Abstraction Layer for Leveraging C++ and OpenCL
Alastair MURRAY (CODEPLAY)
- One Can Simply Walk Into Heterogeneous Parallelism
Alex VOICU (MICROSOFT)
SPECIAL TOPICAL TALKS:
- Methodology for Heterogeneous Programming on OpenCL and Its Applications
Olga SUDAREVA (NIISI, Russian Academy of Sciences)
- Efficient Large Scale Simulation of Stochastic Lattice Models on GPUs
Jeffrey KELLING (Helmholtz-Zentrum Dresden-Rossendorf)
- GPU Computing at ELI-ALPS
Sándor FARKAS (ELI Attosecond Light Pulse Source)
CONTRIBUTION TALKS:
- Comparison of GPUs and Embedded Vision Coprocessors for Automotive Computer Vision Applications
Zoltán PROHÁSZKA (Kishonti Ltd.)
- PERSEUS: Image and Video Compression in the Age of Massive Parallelism
Balázs KESZTHELYI (V-NOVA Ltd.)
- GPU-based Iterative Computed Tomography Reconstruction
Zsolt BALOGH (MEDISO Ltd.)
- Fisher Information-based Classification on GPUs
András BENCZÚR (Institute for Computer Science and Control)
- QCD on the lattice
Ferenc PITTLER (Eötvös University) -
A GPU-based program suite for numerical simulations of planetary system formation
László DOBOS (Eötvös University) -
Optimization possibilities of inhomogeneous cosmological simulations on massively parallel architectures
László DOBOS (Eötvös University) -
Semi-analytic modelling of galaxy spectra using GPUs
Dezső Ribli (Eötvös University) - Hierarchical Bayesian Method with MCMC Integration on GPUs
János Márk SZALAI-GINDL (Eötvös University)
- GPUs in a Global Earth-based Space Weather Monitoring Network
Dávid KORONCZAY (Eötvös University)
- Pattern Generation for Retina Stimulation Experiments
László SZÉCSI (IIT, Budapest University of Technology and Economics)
- Fast Patient-specific Blood Flow Modelling on GPUs
Gábor ZÁVODSZKY (HDS, Budapest University of Technology and Economics)
- Efficient parallel generation of random p-bits for multispin MC simulation
István BORSOS (Institute for Technical Physics and Materials Science, Centre for Energy Research)
- Accelerating the GEANT Particle Transport System with GPUs
Gábor BÍRÓ (Eötvös University / Wigner RCP)
- Gamma Ray Burst Prediction with GPUs
Gergely DEBRECZENI (Wigner RCP)
- Accelerated Monte-Carlo Particle Generators for the LHC
Gergely Gábor BARNAFÖLDI (Wigner RCP)
CALL FOR ABSTRACTS:
Physics research using or relying on many-core (GPU/APU/MIC) or mobile platform computing solutions are welcome to be presented. Companies and industrial partners are welcome to give presentation and set up discussion panels. Students are encouraged to present their works on posters displayed during the whole duration of the conference.
DEADLINES:
- Abstract submission: 2015 may 3
- Decision on accepted presentations: 2015 may 5
Please send your questions to:
Dániel BERÉNYI
{berenyi} . {daniel} {at} {wigner} . {mta} . {hu}
ORGANIZERS:
Gergely DEBRECZENI (Wigner RCP)
Máté Ferenc NAGY-EGRI (Wigner RCP)
Dániel BERÉNYI (Wigner RCP)
Gergely Gábor BARNAFÖLDI (Wigner RCP)
