Projects
Development of geotechnical discrete element calculations on GPU Ghent University
Developments in the graphical cards for computers (GPU) have led to a calculation power in these cards that significantly exceeds the calculation power of the central processing unit (CPU). This project aims to utilize this power to perform geotechnical calculations using discrete elements by adapting existing software originally developed for the gaming industry.
A combined GP-GPU/FPGA desktop system for accelerating image processing applications (GUDI) Vrije Universiteit Brussel
Optimized render quality based on scalable texture coding. Vrije Universiteit Brussel
A combined GP-GPU/FPGA desktop system for accelerating image processing application (GUDI). Vrije Universiteit Brussel
Co-packaged multi-channel burst-mode optical transceiver for inter-GPU connections. Ghent University
Due to the deployment of 5G and IoT applications combined with the advance of AI, AR and VR, there is a big increase in high performance computing. Such computing is done in datacenters and/or by GPU workstations. To keep improving power consumption and computing capabilities, fast and power efficient interconnects are a necessity. Co-packaged optics enable this by bringing optics closer to the computing core. In this proposal, we aim to ...
Magnetism in nano-pore graphene University of Antwerp
Time-frequency domain based transforms and temporal prediction for coding of dynamic holograms Vrije Universiteit Brussel
Development of GPU-enabled high-order solver for simulating solar plasmas with adaptive mesh refinement. KU Leuven
Solar activity is at the origin of time and space varying conditions governing the environment of the solar system and resulting in what is referred to as Space Weather (SW). The eruptive events in the solar atmosphere are generally associated with the ejection of large amounts of magnetized plasma into interplanetary space at velocities up to several thousand kilometres per second. The latter phenomena, called Coronal Mass Ejections, are ...
A high-performance tensor network library for classical and quantum many body physics Ghent University
The goal of this project is to develop open source libraries to facilitate the use of tensors and tensor networks in the context of many body physics, that supports the latest trends in high performance computing such as GPU computing and automatic differentiation Tensor network algorithms have proven useful in the context of both quantum many body phyics and field theories and classical statistical systems (statistical mechanics) They all ...