Projects
WaterREACT (Water Reuse and Exchange Advanced Computational Tool): A decision support tool for planning circular water use in industry. University of Antwerp
Advanced Computational Methods for Real-time Analysis of Time Dependent Nanomaterials. University of Antwerp
Computational Modelling of Interactive Behaviour KU Leuven
Computational investigation and targeting of the choline import system in pathogenic bacteria as a promising drug target. Ghent University
The escalating incidence of bacterial infections and the consequential antibiotic resistance pose a critical health and scientific challenge, necessitating finding new drug targets in the pathogenic bacteria. Choline-mediated decoration of bacteria cell wall is a crucial modulator for survival, virulence, and antibiotic resistance in pathogenic bacteria such as s. pneumoniae. The determination of the crystal structure of LicB, a transporter ...
Computational modelling of strain fields in disordered nanostructured materials Ghent University
Nanostructured materials are not perfect crystals. They exhibit different types of structural disorder that influence the material's behaviour, also at the macroscopic level. These structural deformations can be quantified through strain fields, which propagate over the whole material. This project aims to determine strain fields through existing and novel computational modelling techniques. This way, it will become possible to derive design ...
Computational methods for infinite-dimensional Bayesian inversion of physics-based models in engineering applications KU Leuven
Computational mass spectrometry and artificial intelligence to unravel the immunopeptidome. University of Antwerp
Virtual Matter: Metamaterialisations of computational processes AP Hogeschool Antwerpen
Sparse Matrix computational kernels for High Performance Computing KU Leuven
The bottleneck of numerical algorithms on current hardware is the time for memory access, not the time for arithmetic operations. Algorithms for sparse matrices typically have a low arithmetic intensity, this makes that cache reuse and communication hiding is hard. Intel has developed new hardware, named PIUMA (Programmable Integrated Unified Memory Architecture) which consists of many multi-threaded cores, small memory modules and a global ...