RESEARCH FIELDS
The research at our institute spans the entire field of computational mechanics, from fundamental topics such as consistent discretization schemes and efficient parallel solvers for interface and multi-physics problems, to novel data-driven approaches such as surrogate modeling and physics-informed machine learning, and the development of state-of-the-art simulation software. Our aim is to conduct cutting-edge research, staying at the forefront of developments in the computational mechanics community, while bridging the gap between basic research and real-world applications. This commitment is evident in our diverse range of projects, supported by both public and private third-party funding, and carried out in collaboration with leading research institutions and industry partners worldwide.
On this page, you will find detailed insights into our core research areas, including ongoing and completed projects. Each section highlights specific areas of computational mechanics in which the institute is actively engaged.
