Found 6 relevant results in 2.83s where lecturer="Jens Honoré Walther"
Fundamental and advanced numerical methods used in commercial and open-source CFD codes will be explained. The main focus is on numerical methods for conservation laws with discontinuities, which is relevant for trans- and hypersonic gas dynamics problems, but also CFD of incompressible flows, Direct Simulation Monte Carlo and the Lattice Boltzmann method are explained.
In the lecture the algorithms which are typically used in industrial simulation codes are discussed. The incompressible Navire-Stokes equation is discretized with an finite-volume method. Furthermore, we provide introductions to a commercial CFD-code. The lecture aims to allow the student to deal critically with commercial CFD-codes and to be aware of possibilities and limitations of CFD-codes.
This course gives an introduction into algorithms and numerical methods for parallel computing on shared and distributed memory architectures. The algorithms and methods are supported with problems that appear frequently in science and engineering.
This course focuses on programming methods and tools for modern parallel systems, such as large-scale supercomputers with multi and many-core processors. Emphasis will be placed on techniques and models to maximize the performance of such systems. This is a hands-on course that relies on practical applications in science and engineering to demonstrate the importance of HPC.
Fundamental Computational Methods for data analysis, modeling and simulation relevant to Engineering applications. The course emphasizes the implementation of these methods in Python with application examples drawn from Engineering applications
Fundamentals of multiscale modeling and computation with emphasis onthe coupling of physical descriptions across different scales andon multiresolution computational methods. Multiscale concepts are introducedusing examples from engineering and scientific problems.