P. Kestener, F. Chateau, R. Teyssier. Accelerating Euler equations numerical solver on graphics processing units, Algorithms and Architectures for Parallel Processing. Springer Berlin Heidelberg, 281-288, 2010.Pierre K, Frederic C, Romain T. Accelerating Euler equations numerical solver on graphics ...
The Mullins–Sekerka problem is numerically solved inwith the aid of the charge simulation method. This is an expansion of the numerical scheme by which Sakakibara and Yazaki computed the Hele–Shaw flow. We investigate a relationship among a time step, the number of collocation points and the ...
order solver while maintaining the practical efficiency of a first-order Euler method. This solver achieves a 3\times runtime speedup compared to state-of-the-art ReFlow inversion and editing techniques, while delivering smaller reconstruction errors and superior editing results in a training-fr......
S. RebayInternational Journal for Numerical Methods in FluidsColonna, P. and Rebay, S. (2004). Numerical simulation of dense gas flows on unstructured grids with an implicit high resolution upwind Euler solver. Int. J. Numer. Meth. Fluids, 46(7):735-765....
Simulation of (3) with and using an Euler-Maruyama numerical SDE solver [?]; red curves are deterministic trajectories with and blue curves are sample paths with .Christian, Meisel
The flow simulation is carried out by applying a finite-volume method which makes use of a Lagrangian-Eulerian version of Roe's approximate Riemann solver. The domain discretization is handled via unstructured triangular grids. Grid adaptation is applied on the basis of geometric and physical ...