Accurate vertical profiles of turbulent flow in z-layer models

F.W. Platzek, G.S. Stelling, J.A. Jankowski and J.D. Pietrzak

Abstract. Three-dimensional hydrodynamic z-layer models, which are used for simulating the flow in rivers, estuaries, and oceans, suffer from an inaccurate and often discontinuous bottom shear stress representation, due to the staircase bottom. We analyze the governing equations and clearly show the cause of the inaccuracies. Based on the analysis, we present a new method that significantly reduces the errors and the grid dependency of the results. Continue reading

Potential der Intel Many Integrated Core Architektur für die Flussmodellierung — Codes UnTRIM und Telemac

Jacek A. Jankowski

This technical report (in German) concerns the assessment of porting feasibility of codes UnTRIM2 and Telemac to the Intel Xeon Phi, i.e. MIC (Many Integrated Cores) architecture. German abstract follows. Continue reading

Adaptierung und Erweiterung von Casulli-Algorithmen für Parallelrechner mit Hardware-Beschleunigung und zur Anwendung von konservativen Advektionsverfahren

Jacek A. Jankowski

BAW internal R&D-project report, 2010-2012.

Abstract: The aim of the R&D-project is development and application of new programming paradigms in high performance computing through the adaptation of Casulli algorithms for arriving parallel computer architectures with hardware acceleration. Additionally, the existing advection schemes should be adapted for all flow regimes. Continue reading

A hardware-accelerated parallel implementation of a two-dimensional scheme for free surface flows

Results of implementing a two-dimensional semi-implicit scheme for free surface flows applying CUDA for a Nvidia GPU. Continue reading

A hardware-accelerated parallel implementation of a two-dimensional scheme for free surface flows

J.A. Jankowski

Abstract: This contribution concerns the verification and performance assessment of a hardware-accelerated parallel implementation of an algorithm for the semi-implicit finite difference method for solving the vertically integrated shallow water equations including a non-linear treatment of wetting and drying and conservative advection schemes. Continue reading