Computer Scientist / Software Engineer at Helmholtz Centre for Environmental Research - UFZ
I am the head of the virtual environment TESSIN VISLab which helps scientists in the environmental sciences to explore, analyse and present complex data sets.
I am also responsible for software engineering processes in the department Environmental Informatics for OpenGeoSys, a multi physics FEM-based simulation tool for coupled processes. I established a development workflow which enables platform independent, quality tested and automatically deployed software releases by using tools for Continous Integration. Additionally a visualization and data exploration tool (OGS Data Explorer) on top of the simulation software is developed.
Currently I am focussing on enabling OpenGeoSys for insitu-visualization on HPC platforms and interactive visualization of multifaceted data sets in our virtual environment.
Have a look at my UFZ page for a list of peer-reviewed publications.
During my internship I developed a plugin for Autodesk VRED which enables 6 degrees of freedom navigation with the 3DConnexion SpaceNavigator
Official repository of the OpenGeoSys THM/C simulator
Lead developer
Additional CMake functionality. Most of the modules are from Ryan Pavlik (https://github.com/rpavlik/cmake-modules)
Added a popular module for code coverage.
OGS source code
Software / build engineer
OpenGeoSys is a free scientific multi-platform modeling package that enables numerical simulations of individual or coupled thermo-hydro-mechanical-chemical (THMC) processes in…
Software and Build Engineer
Scientific visualization is an integral part of the modeling workflow, enabling researchers to understand complex or large data sets and simulation results. A high-resolution stereoscopic virtual reality (VR) environment further enhances the possibilities of visualization. Such an environment also allows collaboration in work groups including people of different backgrounds and to present results of research projects to stakeholders or the public. The requirements for the computing equipment driving the VR environment demand specialized software applications which can be run in a parallel fashion on a set of interconnected machines. Another challenge is to devise a useful data workflow from source data sets onto the display system. Therefore, we develop software applications like the OpenGeoSys Data Explorer, custom data conversion tools for established visualization packages such as ParaView and Visualization Toolkit as well as presentation and interaction techniques for 3D applications like Unity. We demonstrate our workflow by presenting visualization results for case studies from a broad range of applications. An outlook on how visualization techniques can be deeply integrated into the simulation process is given and future technical improvements such as a simplified hardware setup are outlined.
The book comprises an assembly of benchmarks and examples for porous media mechanics collected over the last twenty years.
I contributed an appendix on the software engineering process and the continuous integration system used by OpenGeoSys.
This tutorial on the application of the open-source software OpenGeoSys (OGS) in computational hydrology is based on a one-week training course at the Helmholtz Centre for Environmental Research in Leipzig, Germany. It provides general information regarding hydrological and groundwater flow modeling and the pre-processing and step-by-step model setups of a case study with OGS and related components such as the OGS Data Explorer.
I contributed a section on software installation.
| Likes: | c++ cmake ruby visualization osx build-automation 3d git vr continuous-integration unity3d |
I am the head of the virtual environment TESSIN VISLab which helps scientists in the environmental sciences to explore, analyse and present complex data sets.
I am also responsible for software engineering processes in the department Environmental Informatics for OpenGeoSys, a multi physics FEM-based simulation tool for coupled processes. I established a development workflow which enables platform independent, quality tested and automatically deployed software releases by using tools for Continous Integration. Additionally a visualization and data exploration tool (OGS Data Explorer) on top of the simulation software is developed.
Currently I am focussing on enabling OpenGeoSys for insitu-visualization on HPC platforms and interactive visualization of multifaceted data sets in our virtual environment.
Have a look at my UFZ page for a list of peer-reviewed publications.
During my internship I developed a plugin for Autodesk VRED which enables 6 degrees of freedom navigation with the 3DConnexion SpaceNavigator
Official repository of the OpenGeoSys THM/C simulator
Lead developer
Additional CMake functionality. Most of the modules are from Ryan Pavlik (https://github.com/rpavlik/cmake-modules)
Added a popular module for code coverage.
OGS source code
Software / build engineer
Scientific visualization is an integral part of the modeling workflow, enabling researchers to understand complex or large data sets and simulation results. A high-resolution stereoscopic virtual reality (VR) environment further enhances the possibilities of visualization. Such an environment also allows collaboration in work groups including people of different backgrounds and to present results of research projects to stakeholders or the public. The requirements for the computing equipment driving the VR environment demand specialized software applications which can be run in a parallel fashion on a set of interconnected machines. Another challenge is to devise a useful data workflow from source data sets onto the display system. Therefore, we develop software applications like the OpenGeoSys Data Explorer, custom data conversion tools for established visualization packages such as ParaView and Visualization Toolkit as well as presentation and interaction techniques for 3D applications like Unity. We demonstrate our workflow by presenting visualization results for case studies from a broad range of applications. An outlook on how visualization techniques can be deeply integrated into the simulation process is given and future technical improvements such as a simplified hardware setup are outlined.
The book comprises an assembly of benchmarks and examples for porous media mechanics collected over the last twenty years.
I contributed an appendix on the software engineering process and the continuous integration system used by OpenGeoSys.
This tutorial on the application of the open-source software OpenGeoSys (OGS) in computational hydrology is based on a one-week training course at the Helmholtz Centre for Environmental Research in Leipzig, Germany. It provides general information regarding hydrological and groundwater flow modeling and the pre-processing and step-by-step model setups of a case study with OGS and related components such as the OGS Data Explorer.
I contributed a section on software installation.
OpenGeoSys is a free scientific multi-platform modeling package that enables numerical simulations of individual or coupled thermo-hydro-mechanical-chemical (THMC) processes in…
Software and Build Engineer
| First Computer: | Sinclair ZX Spectrum |
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