The ZigCell3D modeling, simulation and visualisation framework
ZigCell3D is a virtual 3D whiteboard approach to chemical reaction modelling. It aims to provide a realtime interactive environment, where complex biophysics research is turned into a creative and game-like 3D environment. The complete system entails modelling, simulation and visualisation as part of a unified framework.
The core visualisation is based on a multi-core parallel C/C++ ray tracing engine, that builds a complete 3D iso-surface model of the cell, its organelles and molecules down to the atomic level using PDB files. The simulator itself is based on coarse-grained Brownian motion of the individual molecules, which is visualised in detail in a tightly coupled manner. Using a virtual fluorescence microscope the virtual simulation environment can be benchmarked against real life experimental data.
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| Techniques: | 3D |
| Software: | Installed |
| Technology: | C/C++, BioInspire parallel ray tracing core |
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Project development
This work was supported in part by a grant from the Swiss Commission for Technology and Innovation (CTI), Project 12532.1 PFLS-LS. Heinz Koeppl acknowledges funding from Swiss National Science Foundation, grant no. PP00P2_128503.
Last updated on 10th November, 2016
