Large-scale numerical simulations of planetary interiors require dedicated visualization algorithms that are able to efficiently extract a large amount of information in an interactive and user-friendly way. Here we present a software framework for the visualization of mantle convection data. This framework combines real-time volume rendering, pathline visualization, and parallel coordinates to explore the fluid dynamics in an interactive way and to identify correlations between various output variables
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
In the field of computational fluid dynamics (CFD) accurate representations of fluid phenomena can b...
We present an integrated in-situ visualization approach for partitioned multi-physics simulation of ...
International audienceThis paper focuses on realistic rendering of scenes which include turbulent fl...
Figure 1. Solar convection is dominated by the formation of thermal downflow plumes in the surface l...
The ever increasing processing capabilities of the supercomputers available to computational scienti...
Increased graphical capabilities of contemporary computer hardware make ray tracing possible for a m...
Fluid dynamics applications require a good understanding of the underlying physical phenomena. There...
We describe a system that supports real-time interactive visualization of computational fluid dynami...
Modern computational fluid dynamics simulations are capable of the detailed simulation of fluid flow...
Une revue des techniques de visualisation des écoulements turbulents est présentée sous forme de con...
this paper, we present interactive volume visualization schemes that use ray tracing as their basic ...
. Multiblock multigrid finite volume methods based on hexahedral control volumes are computationall...
We developed a Python-based open-source software for scientific visualization of fluid dynamics data...
Parallel coordinate plots (PCPs) are commonly used in information visualization to provide insight i...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
In the field of computational fluid dynamics (CFD) accurate representations of fluid phenomena can b...
We present an integrated in-situ visualization approach for partitioned multi-physics simulation of ...
International audienceThis paper focuses on realistic rendering of scenes which include turbulent fl...
Figure 1. Solar convection is dominated by the formation of thermal downflow plumes in the surface l...
The ever increasing processing capabilities of the supercomputers available to computational scienti...
Increased graphical capabilities of contemporary computer hardware make ray tracing possible for a m...
Fluid dynamics applications require a good understanding of the underlying physical phenomena. There...
We describe a system that supports real-time interactive visualization of computational fluid dynami...
Modern computational fluid dynamics simulations are capable of the detailed simulation of fluid flow...
Une revue des techniques de visualisation des écoulements turbulents est présentée sous forme de con...
this paper, we present interactive volume visualization schemes that use ray tracing as their basic ...
. Multiblock multigrid finite volume methods based on hexahedral control volumes are computationall...
We developed a Python-based open-source software for scientific visualization of fluid dynamics data...
Parallel coordinate plots (PCPs) are commonly used in information visualization to provide insight i...
technical reportThe purpose of scientific computation is insight. Visualization is the most direct w...
In the field of computational fluid dynamics (CFD) accurate representations of fluid phenomena can b...
We present an integrated in-situ visualization approach for partitioned multi-physics simulation of ...