Lean Visualization of Large Scale Tree-Based AMR Meshes
Author/Presenters
Event Type
Workshop
TimeFriday, November 17th11:50am -
12:10pm
Location302-303
DescriptionWe present a novel adaptive method for the
visualization and analysis of large-scale, parallel,
tree-based adaptive mesh refinement (AMR) scientific
simulations. When compared to those obtained with
standard approaches for the visualization of such
datasets, our results indicate a gain of at least 80% in
terms of memory footprint with a better rendering, while
retaining similar execution speed.
Furthermore, our adaptive approach allows for further acceleration of the rendering of 2-dimensional AMR grids, hereby solving the problem posed by the loss of interactivity that occurs when dealing with large and/or deeply refined meshes. This was achieved by taking advantage of the intrinsic structure of tree-based AMR grids, allowing for on-the-fly data reduction at visualization time with guaranteed rendering accuracy.
Furthermore, our adaptive approach allows for further acceleration of the rendering of 2-dimensional AMR grids, hereby solving the problem posed by the loss of interactivity that occurs when dealing with large and/or deeply refined meshes. This was achieved by taking advantage of the intrinsic structure of tree-based AMR grids, allowing for on-the-fly data reduction at visualization time with guaranteed rendering accuracy.
