Computational Visualization Center
University of Texas at Austin
COMPUTATIONAL VISUALIZATION CENTER
News
People
Hardware
Software
Papers
Projects
Portal
Data
Presentations
Gallery
Sponsors
Links
People
Director
Faculty, Staff, and Students
Hardware
Viz Lab
Projection Systems
Console
Edit Studio
Computer Room
Prisms Cluster
SGI Onyx 2
Storage RAID
RGVHV/Audio Matrix Switching
Software
Angstrom
DiDi
Bio-Med
Shastra
Visual Eyes
Visualization Portal
X-Tierra
Software Guides
Projects
Angstrom
DiDi
BioMed
Shastra
Visual Eyes
X-Tierra
Remote Visualization
Gallery
Computational Biology
Computational Cosmology
Computational Earth Sciences
Computational Engineering
Computational Medicine
Computational Biology
Viruses
Ribosome
Hemoglobin
Mouse Acetylcholinesterase
Microtubule
Superoxide Dismustase
Computational Cosmology
Computational Cosmology
Explosions During Galaxy Formation
Computational Earth Sciences
Hydraulic Conductivity of Soil
Oceanography
Computational Engineering
Composite Material Segmentation
Large Scale Simulations of Emulsions
Petroleum Engineering
Turbulent Flow Fields
Computational Medicine
Acoustics Scattering
Pulmonary Embolism Visualizations
The Human Brain
The Human Heart
Axon tracts
Visible Human
The Spinal Cord
Radiation Therapy
MRI Dataset - Heart
Links
Useful Links
PROJECTS
DiDi
Compression of Meshes
Visualization-Specific Compression
Parallel Visualization from Compressed Volume
Out of Core, Parallel Computations
Multi-Tiled Displays (UT MetaBuffer)
Texture Hardware Based Volume Rendering
Time-Varying Analysis
Remote Visualization
Interactive Movie
Data Intensive Display Intensive visualization
- studies both the computational hardware and software infrastructure that underpin interactive visual manipulation of extremely large data streams on huge stereo display screens (Data Intensive, Display Intensive computations).
Research Challenges include
Compression of Meshes
Visualization-Specific Compression
Parallel Visualization from Compressed Volume
Out of Core, Parallel Computations
Multi-Tiled Displays (UT MetaBuffer)
Texture Hardware Based Volume Rendering
Time-Varying Analysis
Remote Visualization
Interactive Movie
Computational Visualization Center
University of Texas at Austin
