Simulations of supersonic jet instability using the piecewise-parabolic method (PPM)
High-speed computing: scientific applications and algorithm design
Proceedings of the 7th conference on Visualization '96
Computational science and engineering
ACM Computing Surveys (CSUR) - Special ACM 50th-anniversary issue: strategic directions in computing research
TELEPORT— towards immersive copresence
Multimedia Systems - Special issue on video content based retrieval
Interactive visualization of particle-in-cell simulations
Proceedings of the conference on Visualization '00
Tracking and Visualizing Turbulent 3D Features
IEEE Transactions on Visualization and Computer Graphics
Theme Editors' Introduction: Advancing Interactive Visualization and Computational Steering
IEEE Computational Science & Engineering
IEEE Computer Graphics and Applications
Interactive Texture-Based Volume Rendering for Large Data Sets
IEEE Computer Graphics and Applications
Integrated control of distributed volume visaulization through the World-Wide-Web
VIS '94 Proceedings of the conference on Visualization '94
Hi-index | 4.10 |
Examples of scientific visualization techniques used for the interactive exploration of very large data sets from supercomputer simulations of fluid flow are presented. Interactive rendering of images from simulations of grids of 2 million or more computational zones are required to drive high-end graphics workstations to their limits with 2-D data. The author presents one such image and discusses interactive steering of 2-D flow simulations, a phenomenon now possible with grids of half a million computational zones. He uses a simulation of compressible turbulence on a grid of 134 million computational zones to set the scale for discussing interactive 3-D visualization techniques. A concept for a gigapixel-per-second video wall, or gigawall, which could be built with present technology to meet the demands of interactive visualization of the data sets that will be produced by the next generation of supercomputers, is discussed.