The two primary goals for this report were the design, contruction and modeling of parallel disk arrays for scientific visualization and animation, and a study of the IO requirements of highly parallel applications. In addition, further work in parallel display systems required to project and animate the very high-resolution frames resulting from our supercomputing simulations in ocean circulation and compressible gas dynamics
Applications such as animation and scientific visualization demand high performance ren-dering of co...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
In computer graphics, rendering is the process by which an abstract description of a scene is conver...
While additional cores and newer architectures, such as those provided by GPU clusters, steadily inc...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
Parallel visualization is one of the most powerful tools for gaining insight into large datasets. Ma...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
We outline a plan to develop portable parallel I/O facilities for scientific applications on paralle...
Abstract. We propose a new approach for developing parallel I/O- and compute-intensive applications....
KEY WORDS AND PHRASES Parallel visualization, unstructured grids, large-scale geoscientific datasets...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
Today we can have huge datasets resulting from computer simulations (CFD, physics, chemistry, etc) a...
Applications such as animation and scientific visualization demand high performance ren-dering of co...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
In computer graphics, rendering is the process by which an abstract description of a scene is conver...
While additional cores and newer architectures, such as those provided by GPU clusters, steadily inc...
Scientific applications are increasingly being implemented on massively parallel supercomputers. Man...
This paper presents I/O solutions for the visualization of time-varying volume data in a parallel an...
The solution of Grand Challenge Problems will require computations that are too large to fit in the ...
Parallel visualization is one of the most powerful tools for gaining insight into large datasets. Ma...
[[abstract]]Applications on massively parallel processors (MPP) often require a high aggregate bandw...
We outline a plan to develop portable parallel I/O facilities for scientific applications on paralle...
Abstract. We propose a new approach for developing parallel I/O- and compute-intensive applications....
KEY WORDS AND PHRASES Parallel visualization, unstructured grids, large-scale geoscientific datasets...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Parallel input/output in high performance computing is a field of increasing importance. In particul...
Today we can have huge datasets resulting from computer simulations (CFD, physics, chemistry, etc) a...
Applications such as animation and scientific visualization demand high performance ren-dering of co...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
In computer graphics, rendering is the process by which an abstract description of a scene is conver...