Journal ArticleThis paper presents rendering algorithms, developed for massively parallel processors (MPPs), for polygonal, spheres, and volumetric data. The polygon algorithm uses a data parallel approach whereas the sphere and volume renderer use a MIMD approach. Implementations for these algorithms are presented for the Thinking Machines Corporation CM-5 MPP
We address the problem of distributing rendering computations for real-time display of very complex ...
Journal Articleisosurface extraction and vis utilization is crucial for explorative scientific visua...
Journal ArticleThis paper presents a data distributed parallel raytraced volume rendering algorithm ...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
Journal ArticleThis paper describes a data parallel method for polygon rendering on a massively para...
Journal ArticleUsing parallel computers for computer graphics rendering dates back to the late 1970...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Cataloged from PDF version of article.This paper presents algorithms for object-space parallel polyg...
Sphere rendering is an important method for visualizing molecular dynamics data. This paper presents...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Algorithms for direct volume rendering on parallel and vector processors are investigated. Volumes a...
In this parallel surface rendering algorithm based on dividing cube2 on a SIMD machine MasPar MP-1, ...
Journal ArticleExisting volume rendering methods, though capable of very effective visualizations, a...
Applications which run on parallel supercomputers are often characterized by massive datasets. Conve...
In this paper we describe a basis for a system that is able to compute actual scientific and realist...
We address the problem of distributing rendering computations for real-time display of very complex ...
Journal Articleisosurface extraction and vis utilization is crucial for explorative scientific visua...
Journal ArticleThis paper presents a data distributed parallel raytraced volume rendering algorithm ...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
Journal ArticleThis paper describes a data parallel method for polygon rendering on a massively para...
Journal ArticleUsing parallel computers for computer graphics rendering dates back to the late 1970...
Journal ArticleLarge parallel machines give today's scientists the ability to compute very large sim...
Cataloged from PDF version of article.This paper presents algorithms for object-space parallel polyg...
Sphere rendering is an important method for visualizing molecular dynamics data. This paper presents...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
Algorithms for direct volume rendering on parallel and vector processors are investigated. Volumes a...
In this parallel surface rendering algorithm based on dividing cube2 on a SIMD machine MasPar MP-1, ...
Journal ArticleExisting volume rendering methods, though capable of very effective visualizations, a...
Applications which run on parallel supercomputers are often characterized by massive datasets. Conve...
In this paper we describe a basis for a system that is able to compute actual scientific and realist...
We address the problem of distributing rendering computations for real-time display of very complex ...
Journal Articleisosurface extraction and vis utilization is crucial for explorative scientific visua...
Journal ArticleThis paper presents a data distributed parallel raytraced volume rendering algorithm ...