Abstract. 3-D data visualization is very useful for medical imaging and computational fluid dynamics. Volume rendering can be used to exhibit the shape and volumetric properties of 3-D objects. However, volume rendering requires a considerable amount of time to process the large volume of data. To deliver the necessary rendering rates, parallel hardware architectures such as distributed memory multicomput-ers offer viable solutions. The challenge is to design efficient parallel algorithms that utilize the hardware parallelism effectively. In this paper, we present two efficient parallel volume rendering algorithms, the 1D-partition and 2D-partition methods, based on the shear-warp factorization for distributed memory multicomputers. The 1D-...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...
We introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The al...
[[abstract]]3-D data visualization is very useful for medical imaging and computational fluid dynami...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
The shear-warp algorithm for volume rendering is among the fastest volume rendering algorithms. It i...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
Visualizing three-dimensional unstructured data from aerodynamics calculations is challenging becaus...
Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in ar...
Several approaches have been proposed to visualize 3D volume data on multiprocessor systems in recen...
volume visualization, parallel algorithms © Copyright Hewlett-Packard Company 1998 Biomedical volume...
The development of effective parallel rendering algorithms for unstructured volume data is challengi...
We describe the first distributed-data implementation of the perspective shear-warp volume rendering...
This paper presents a work-in-progress. The objective of our study is to derive an optimal design fo...
. Direct Volume Rendering (DVR) is a powerful technique for visualizing volumetric data sets. Howeve...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...
We introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The al...
[[abstract]]3-D data visualization is very useful for medical imaging and computational fluid dynami...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
The shear-warp algorithm for volume rendering is among the fastest volume rendering algorithms. It i...
Volume rendering is a technique to display 3D volumetric data sets as 2D images. Main computation in...
Visualizing three-dimensional unstructured data from aerodynamics calculations is challenging becaus...
Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in ar...
Several approaches have been proposed to visualize 3D volume data on multiprocessor systems in recen...
volume visualization, parallel algorithms © Copyright Hewlett-Packard Company 1998 Biomedical volume...
The development of effective parallel rendering algorithms for unstructured volume data is challengi...
We describe the first distributed-data implementation of the perspective shear-warp volume rendering...
This paper presents a work-in-progress. The objective of our study is to derive an optimal design fo...
. Direct Volume Rendering (DVR) is a powerful technique for visualizing volumetric data sets. Howeve...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
Abstract. Previous efforts aimed at improving direct volume rendering performance have focused large...
We introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The al...