Add to ORKGWe introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The algorithm's scalability has been demonstrated up to 400 processors, rendering one hundred million unstructured elements in under one second. The heart of the algorithm is a hybrid approach that parallelizes over both the elements of the input data and over the pixels of the output image. At each stage of the algorithm, there are strong limits on how much work each processor performs, ensuring good parallel efficiency. The algorithm is sample-based. We present two techniques for calculating the sample points: a 3D rasterization technique and a kernel-based technique, which trade off between speed and generality. Finally, the algorithm is very...
Direct Volume Rendering is a popular technique for visualization of 3D datasets that offers manyadv...
Journal ArticleExisting volume rendering methods, though capable of very effective visualizations, a...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
With the computing industry trending towards multi- and many-core processors, we study how a standar...
With the computing industry trending towards multi- and many-core processors, we study how a standa...
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...
Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in ar...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
The development of effective parallel rendering algorithms for unstructured volume data is challengi...
Abstract: This work presents a distributed image-order volume rendering approach for scalable high-r...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Several approaches have been proposed to visualize 3D volume data on multiprocessor systems in recen...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Direct Volume Rendering is a popular technique for visualization of 3D datasets that offers manyadv...
Journal ArticleExisting volume rendering methods, though capable of very effective visualizations, a...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...
With the computing industry trending towards multi- and many-core processors, we study how a standar...
With the computing industry trending towards multi- and many-core processors, we study how a standa...
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...
Volume rendering is a technique for visualizing 3D arrays of sampled data. It has applications in ar...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
The development of effective parallel rendering algorithms for unstructured volume data is challengi...
Abstract: This work presents a distributed image-order volume rendering approach for scalable high-r...
As the resolution of simulation models increases, scientific visualization algorithms which take adv...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Several approaches have been proposed to visualize 3D volume data on multiprocessor systems in recen...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
Direct Volume Rendering is a popular technique for visualization of 3D datasets that offers manyadv...
Journal ArticleExisting volume rendering methods, though capable of very effective visualizations, a...
In this paper we present a data parallel volume rendering algorithm with numerous advantages over pr...