Add to ORKGIn a wide range of scientific fields, 3D datasets production capabilities have widely evolved in recent years, especially with the rapid increase in their size. As a result, many large-scale applications, including visualization or processing, have become challenging to address. A solution to this issue lies in providing out-of-core algorithms specifically designed to handle datasets significantly larger than memory. In this article, we present a new approach that extends the broad interactive addressing principles already established in the field of out-of-core volume rendering on GPUs to allow on-demand processing during the visualization stage. We propose a pipeline designed to manage data as regular 3D grids regardless of the underlying...
We present an out-of-core, point-based approach for interactive rendering of very large volumetric d...
Abstract—Rendering massive 3D models has been recognized as a challenging task. Due to the limited s...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
In the area of scientific visualization, input data sets are often very large. In visualization of C...
The needs for volume data visualization are common in several scientic elds, in par-ticular in bio-m...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
The needs for volume data visualization are common in several scientic elds, in par-ticular in bio-m...
With the advent of advances in imaging and computing technologies, large-scale data acquisition and ...
We introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The al...
Volume rendering methods are widely used for the high-quality visualization of various 3D datasets, ...
Recently, several external memory techniques have been developed for a wide variety of graphics and ...
Volume rendering methods are widely used for the high-quality visualization of various 3D datasets, ...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
We present an out-of-core, point-based approach for interactive rendering of very large volumetric d...
Abstract—Rendering massive 3D models has been recognized as a challenging task. Due to the limited s...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
In the area of scientific visualization, input data sets are often very large. In visualization of C...
The needs for volume data visualization are common in several scientic elds, in par-ticular in bio-m...
This survey gives an overview of the current state of the art in GPU techniques for interactive larg...
The needs for volume data visualization are common in several scientic elds, in par-ticular in bio-m...
With the advent of advances in imaging and computing technologies, large-scale data acquisition and ...
We introduce a parallel, distributed memory algorithm for volume rendering massive data sets. The al...
Volume rendering methods are widely used for the high-quality visualization of various 3D datasets, ...
Recently, several external memory techniques have been developed for a wide variety of graphics and ...
Volume rendering methods are widely used for the high-quality visualization of various 3D datasets, ...
We present a scalable volume rendering technique that exploits lossy compression and low-cost commod...
There is a need to visualize multi-billion voxel data sets. Hardware accelerated rendering currently...
We present an out-of-core, point-based approach for interactive rendering of very large volumetric d...
Abstract—Rendering massive 3D models has been recognized as a challenging task. Due to the limited s...
Volume rendering describes the processes of creating a 2D projection of a 3D discretely sampled data...