We present a framework to interactively volume-render three-dimensional data
cubes using distributed ray-casting and volume bricking over a cluster of
workstations powered by one or more graphics processing units (GPUs) and a
multi-core CPU. The main design target for this framework is to provide an
in-core visualization solution able to provide three-dimensional interactive
views of terabyte-sized data cubes. We tested the presented framework using a
computing cluster comprising 64 nodes with a total of 128 GPUs. The framework
proved to be scalable to render a 204 GB data cube with an average of 30 frames
per second. Our performance analyses also compare between using NVIDIA Tesla
1060 and 2050 GPU architectures and the effect of increasing the visualization
output resolution on the rendering performance. Although our initial focus, and
the examples presented in this work, is volume rendering of spectral data cubes
from radio astronomy, we contend that our approach has applicability to other
disciplines where close to real-time volume rendering of terabyte-order 3D data
sets is a requirement.Comment: 13 Pages, 7 figures, has been accepted for publication in
Publications of the Astronomical Society of Australi
