We present atomic-detail visualization of cellular processes responsible for photosynthesis in purple bacteria.
We describe parallel rendering approaches used to facilitate high-fidelity visualizations of 100M-atom photosynthetic membrane complexes.
We present an improved GPU-accelerated ray tracing engine optimized to enable high performance rendering of very large molecular scenes, yielding performance increases up to a factor of 1.46x vs. previously published results.
Unique ray tracing features for stereoscopic panoramic and omnidirectional projections required for planetariums and other so-called “full-dome” theater environments are described with example images.
VMD interactive ray tracing preview via progressive rendering allows visualizations and movies to be designed using full-quality lighting and shading, while remaining fully interactive, and supporting preview with head-mounted displays such as the Oculus Rift.