Title :
Viewing geometric protein structures from inside a CAVE
Author :
Akkiraju, Nataraj ; Edelsbrunner, Herbert ; Fu, Ping ; Qian, Jiang
Author_Institution :
Illinois Univ., Urbana, IL, USA
fDate :
7/1/1996 12:00:00 AM
Abstract :
We have developed general modeling software for a Cave Automatic Virtual Environment (CAVE); one of its applications is modeling 3D protein structures, generating both outside-in and inside-out views of geometric models. An advantage of the CAVE over other virtual environments is that multiple viewers can observe the same scene at the same time and place. Our software is scalable-from high-end virtual environments such as the CAVE, to mid-range immersive desktop systems, down to low-end graphics workstations. In the current configuration, a parallel Silicon Graphics Power Challenge supercomputer architecture performs the computationally intensive construction of surface patches remotely, and sends the results through the I-WAY (Information Wide Area Year) using VBNS (Very-high-Bandwidth Network Systems) to the graphics machines that drive the CAVE and our graphics visualization software, Valvis (Virtual ALpha shapes VISualizer)
Keywords :
biology computing; computational geometry; data visualisation; information networks; molecular configurations; parallel processing; physics computing; proteins; virtual reality; 3D geometric protein structure visualization; CAVE; Cave Automatic Virtual Environment; I-WAY; Information Wide Area Year; Silicon Graphics Power Challenge; VBNS; Valvis; Virtual Alpha Shapes Visualizer; graphics visualization software; graphics workstations; immersive desktop systems; inside-out views; multiple viewers; outside-in views; remote parallel supercomputer architecture; scalable software; surface patch construction; very high bandwidth network systems; Application software; Graphics; Layout; Protein engineering; Silicon; Solid modeling; Supercomputers; Virtual environment; Visualization; Workstations;
Journal_Title :
Computer Graphics and Applications, IEEE
