Communication Costs for Parallel Volume-Rendering Algorithms
IEEE Computer Graphics and Applications
Programming with POSIX threads
Programming with POSIX threads
A Network-Aware Distributed Storage Cache for Data Intensive Environments
HPDC '99 Proceedings of the 8th IEEE International Symposium on High Performance Distributed Computing
A generic solution for hardware-accelerated remote visualization
VISSYM '02 Proceedings of the symposium on Data Visualisation 2002
An accelerated remote graphics architecture for PDAS
Web3D '03 Proceedings of the eighth international conference on 3D Web technology
Computational Geometry: Theory and Applications - Special issue: The European workshop on computational geometry -- CG01
Real-time monitoring of large scientific simulations
Proceedings of the 2003 ACM symposium on Applied computing
Remote Visualization by Browsing Image Based Databases with Logistical Networking
Proceedings of the 2003 ACM/IEEE conference on Supercomputing
Dynamic Sharing of Large-Scale Visualization
IEEE Computer Graphics and Applications
Distributed Collaborative Visualization Using Light Field Rendering
CCGRID '09 Proceedings of the 2009 9th IEEE/ACM International Symposium on Cluster Computing and the Grid
On-demand transmission model for remote visualization using image-based rendering
Concurrency and Computation: Practice & Experience
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The author explores the seemingly well worn subject of distance based or remote visualization. Current practices in remote visualization tend to clump into two broad categories. One approach, called render-remote, is to render an image remotely, then transmit the image to the user. Another option, render-local, transfers raw data to the user, where it is then rendered on the local workstation. With advances in networking and graphics technology, we can explore a class of approaches from a new, third category. With this third category, which we call shared or “dot com” visualization, we stand to reap the best of both worlds: minimized data transfers and workstation-accelerated rendering. The article describes Visapult, a prototype system currently under development at Lawrence Berkeley National Laboratory (LBNL) that strikes such a balance, achieving a blended, scalable visualization tool. Dot com visualization means that remote and local resources collaborate and negotiate, combining capabilities to produce a final product