Title :
Nomadic migration: a new tool for dynamic grid computing
Author :
Lanfermann, Gerd ; Allen, Gabrielle ; Radke, Thomas ; Seidel, Edward
Author_Institution :
Albert-Einstein-Inst., Max-Planck-Inst. fur Gravitationsphys., Germany
Abstract :
We describe the design and implementation of a technology which provides an application with the ability to seek out and exploit remote computing resources by migrating tasks from site to site, dynamically adapting the application to a changing Grid environment. The motivation for this migration framework, dubbed "The Worm", originated from the experience of having an abundance of computing time for simulations, which is distributed over multiple sites and split in time chunks by queuing systems. We describe the architecture of the Worm, describing how new or more suitable resources are located, and how the payload simulation is migrated to these resources following a trigger event. The migration technology presented here is designed to be used for any application, including large-scale HPC simulations
Keywords :
distributed programming; queueing theory; resource allocation; virtual machines; Grid environment; Worm; computing time; dynamic grid computing; large-scale HPC simulations; migration framework; migration technology; multiple sites; nomadic migration; payload simulation; queuing systems; remote computing resources; task migration; trigger event; Application software; Computational modeling; Computer architecture; Computer networks; Computer worms; Discrete event simulation; Grid computing; Large-scale systems; Payloads; Prototypes;
Conference_Titel :
High Performance Distributed Computing, 2001. Proceedings. 10th IEEE International Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7695-1296-8
DOI :
10.1109/HPDC.2001.945211
