Title :
Model Predictive Analysis for AutonomicWorkflow Management in Large-scale Scientific Computing Environments
Author :
Nordstrom, Steve ; Dubey, Abhishek ; Keskinpala, Turker ; Datta, Rahul ; Neema, Sandeep ; Bapty, Ted
Author_Institution :
Inst. for Software Integrated Syst., Vanderbilt Univ., Nashville, TN
Abstract :
In large scale scientific computing, proper planning and management of computational resources lead to higher system utilizations and increased scientific productivity. Scientists are increasingly leveraging the use of business process management techniques and workflow management tools to balance the needs of the scientific analyses with the availability of computational resources. However, the advancements in productivity from execution of workflows in a large scale computing environments are often thwarted by runtime resource failures. This paper presents our initial work toward autonomic model based fault analysis in workflow based environments
Keywords :
business data processing; fault tolerant computing; natural sciences computing; workflow management software; autonomic model based fault analysis; autonomic workflow management; business process management; large-scale scientific computing environment; model predictive analysis; Engines; Environmental management; Large scale integration; Large-scale systems; Predictive models; Processor scheduling; Productivity; Resource management; Scientific computing; Workflow management software;
Conference_Titel :
Engineering of Autonomic and Autonomous Systems, 2007. EASe '07. Fourth IEEE International Workshop on
Conference_Location :
Tucson, AZ
Print_ISBN :
0-7695-2809-0
DOI :
10.1109/EASE.2007.18
