Anirban Mandal scite author profile

Abstract-In this paper, we describe the design and implementation of two mechanisms for fault-tolerance and recovery for complex scientific workflows on computational grids. We present our algorithms for over-provisioning and migration, which are our primary strategies for fault-tolerance. We consider application performance models, resource reliability models, network latency and bandwidth and queue wait times for batch-queues on compute resources for determining the correct fault-tolerance strategy. Our goal is to balance reliability and performance in the presence of soft, real-time constraints like deadlines and expected success probabilities, and to do it in a way that is transparent to scientists. We have evaluated our strategies by developing a Fault-Tolerance and Recovery (FTR) service and deploying it as a part of the Linked Environments for Atmospheric Discovery (LEAD) production infrastructure. Results from real usage scenarios in LEAD show that the failure rate of individual steps in workflows decreases from about 30% to 5% by using our fault-tolerance strategies.

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Anirban Mandal

Task scheduling strategies for workflow-based applications in grids

Scheduling strategies for mapping application workflows onto the grid

New Grid Scheduling and Rescheduling Methods in the GrADS Project

New grid scheduling and rescheduling methods in the GrADS project

Fault Tolerance and Recovery of Scientific Workflows on Computational Grids

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