Automatic configuration generation for service high availability with load balancing

SUMMARYThe need for highly available services is ever increasing in various domains ranging from mission‐critical systems to transaction‐based ones such as banking. The Service Availability Forum has defined a set of services and related API specifications to address the growing need of commercial o...

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Veröffentlicht in:	Concurrency and computation 2013-02, Vol.25 (2), p.265-287
Hauptverfasser:	Kanso, A., Khendek, F., Toeroe, M., Hamou-Lhadj, A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Availability Availability Management Framework clustered systems configuration generation Failure high availability Load balancing Ranking Redundancy redundancy models Reproduction Run time (computers) Tasks
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container_title	Concurrency and computation
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creator	Kanso, A. Khendek, F. Toeroe, M. Hamou-Lhadj, A.
description	SUMMARYThe need for highly available services is ever increasing in various domains ranging from mission‐critical systems to transaction‐based ones such as banking. The Service Availability Forum has defined a set of services and related API specifications to address the growing need of commercial off‐the‐shelf high availability solutions. Among these services, the availability management framework (AMF) is the service responsible for managing the high availability of the application services by coordinating redundant application components deployed on the AMF cluster. To achieve this task, an AMF implementation requires a specific logical view of the organization of the application's services and components, known as an AMF configuration. Developing manually such a configuration is a complex error‐prone task that requires extensive domain knowledge. In this paper, we present an approach for the automatic generation of AMF configurations and alleviate the task of configuration designers. One important aspect of the AMF configuration is ranking the service units, when it is required by the redundancy model, for the assignment of the workload by AMF at runtime. Our approach includes a technique for generating these rankings in such a way that guarantees load balancing even after the occurrence of a failure. Copyright © 2012 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/cpe.2805
format	Article
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subjects	Availability Availability Management Framework clustered systems configuration generation Failure high availability Load balancing Ranking Redundancy redundancy models Reproduction Run time (computers) Tasks
title	Automatic configuration generation for service high availability with load balancing
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