Simulation of configurable resource allocation for cloud-based business processes - Archive ouverte HAL
Communication Dans Un Congrès Année : 2017

Simulation of configurable resource allocation for cloud-based business processes

Résumé

Cloud computing has enabled provisioning of scalable and virtualized resources to organizations in an ubiquitous and on-demand manner. Likewise, configurable process modeling has enabled organizations to reuse their existing knowledge by sharing a reference process model between different tenants that can be customized according to specific needs. Nevertheless, there are some limitations in this context, (i) it is not cost-effective to make use of real cloud infrastructure such as, Amazon EC2 for experimenting and analyzing the deployment of the best process variant, (ii) frequent changes in the configurations during experimentation using a real cloud setup involves various manual adjustments which is a time-consuming task, (iii) certain conditions prevailing in the internet-based cloud environments are beyond the control of the practitioners involved in such analysis. Thus, making use of simulation environments is one of the good alternative for testing and analyzing the best process variants with optimal resource allocation. Building upon our previous work, we propose in this paper, (i) a unified description model that allows the representation of process activities along with their possible cloud resource allocation alternatives, (ii) a methodology for simulating a configurable process along with its cloud resource consumption, and (iii) an extension of CloudSim framework in order to realize the simulation of the configurable resource allocation for the cloud-based business processes

Dates et versions

hal-01696560 , version 1 (30-01-2018)

Identifiants

Citer

Mehdi Ahmed-Nacer, Kunal Suri, Mohamed Sellami, Walid Gaaloul. Simulation of configurable resource allocation for cloud-based business processes. SCC 2017 : 14th International Conference on Services Computing, Jun 2017, Honolulu, United States. pp.305 - 313, ⟨10.1109/SCC.2017.46⟩. ⟨hal-01696560⟩
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