Ibrahim Safieddine scite author profile

Ibrahim Safieddine

3Publications

18Citation Statements Received

53Citation Statements Given

How they've been cited

How they cite others

Affiliations

Grenoble Alpes University, Joseph Fourier University

Publications

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Software consolidation as an efficient energy and cost saving solution

Tchana

Palma

Safieddine

et al. 2016

Future Generation Computer Systems

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Virtual machines (VM) are used in cloud computing environments to isolate different software. They also support live migration, and thus dynamic VM consolidation. This possibility can be used to reduce power consumption in the cloud. However, consolidation in cloud environments is limited due to reliance on VMs, mainly due to their memory overhead. For instance, over a 4-month period in a real cloud located in Grenoble (France), we observed that 805 VMs used less than 12% of the CPU (of the active physical machines). This paper presents a solution introducing dynamic software consolidation. Software consolidation makes it possible to dynamically collocate several software applications on the same VM to reduce the number of VMs used. This approach can be combined with VM consolidation which collocates multiple VMs on a reduced number of physical machines. Software consolidation can be used in a private cloud to reduce power consumption, or by a client of a public cloud to reduce the number of VMs used, thus reducing costs. The solution was tested with a cloud hosting JMS messaging and Internet servers. The evaluations were performed using both the SPECjms2007 benchmark and an enterprise LAMP benchmark on both a VMware private cloud and Amazon EC2 public cloud. The results show that our approach can reduce the energy consumed in our private cloud by about 40% and the charge for VMs on Amazon EC2 by about 40.5%.

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Software Consolidation as an Efficient Energy and Cost Saving Solution for a SaaS/PaaS Cloud Model

Tchana

Palma

Safieddine

et al. 2015

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Virtual machines (VM) are used in cloud computing environments to isolate different software. Virtualization enables live migration, and thus dynamic VM consolidation. This possibility can be used to reduce power consumption in the cloud. However, consolidation in cloud environments is limited due to reliance on VMs, mainly due to their memory overhead. For instance, over a 4-month period in a real cloud located in Grenoble (France), we observed that 805 VMs used less than 12 % of the CPU (of the active physical machines). This paper presents a solution introducing dynamic software consolidation. Software consolidation makes it possible to dynamically collocate several software applications on the same VM to reduce the number of VMs used. This approach can be combined with VM consolidation which collocates multiple VMs on a reduced number of physical machines. Software consolidation can be used in a private cloud to reduce power consumption, or by a client of a public cloud to reduce the number of VMs used, thus reducing costs. The evaluation was performed using both the SPECjms2007 benchmark and an enterprise LAMP benchmark on both a VMware private cloud and Amazon EC2 public cloud. The results show that our approach can reduce the energy consumed in our private cloud by about 40 % and the charge for VMs on Amazon EC2 by about 40.5 %.

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A Scalable Benchmark as a Service Platform

Tchana

Palma

El-Rheddane

et al. 2013

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Abstract. Load testing has always been a crucial and expensive activity for software companies. Classical solutions are a real burden to setup statically and their cost are prohibitive in terms of human and hardware resources. Cloud computing brings new opportunities to stress application scalability as load testing solutions can be provided on demand by the cloud. This paper describes a Benchmark-as-a-Service solution that scales automatically the load injection platform and eases its setup according to load profiles. Our approach is based on: (i) the virtualization of the Benchmarking platform to enable the injector's self-scalability, (ii) an online calibration mechanism to characterize injector capacity and impact on the benched application, (iii) a provisioning solution to scale the load injection platform sufficiently ahead of time. We also report experiments on a benchmark that shows the benefits in terms of cost and resources savings.

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