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Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network

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Zeitschriftentitel: Journal of Electrical and Computer Engineering
Personen und Körperschaften: Eramo, V., Testa, S., Miucci, E.
In: Journal of Electrical and Computer Engineering, 2014, 2014, S. 1-14
Format: E-Article
Sprache: Englisch
veröffentlicht:
Hindawi Limited
Schlagwörter:
Electrical and Electronic Engineering
General Computer Science
Signal Processing
author_facet Eramo, V.
Testa, S.
Miucci, E.
Eramo, V.
Testa, S.
Miucci, E.
author Eramo, V.
Testa, S.
Miucci, E.
spellingShingle Eramo, V.
Testa, S.
Miucci, E.
Journal of Electrical and Computer Engineering
Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
Electrical and Electronic Engineering
General Computer Science
Signal Processing
author_sort eramo, v.
spelling Eramo, V. Testa, S. Miucci, E. 2090-0147 2090-0155 Hindawi Limited Electrical and Electronic Engineering General Computer Science Signal Processing http://dx.doi.org/10.1155/2014/910658 <jats:p>The power consumption of the network equipment has increased significantly and some strategies to contain the power used in the IP network are needed. Among the green networking strategies, the virtualization class and in particular the deployment of migrating virtual routers can lead to a high energy saving. It consists in migrating virtual routers in fewer physical nodes when the traffic decreases allowing for a power consumption saving. In this paper we formulate the problem of minimizing the power consumption as a Mixed Integer Linear Programming (MILP) problem. Due to the hard complexity of the introduced MILP problem, we propose a heuristic for the migration of virtual routers among physical devices in order to turn off as many nodes as possible and save power according to the compliance with network node and link capacity constraints. We show that 50% of nodes may be turned off in the case of a real provider network when traffic percentage reduction of 80% occurs. Finally we also perform a feasibility study by means of an experimental test-bed to evaluate migration time of a routing plane based on QUAGGA routing software.</jats:p> Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network Journal of Electrical and Computer Engineering
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title Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_unstemmed Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_full Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_fullStr Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_full_unstemmed Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_short Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_sort evaluation of power saving and feasibility study of migrations solutions in a virtual router network
topic Electrical and Electronic Engineering
General Computer Science
Signal Processing
url http://dx.doi.org/10.1155/2014/910658
publishDate 2014
physical 1-14
description <jats:p>The power consumption of the network equipment has increased significantly and some strategies to contain the power used in the IP network are needed. Among the green networking strategies, the virtualization class and in particular the deployment of migrating virtual routers can lead to a high energy saving. It consists in migrating virtual routers in fewer physical nodes when the traffic decreases allowing for a power consumption saving. In this paper we formulate the problem of minimizing the power consumption as a Mixed Integer Linear Programming (MILP) problem. Due to the hard complexity of the introduced MILP problem, we propose a heuristic for the migration of virtual routers among physical devices in order to turn off as many nodes as possible and save power according to the compliance with network node and link capacity constraints. We show that 50% of nodes may be turned off in the case of a real provider network when traffic percentage reduction of 80% occurs. Finally we also perform a feasibility study by means of an experimental test-bed to evaluate migration time of a routing plane based on QUAGGA routing software.</jats:p>
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author Eramo, V., Testa, S., Miucci, E.
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author_sort eramo, v.
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description <jats:p>The power consumption of the network equipment has increased significantly and some strategies to contain the power used in the IP network are needed. Among the green networking strategies, the virtualization class and in particular the deployment of migrating virtual routers can lead to a high energy saving. It consists in migrating virtual routers in fewer physical nodes when the traffic decreases allowing for a power consumption saving. In this paper we formulate the problem of minimizing the power consumption as a Mixed Integer Linear Programming (MILP) problem. Due to the hard complexity of the introduced MILP problem, we propose a heuristic for the migration of virtual routers among physical devices in order to turn off as many nodes as possible and save power according to the compliance with network node and link capacity constraints. We show that 50% of nodes may be turned off in the case of a real provider network when traffic percentage reduction of 80% occurs. Finally we also perform a feasibility study by means of an experimental test-bed to evaluate migration time of a routing plane based on QUAGGA routing software.</jats:p>
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spelling Eramo, V. Testa, S. Miucci, E. 2090-0147 2090-0155 Hindawi Limited Electrical and Electronic Engineering General Computer Science Signal Processing http://dx.doi.org/10.1155/2014/910658 <jats:p>The power consumption of the network equipment has increased significantly and some strategies to contain the power used in the IP network are needed. Among the green networking strategies, the virtualization class and in particular the deployment of migrating virtual routers can lead to a high energy saving. It consists in migrating virtual routers in fewer physical nodes when the traffic decreases allowing for a power consumption saving. In this paper we formulate the problem of minimizing the power consumption as a Mixed Integer Linear Programming (MILP) problem. Due to the hard complexity of the introduced MILP problem, we propose a heuristic for the migration of virtual routers among physical devices in order to turn off as many nodes as possible and save power according to the compliance with network node and link capacity constraints. We show that 50% of nodes may be turned off in the case of a real provider network when traffic percentage reduction of 80% occurs. Finally we also perform a feasibility study by means of an experimental test-bed to evaluate migration time of a routing plane based on QUAGGA routing software.</jats:p> Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network Journal of Electrical and Computer Engineering
spellingShingle Eramo, V., Testa, S., Miucci, E., Journal of Electrical and Computer Engineering, Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network, Electrical and Electronic Engineering, General Computer Science, Signal Processing
title Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_full Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_fullStr Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_full_unstemmed Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_short Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
title_sort evaluation of power saving and feasibility study of migrations solutions in a virtual router network
title_unstemmed Evaluation of Power Saving and Feasibility Study of Migrations Solutions in a Virtual Router Network
topic Electrical and Electronic Engineering, General Computer Science, Signal Processing
url http://dx.doi.org/10.1155/2014/910658