Traffic-Aware and Energy-Efficient vNF Placement for Service Chaining: Joint Sampling and Matching Approach

Traffic-Aware and Energy-Efficient vNF Placement for Service Chaining: Joint Sampling and Matching Approach

Although network function virtualization (NFV) is a promising approach for providing elastic network functions, it faces several challenges in terms of adaptation to diverse network appliances and reduction of the capital and operational expenses of the service providers. In particular, to deploy se...

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Bibliographic Details
Published in:IEEE transactions on services computing Vol. 13; no. 1; pp. 172 - 185
Main Authors: Pham, Chuan, Tran, Nguyen H., Ren, Shaolei, Saad, Walid, Hong, Choong Seon
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-01-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Chains
Cloud computing
Combinatorial analysis
Communications traffic
Datacenters
Energy conservation
Games
Matching
Middleboxes
Network function virtualization
Network latency
network traffic
Operating costs
Optimization
Placement
resource allocation
Resource management
Sampling
virtual network function
Virtual networks
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Summary:Although network function virtualization (NFV) is a promising approach for providing elastic network functions, it faces several challenges in terms of adaptation to diverse network appliances and reduction of the capital and operational expenses of the service providers. In particular, to deploy service chains, providers must consider different objectives, such as minimizing the network latency or the operational cost, which are coupled objectives that have traditionally been addressed separately. In this paper, the problem of virtual network function (vNF) placement for service chains is studied for the purpose of energy and traffic-aware cost minimization. This problem is formulated as an optimization problem named the joint operational and network traffic cost (OPNET) problem. First, a sampling-based Markov approximation (MA) approach is proposed to solve the combinatorial NP-hard problem, OPNET. Even though the MA approach can yield a near-optimal solution, it requires a long convergence time that can hinder its practical deployment. To overcome this issue, a novel approach that combines the MA with matching theory, named as SAMA, is proposed to find an efficient solution for the original problem OPNET. Simulation results show that the proposed framework can reduce the total incurred cost by up to 19 percent compared to the existing non-coordinated approach.
ISSN:1939-1374
2372-0204
DOI:10.1109/TSC.2017.2671867