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[Keyword] OpenFlow(25hit)

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  • Virtual Network Management through Hybrid Software Defined Network (HSDN) Platform

    SeokHwan KONG  SuengYong PARK  

     
    LETTER

      Vol:
    E96-B No:1
      Page(s):
    65-68

    This letter proposes a new Hybrid Software Defined Network (HSDN) platform for the interoperation with legacy routing protocol to support hardware level network virtualization for multi-tenant environment. By considering current SDN issues in the production network, the proposed platform contributes to solve these issues at reasonable overhead. Our testbed shows that failure convergence time with the proposed platform is almost same as legacy routing protocol. On the other hand, it also shows that hardware level virtualization is supported with stable ICMP response times.

  • RISE: A Wide-Area Hybrid OpenFlow Network Testbed

    Yoshihiko KANAUMI  Shu-ichi SAITO  Eiji KAWAI  Shuji ISHII  Kazumasa KOBAYASHI  Shinji SHIMOJO  

     
    PAPER-Network

      Vol:
    E96-B No:1
      Page(s):
    108-118

    The deployment of hybrid wide-area OpenFlow networks is essential for the gradual integration of OpenFlow technology into existing wide-area networks. Integration is necessary because it is impractical to replace such wide-area networks with OpenFlow-enabled ones at once. On the other hand, the design, deployment, and operation of such hybrid OpenFlow networks are often conducted intuitively without in-depth technical considerations. In this paper, we systematically discuss the technical aspects of the hybrid architecture for OpenFlow networks based on our experience so far in developing wide-area hybrid OpenFlow networks on JGN2plus and JGN-X, which are nation-wide testbed networks in Japan. We also describe the design and operation of RISE (Research Infrastructure for large-Scale network Experiments) on JGN-X, whose objective is to support a variety of OpenFlow network experiments.

  • Dynamic Virtual Network Allocation for OpenFlow Based Cloud Resident Data Center

    Tri TRINH  Hiroshi ESAKI  Chaodit ASWAKUL  

     
    PAPER

      Vol:
    E96-B No:1
      Page(s):
    56-64

    Dynamic virtual network allocation is a promising traffic control model for cloud resident data center which offers virtual data centers for customers from the provider's substrate cloud. Unfortunately, dynamic virtual network allocation designed in the past was aimed to the Internet so it needs distributed control methods to scale with such a large network. The price for the scalability of the completely distributed control method at both virtual layer and substrate layer is the slow convergence of algorithm and the less stability of traffic. In this paper, we argue that the distributed controls in both virtual and substrate networks are not necessary for the cloud resident data center environment, because cloud resident data center uses centralized controller as the way to give network control features to customers. In fact, we can use the centralized algorithm in each virtual data center which is not very large network and the distributed algorithm is only needed in substrate network. Based on the specific properties of this model, we have used optimization theory to re-design the substrate algorithm for periodically re-adjusting virtual link capacity. Results from theoretical analysis, simulations, and experiments show that our algorithm has faster convergence time, simpler calculation and can make better use of the feedback information from virtual networks than the previous algorithm.

  • Network Virtualization Technology to Support Cloud Services Open Access

    Hideo KITAZUME  Takaaki KOYAMA  Toshiharu KISHI  Tomoko INOUE  

     
    INVITED PAPER

      Vol:
    E95-B No:8
      Page(s):
    2530-2537

    Recently, server virtualization technology, which is one of the key technologies to support cloud computing, has been making progress and gaining in maturity, resulting in an increase in the provision of cloud-based services and the integration of servers in enterprise networks. However, the progress in network virtualization technology, which is needed for the efficient and effective construction and operation of clouds, is lagging behind. It is only recently that all the required technical areas have started to be covered. This paper identifies network-related issues in cloud environments, describes the needs for network virtualization, and presents the recent trends in, and application fields of, network virtualization technology.

  • Architecture, Implementation, and Experiments of Programmable Network Using OpenFlow Open Access

    Hideyuki SHIMONISHI  Shuji ISHII  Lei SUN  Yoshihiko KANAUMI  

     
    INVITED PAPER

      Vol:
    E94-B No:10
      Page(s):
    2715-2722

    We propose a flexible and scalable architecture for a network controller platform used for OpenFlow. The OpenFlow technology was proposed as a means for researchers, network service creators, and others to easily design, test, and virtually deploy their innovative ideas in a large network infrastructure, which will accelerate research activities on Future Internet architectures. The technology enables the independent evolution of the network control plane and the data plane. Rather than having programmability within each network node, the separated OpenFlow controller provides network control through pluggable software. Our proposed network controller architecture will enable researchers to use their own software to control their own virtual networks. Flexibility and scalability were achieved by designing the network controller as a modularized and distributed system on a cluster of servers. Testing showed that a group of servers can efficiently cooperate to serve as a scalable OpenFlow controller. Testing using the nationwide JGN2plus network demonstrated that high-definition video can be delivered through OpenFlow-based point-to-point and point-to-multipoint paths.

21-25hit(25hit)