TY - GEN
T1 - Slice-based network transit service
T2 - 2017 IEEE Conference on Computer Communications Workshops, INFOCOM WKSHPS 2017
AU - Yao, Yuanjun
AU - Cao, Qiang
AU - Chase, Jeff
AU - Ruth, Paul
AU - Baldin, Ilya
AU - Xin, Yufeng
AU - Mandal, Anirban
N1 - Publisher Copyright:
© 2017 IEEE.
PY - 2017/11/20
Y1 - 2017/11/20
N2 - The GENI network testbed was designed to enable experimentation with network protocols by offering the capability to construct virtual networks at the link layer (L2). GENI users build virtual networks in their GENI slices that span resources on multiple GENI aggregates, linked by L2 network circuits from network fabric providers (e.g., Internet2). This paper summarizes new features for cross-slice stitching in the ExoGENI deployment. They enable slice owners to create L2 links crossing slice boundaries within ExoGENI racks (OpenStack cloud sites), including links to slices owned by other tenants. Like other operations on virtual networks in ExoGENI, cross-slice stitching is dynamic and programmatically controlled. Users can adapt the network topologies of their slices and their interconnections with other slices over time. Cross-slice stitching expands the potential of GENI as a platform for inter-domain network experimentation, including tenant slices that provide high-speed network-based services to other slices. This paper reports on a simple demonstration experiment for ExoGENI cross-slice stitching: a network transit service that runs within a slice, manages a shared circuit topology on behalf of customer slices that link to it, and routes customer traffic over its shared network backbone topology. This experiment shows the potential of cross-slice stitching to address a key limitation of GENI: the cost and limited availability of high-speed network circuits for use within GENI virtual networks.
AB - The GENI network testbed was designed to enable experimentation with network protocols by offering the capability to construct virtual networks at the link layer (L2). GENI users build virtual networks in their GENI slices that span resources on multiple GENI aggregates, linked by L2 network circuits from network fabric providers (e.g., Internet2). This paper summarizes new features for cross-slice stitching in the ExoGENI deployment. They enable slice owners to create L2 links crossing slice boundaries within ExoGENI racks (OpenStack cloud sites), including links to slices owned by other tenants. Like other operations on virtual networks in ExoGENI, cross-slice stitching is dynamic and programmatically controlled. Users can adapt the network topologies of their slices and their interconnections with other slices over time. Cross-slice stitching expands the potential of GENI as a platform for inter-domain network experimentation, including tenant slices that provide high-speed network-based services to other slices. This paper reports on a simple demonstration experiment for ExoGENI cross-slice stitching: a network transit service that runs within a slice, manages a shared circuit topology on behalf of customer slices that link to it, and routes customer traffic over its shared network backbone topology. This experiment shows the potential of cross-slice stitching to address a key limitation of GENI: the cost and limited availability of high-speed network circuits for use within GENI virtual networks.
UR - https://www.scopus.com/pages/publications/85041353690
U2 - 10.1109/INFCOMW.2017.8116468
DO - 10.1109/INFCOMW.2017.8116468
M3 - 会议稿件
AN - SCOPUS:85041353690
T3 - 2017 IEEE Conference on Computer Communications Workshops, INFOCOM WKSHPS 2017
SP - 736
EP - 741
BT - 2017 IEEE Conference on Computer Communications Workshops, INFOCOM WKSHPS 2017
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 1 May 2017 through 4 May 2017
ER -