Changes between Version 9 and Version 10 of GEC20Agenda/EveningDemoSession


Ignore:
Timestamp:
06/21/14 22:25:58 (5 years ago)
Author:
peter.stickney@bbn.com
Comment:

--

Legend:

Unmodified
Added
Removed
Modified
  • GEC20Agenda/EveningDemoSession

    v9 v10  
    293293Participants:
    294294  *  Rick !McGeer, rick@mcgeer.com, US Ignite
    295 
    296 ==== VNode / FLARE ====
    297 
    298 We updated VNode system to next version and we will show our recent progress of VNode system, especially focusing on applications working over VNode system. We are preparing four kinds of demos: one for video multicasting and transcoding in virtual network, second for congestion avoidance method using virtual networks, third for FLARE switch, and at last for federation between different virtualization platforms.
     295 
     296==== GENI/FIRE Federation ====
     297
     298Demo description paragraph (three sentence minimum): The goal of this demo is to show how testbeds on both sides of the Atlantic can be federated. This demo will make use of a slice that stitches resources from GENI and FIRE testbed. !LabWiki will then be used to execute an experiment that makes use of the combined set of resources.
     299
     300List of equipment that will need AC connections (e.g. laptop, switch, monitor): Just put in the number of connections needed if your demo description already lists equipment. 2 laptops
     301
     302Total number of wired network connections (sum standard IP and VLAN connections): 2 standard IP Number of wired layer 2 VLANs (if any): Specify VLAN number, if known, approximate bandwidth, and whether tagged or untagged.
     303
     304Participants:
     305  * Mike Zink,  zink@cs.umass.edu, University of Massachusetts
     306
     307==== FIRE-GENI SDX 1.0 ====
     308
     309We have created a first prototype of an SDX for exchange of stitching VLANs between European FIRE testbeds and GENI testbeds. We also developed a toolset to measure on certain moments in time the bandwidth performance on stitched links to see what an experimenter can expect and to learn more about the stitching technology.
     310
     311Participants:
     312  * Brecht Vermeulen,  brecht.vermeulen@iminds.be, iMinds
     313  * Rob Ricci,  ricci@cs.utah.edu, Univ. of Utah
     314  * Tom Lehman
     315  * Xi Yang
     316
     317
     318==== GENI Cinema ====
     319
     320An OpenFlow-based video hosting and streaming solution. Clients produce and consume video content to a video server behind an OpenFlow network. OpenFlow allows for path selection on the video server's private network.
     321
     322  * Ryan Izard,  rizard@clemson.edu, Clemson Univ.
     323  * Parmesh Ramanathan, parmesh@ece.wisc.edu, Univ. of Wisconsin-Madison
     324  * Kuang-Ching Wang, kwang@clemson.edu, Clemson Univ.
     325
     326==== SDXs: Software Defined Networking Exchanges ====
     327
     328We will have a poster to show the current prototype for Software Define Networking Exchanges(SDXs) at !StarLight which will serve as exchange point for projects of members of the Consortium For International Advanced Networking Research using iGENI as a platform for Advanced Network Research and other Science Research.
     329
     330Participants:
     331  * Jim Chen, jim-chen@northwestern.edu, Northwestern Univ
     332  * Joe Mambretti, j-mambretti@northwestern.edu, Northwestern Univ
     333
     334==== VNode, FLARE, Congestion-Avoidance, Federation ====
     335
     336 We updated VNode system to next version and we will show our recent progress of VNode system, especially focusing on applications working over VNode system. We are preparing four kinds of demos: one for video multicasting and transcoding in virtual network, second for congestion avoidance method using virtual networks, third for FLARE switch, and at last for federation between different virtualization platforms.
    299337
    300338In GEC20, video transcoding will be executed on both VNode and ProtoGENI side and comparison result will be shown, new virtual-network application (congestion avoidance) will be demonstrated, high-end FLARE network virtualization node with many 10G ports and three-way federation based on the common-API/slice definitionV2.0 will be demonstrated.
     
    307345    * Shu Yamamoto, shu@iii.u-tokyo.ac.jp
    308346  * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi
    309  
    310 ==== GENI/FIRE Federation ====
    311 
    312 Demo description paragraph (three sentence minimum): The goal of this demo is to show how testbeds on both sides of the Atlantic can be federated. This demo will make use of a slice that stitches resources from GENI and FIRE testbed. !LabWiki will then be used to execute an experiment that makes use of the combined set of resources.
    313 
    314 List of equipment that will need AC connections (e.g. laptop, switch, monitor): Just put in the number of connections needed if your demo description already lists equipment. 2 laptops
    315 
    316 Total number of wired network connections (sum standard IP and VLAN connections): 2 standard IP Number of wired layer 2 VLANs (if any): Specify VLAN number, if known, approximate bandwidth, and whether tagged or untagged.
    317 
    318 Participants:
    319   * Mike Zink,  zink@cs.umass.edu, University of Massachusetts
    320 
    321 ==== FIRE-GENI SDX 1.0 ====
    322 
    323 We have created a first prototype of an SDX for exchange of stitching VLANs between European FIRE testbeds and GENI testbeds. We also developed a toolset to measure on certain moments in time the bandwidth performance on stitched links to see what an experimenter can expect and to learn more about the stitching technology.
    324 
    325 Participants:
    326   * Brecht Vermeulen,  brecht.vermeulen@iminds.be, iMinds
    327   * Rob Ricci,  ricci@cs.utah.edu, Univ. of Utah
    328   * Tom Lehman
    329   * Xi Yang
    330 
    331 
    332 ==== GENI Cinema ====
    333 
    334 An OpenFlow-based video hosting and streaming solution. Clients produce and consume video content to a video server behind an OpenFlow network. OpenFlow allows for path selection on the video server's private network.
    335 
    336   * Ryan Izard,  rizard@clemson.edu, Clemson Univ.
    337   * Parmesh Ramanathan, parmesh@ece.wisc.edu, Univ. of Wisconsin-Madison
    338   * Kuang-Ching Wang, kwang@clemson.edu, Clemson Univ.
    339 
    340 ==== SDXs: Software Defined Networking Exchanges ====
    341 
    342 We will have a poster to show the current prototype for Software Define Networking Exchanges(SDXs) at !StarLight which will serve as exchange point for projects of members of the Consortium For International Advanced Networking Research using iGENI as a platform for Advanced Network Research and other Science Research.
    343 
    344 Participants:
    345   * Jim Chen, jim-chen@northwestern.edu, Northwestern Univ
    346   * Joe Mambretti, j-mambretti@northwestern.edu, Northwestern Univ
    347 
    348 ==== VNode, FLARE, Congestion-Avoidance, Federation ====
    349 
    350  We updated VNode system to next version and we will show our recent progress of VNode system, especially focusing on applications working over VNode system. We are preparing four kinds of demos: one for video multicasting and transcoding in virtual network, second for congestion avoidance method using virtual networks, third for FLARE switch, and at last for federation between different virtualization platforms.
    351 
    352 In GEC20, video transcoding will be executed on both VNode and ProtoGENI side and comparison result will be shown, new virtual-network application (congestion avoidance) will be demonstrated, high-end FLARE network virtualization node with many 10G ports and three-way federation based on the common-API/slice definitionV2.0 will be demonstrated.
    353 
    354 Developers interested in international/heterogeneous virtual network should see this demonstration, because it will show real execution results of VNode-ProtoGENI federation.
    355 
    356 Participants:
    357   * Univ. of Tokyo
    358     * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp
    359     * Shu Yamamoto, shu@iii.u-tokyo.ac.jp
    360   * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi
    361347
    362348