| 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 | |
| | 298 | 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. |
| | 299 | |
| | 300 | 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 |
| | 301 | |
| | 302 | 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. |
| | 303 | |
| | 304 | Participants: |
| | 305 | * Mike Zink, zink@cs.umass.edu, University of Massachusetts |
| | 306 | |
| | 307 | ==== FIRE-GENI SDX 1.0 ==== |
| | 308 | |
| | 309 | 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. |
| | 310 | |
| | 311 | Participants: |
| | 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 | |
| | 320 | 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. |
| | 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 | |
| | 328 | 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. |
| | 329 | |
| | 330 | Participants: |
| | 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. |
| 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 |
