Changes between Version 39 and Version 40 of GEC22Agenda/EveningDemoSession
- Timestamp:
- 01/31/15 13:34:31 (9 years ago)
Legend:
- Unmodified
- Added
- Removed
- Modified
-
GEC22Agenda/EveningDemoSession
v39 v40 206 206 207 207 ==== Labwiki ==== 208 *''This demonstration shows new Labwiki experimenter workspace features. Visit us to try Labwiki for your classes and experiments.''208 *''This demonstration shows new Labwiki experimenter workspace features. Visit us to try Labwiki with global resources for your classes and experiments.'' 209 209 210 210 This demonstration presents the latest features to the Labwiki Workspace. We will demonstrate the secure provisioning of resources and topologies through Labwiki. We will also present Labwiki's new visualisation engine with new types of available graphs that an experimenter can use. We finally demonstrate Labwiki's capability to orchestrate an experiment which simultaneously involves globally distributed resources. These features allow Labwiki to provide experimenter with a comprehensive workspace to plan, prepare, orchestrate and analyse their experiments. We will also present its new automated experiment trial validation plugin, e.g. a lecturer can now automatically get information about experiment trials requested by students. We will finally demonstrate Labwiki's new integration within an eBook widget. … … 222 222 223 223 ==== GENI for Classes / GENI for the Masses ==== 224 ''This demo will showthe GENI Classroom-as-a-Service and a new GENI MOOC. Visit us to learn how to use GENI experiments with your students.''224 ''This demo shows the GENI Classroom-as-a-Service and a new GENI MOOC. Visit us to learn how to use GENI experiments with your students.'' 225 225 226 226 This demo showcases two educational offerings built on GENI and available for general use. The GENI Classroom-as-a-Service is a set of experiments designed to complement traditional courses on computer networks, wireless and mobile computing, or wireless communications. To date, it has been used by hundreds of students in over a dozen classes. We will also demo GENI MOOC, an experiment-based Massive Open Online Course (MOOC) on the subject of computer networks, with lab experiments that run on GENI resources. This course is aimed at beginners who want to learn about how the Internet works, students who want an introduction to some research topics in networking, and instructors who may use these browser-based experiments as in-class demonstrations or homework assignments. … … 232 232 233 233 ==== International Federation (US, Japan, Europe) ==== 234 ''''This demo shows federation mechanisms that enable virtual networks between heterogeneous virtualization platforms to be created and operated easily. Visit us if you are interested in international collaboration. 234 ''''This demo shows federation mechanisms that enable virtual networks between heterogeneous virtualization platforms to be created and operated easily. Visit us if you are interested in international collaboration.'' 235 235 236 236 In this demo, a slice spread across three different virtualization platforms (VNode, GENI, Fed4Fire) is created. We will show how a federated slice is created using the Slice Exchange Point mechanism, which enables the whole slice to be managed by the network manager of any single virtualization platform. … … 249 249 Participants: 250 250 251 * Akihiro Nakao, 252 * Shu Yamamoto, 253 * Toshiaki Tarui, 251 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp , Univ. of Tokyo 252 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, Univ. of Tokyo 253 * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi 254 254 * Yoshinori Kitatsoji, kitaji@kddilabs.jp, KDDI 255 255 * Yuuki Minami, minami.yuuki@lab.ntt.co.jp, NTT … … 257 257 258 258 ==== Application-driven Programmable Networking by FLARE ==== 259 '''' 260 This demo shows multiple application-driven slices leveraging FLARE DPN for smartphone users as well as Internet of Things (IoT) tiny sensor devices. 261 262 Who should see this demo? 263 264 Smartphone users not satisfied in the current application performance should see this demo. 265 266 In this demo, the application driven networking for smartphone services will be shown in multiple application specific slices created in FLARE nodes. We can apply the different network policy such as QoS to each slice in accordance with applications. We can also demonstrate the slice tailored to IoT devices such as micro-computer based tiny sensor devices which generate different size of packets from that of the current Internet traffic. 267 268 Participants: 269 270 * Univ. of Tokyo 271 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 272 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp 259 '' 260 This demo shows multiple application-driven slices leveraging FLARE DPN for smartphone users, as well as Internet of Things (IoT) tiny sensor devices. Visit us if you are a smartphone user who's not satisfied with your application performance.'' 261 262 In this demo, the application driven networking for smartphone services will be shown in multiple application specific slices created in FLARE nodes. We can apply different network polixy, such as QoS, to each slice in accordance with application demands. We can also demonstrate the slice tailored to IoT devices, such as micro-computer based tiny sensor devices which generate packets that differ in size from current Internet traffic. 263 264 Participants: 265 266 267 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp, Univ. of Tokyo 268 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, Univ. of Tokyo 273 269 274 270 ==== SDXs: Software Define Network Exchanges at StarLight and Partner Sites ==== 275 276 This demo shows a working prototype of SDXs at the !StarLight International / National Communications Exchange Facility and partner sites, which enable the exchange research traffic among different types of Software Define Networks (SDNs) and legacy networks. 277 278 Who should see this demo? 279 280 Attendees interested in: 271 ''This demo shows a working prototype of SDXs at the !StarLight International / National Communications Exchange Facility and partner sites, which enable the exchange of research traffic among different types of Software Define Networks (SDNs) and legacy networks. Visit us if you are interested in any of these subjects: 272 281 273 1. Identifying the current challenges in managing SDN networks in production exchanges 282 274 2. Proposals for addressing these challenges and the prototype demonstrations 283 275 3. Creating virtual exchange prototypes for specialized communities: SDXs for Genomics Data 284 4. Creating virtual exchange prototypes for specialized communities: SDXs for Cloud testbeds 276 4. Creating virtual exchange prototypes for specialized communities: SDXs for Cloud testbeds'' 285 277 286 278 The challenges in connecting and exchanging different types of network traffic for research and education communities are not well known topics outside of the network exchange communities. The recent proliferation of SDN/OpenFlow technology brings this challenge to the attention of all the interested parties. 287 279 288 The !StarLight and partner sites present through these demonstrations current prototype work underway to address such challenges, the prototype SDXs include Network Service Interface (NSI), ofNSI (OpenFlow NSI), GENI AM integration, virtual SDXs for Open Genomic Data Commonand Virtual SDXs for Chameleon Cloud, one of the National Science Foundation’s NSFCloud testbeds.280 !StarLight and partner sites present through these demonstrations current prototype work underway to address such challenges. The prototype SDXs include the Network Service Interface (NSI), ofNSI (OpenFlow NSI), GENI AM integration, virtual SDXs for Open Genomic Data Common, and Virtual SDXs for Chameleon Cloud, one of the National Science Foundation’s NSFCloud testbeds. 289 281 290 282 Participants: … … 292 284 293 285 ==== Demand-driven Network Management with ProtoRINA ==== 294 295 This demo shows how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive InterNetwork Architecture (RINA). 296 297 Who should see this demo? Attendees interested in future network architectures, and demand-driven network management and its application to software-defined virtual networking. 298 299 We demonstrate how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive !InterNetwork Architecture (RINA). Under RINA, multicast can be enabled through a secure communication container that is dynamically formed to support video transport either through application proxies or via relay IPC processes. The former represents application-level management, while the latter represents communication layer management, both forms are part of RINA’s repeating management structure. RINA supports demand-driven network management, where mechanisms (including registration, authentication, enrollment, addressing, etc.) are policy-instantiated to allow the dynamic formation of private communication layers in support of various requirements. This demo highlights RINA's inherent support for envisioned software-defined virtual networking scenarios. 286 ''This demo shows how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive InterNetwork Architecture (RINA). Visit us if you are interested in future network architectures, and demand-driven network management and its application to software-defined virtual networking.'' 287 288 We demonstrate how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive !InterNetwork Architecture (RINA). Under RINA, multicast can be enabled through a secure communication container that is dynamically formed to support video transport either through application proxies or via relay IPC processes. The former represents application-level management, while the latter represents communication layer management. Both forms are part of RINA’s repeating management structure. RINA supports demand-driven network management, where mechanisms (including registration, authentication, enrollment, addressing, etc.) are policy-instantiated to allow the dynamic formation of private communication layers in support of various requirements. This demo highlights RINA's inherent support for envisioned software-defined virtual networking scenarios. 300 289 301 290 Participants: … … 306 295 307 296 ==== SDX at SoX ==== 297 298 ''This demo shows how Software Defined Networking can be applied to the regional network exchange to improve network traffic routing based on rich policy requirements. Visit us to learn how to use GENI to experiment with future network peering and service architectures.'' 308 299 309 300 The SDX allows direct expression of flexible network policies in an Internet Exchange Point. At the SDX, ISPs can apply actions on packets based on multiple header fields. This flexibility enables applications such as inbound traffic engineering, redirection of traffic to middle boxes, wide-area server load balancing, and blocking of unwanted traffic.