Changes between Version 38 and Version 39 of GEC22Agenda/EveningDemoSession
- Timestamp:
- 01/31/15 13:07:29 (9 years ago)
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GEC22Agenda/EveningDemoSession
v38 v39 146 146 147 147 ==== GENI Desktop ==== 148 *''This demonstration shows new services in the GENI Desktop e nvironment for experimentation. Visit us to learn how to use GENI Desktop for your experiments.''148 *''This demonstration shows new services in the GENI Desktop experimentation environment. Visit us to learn how to use GENI Desktop for your experiments.'' 149 149 150 150 GENI Desktop provides a unified interface and environment for experimenters to create, control, manage, interact with and measure the performance of GENI slices. A streamlined GENI Desktop Lite will be demonstrated at this GEC. We have integrated Jacks into the GENI Desktop. We will also demo the slice verification testing service and the revised archival service implemented in GENI Desktop. In addition, we will demo the module for supporting user-defined flows and performance measurement for OVS nodes implemented in the Adopt-A-GENI (AAG) project. … … 172 172 173 173 ==== Wide-Area Monitoring of Power Systems Using DHT and GENI-Based Cloud Computing ==== 174 *''This demo shows plug-and-play emulation for the power grid. Visit us to learn how NSCU and RENCI are collaboratingon networking and power systems research. ''174 *''This demo shows plug-and-play emulation for the power grid. Visit us to learn how NSCU and RENCI collaborate on networking and power systems research. '' 175 175 176 176 The demo will show how enhanced distributed hash tables can be deployed in a distributed cloud network like GENI to form a transformatively new wide-area communication medium for executing critical, real-time monitoring and estimation functions in large electric power systems using massive volumes of Synchrophasor data. We will demonstrate how various monitoring and state estimation algorithms for keeping continuous track of a power grid, can be installed in GENI using a deadline-driven DHT system we are developing, which decouples the data communication between the grid sensors (Phasor Measurement Units or PMUs), the data processors (Phasor Data Concentrators or PDCs), and the monitoring applications. We will develop a dynamic, virtual PMU-PDC architecture in ExoGENI that can be connected to a power system testbed running at the NSF FREEDM Systems Center located at NC State University. The connection will be completely plug-and-play. We will use this interconnection to emulate several realistic monitoring scenarios and evaluate how DHTs can improve the resiliency of monitoring against network delays and malicious data-flows. This is a collaboration between RENCI and NCSU. … … 198 198 199 199 ==== SDN Router Security in GENI ==== 200 *''This demo explores router misconfiguration and compromise effects in an SDN environment. Visit us to learn more about SDN security.'' 200 201 201 202 GENI is making wide use of software-defined networking. This technology makes use of protocols such as OpenFlow, which implements the software-defined networking. This demo explores what could happen if a router is misconfigured or the nodes with the controllers are compromised. How would such a compromise affect other routers? What would be the effects on the network as a whole? … … 205 206 206 207 ==== Labwiki ==== 208 *''This demonstration shows new Labwiki experimenter workspace features. Visit us to try Labwiki for your classes and experiments.'' 207 209 208 210 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. … … 212 214 213 215 ==== Network Function Instantiation ==== 216 ''This demo shows a new approach to network function instantiation. Visit us to learn how to use middleboxes for programmable network functions.'' 214 217 215 218 We demonstrate a network function instantiation capability that transforms the understanding of middleboxes as rigid feature providers. Instead of utilizing middleboxes in strategic locations in the network, we enable programmable network function instantiation in a proliferated fashion in the networks. … … 219 222 220 223 ==== GENI for Classes / GENI for the Masses ==== 224 ''This demo will show the GENI Classroom-as-a-Service and a new GENI MOOC. Visit us to learn how to use GENI experiments with your students.'' 221 225 222 226 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. … … 227 231 === Federation and International Collaboration === 228 232 229 ==== International Federation ( US, Japan, Europe ) ==== 230 231 This demo shows federation mechamism which enable virtual network between heterogenious virtualization platforms to be created / operated easily.. 232 233 Who should see this demo? 234 235 Attendees interested in international collaboration should see this demo. 236 237 In this demo slice spread across three different virtualization platforms (VNode, GENI, Fed4Fire) are created. We will show how federated slice is created using the Slice Exchange Point mechanism, which enables whole slice to be managed by the network manager of any single virtualization platform. 238 239 Participants: 240 241 * Univ. of Tokyo 242 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 243 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp 244 * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi 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. 235 236 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. 237 238 Participants: 239 240 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp, Univ. of Tokyo 241 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp, Univ. of Tokyo 242 * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi 245 243 246 244 ==== Enhancing Network Applications on VNode and GENI ==== 247 248 This demo shows enhanced video streaming and big data applications via federation slice between VNode and GENI. 249 250 Who should see this demo? 251 252 Attendees interested in application providers and network providers should see this demo. We'll show how to enhance applications by programmable network such as VNode and GENI. 253 254 In this demo, we show enhanced video streaming and big data applications via federation slice between VNode and GENI. In video streaming applications, we deploy multi-casting and transcoding functions dynamically into slice nodes according to the demands. Users can receive high quality video via limited bandwidth. In big data application, we try to transmit big data efficiently and safety via federation slice with US Ignite members. 255 256 Participants: 257 258 * Univ. of Tokyo 259 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 260 * Shu Yamamoto, shu@iii.u-tokyo.ac.jp 261 * Toshiaki Tarui, toshiaki.tarui.my@hitachi.com, Hitachi 262 * Yoshinori Kitatsoji, kitaji@kddilabs.jp, KDDI 263 * NTT 264 * Yuuki Minami, minami.yuuki@lab.ntt.co.jp 265 * Kazuhisa Yamada, yamada.kazuhisa@lab.ntt.co.jp 245 ''This demo shows enhanced video streaming and big data applications via a federation slice between VNode and GENI. Visit us to see how application and network providers can use this approach to enhance their applications.'' 246 247 In this demo, we show enhanced video streaming and big data applications via a federation slice between VNode and GENI. In video streaming applications, we deploy multi-casting and transcoding functions dynamically into slice nodes according to the application demands. Users can receive high quality video via limited bandwidth. In big data applications, we try to transmit big data efficiently and safely via a federation slice with US Ignite members. 248 249 Participants: 250 251 * 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 * Yoshinori Kitatsoji, kitaji@kddilabs.jp, KDDI 255 * Yuuki Minami, minami.yuuki@lab.ntt.co.jp, NTT 256 * Kazuhisa Yamada, yamada.kazuhisa@lab.ntt.co.jp, NTT 266 257 267 258 ==== Application-driven Programmable Networking by FLARE ==== 268 259 '''' 269 260 This demo shows multiple application-driven slices leveraging FLARE DPN for smartphone users as well as Internet of Things (IoT) tiny sensor devices. 270 261