Changes between Version 35 and Version 36 of GEC16Agenda/EveningDemoSession
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- 03/13/13 13:35:57 (11 years ago)
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GEC16Agenda/EveningDemoSession
v35 v36 33 33 GMOC Service Desk will Demo various workflows such as Emergency Stop, GMOC Aggregate turn-up (Regional or Campus/Rack), GENI Racks Support, Disruptive Experiment Reservations and other interactions with the GENI Community. Campuses with expecting GENI Racks or Regionals that are expecting to connect into the GENI OpenFlow Core Network will have opportunity to get familiar with GMOC processes and expectations for their anticipated turn-up. You will also have an opportunity to see the tools that GMOC uses to provide Meta Operations support for the GENI Community and Experimenters. 34 34 35 Participants: - Marianne Chitwood: chitwood@ilight.net - Eldar Urumbaev: eurumbae@indiana.edu 35 Participants: 36 * Marianne Chitwood, chitwood@ilight.net 37 * Eldar Urumbaev: eurumbae@indiana.edu 36 38 37 39 ===== !ShadowNet ===== … … 39 41 We will demonstrate the GENI destop, which implemented a new login method, consolidated the parsing of manifest, and incorporated functions of displaying measurement data collected by GEMINI. 40 42 43 Participants: 44 * Zongming Fei, fei@netlab.uky.edu 45 41 46 ===== OML within GIMI ===== 42 47 43 48 This demonstration will presents the latest features of the OML framework developed within the GIMI (Large-scale GENI Instrumentation and Measurement Infrastructure) project. OML allows the instrumentation of any type of resources, and the collection of any type of measurements that they generate in a scalable manner. The latest OML release includes features such as the support for metadata, cross-reference of measurement streams, and the instrumentation of OML itself using OML. 49 50 Participants: 51 * Thierry Rakotoarivelo, thierry.rakotoarivelo@nicta.com.au 44 52 45 53 ===== ExoGENI ===== … … 51 59 * SDN/OpenFlow support 52 60 61 Participants: 62 * Ilia Baldine, ibaldin@renci.org 63 53 64 ===== Internet2 ===== 54 65 55 66 Internet2 will demo progress toward implementing GENI interfaces on its Advanced Layer2 Service production network. We will show our production Layer 2 VLAN service running on top of FlowVisor, and our progress toward an aggregate manager for the production Layer 2 VLAN service as well as an aggregate manager using stitching. 56 67 68 Participants: 69 * Matt Zekauskas, matt@internet2.edu 70 57 71 ===== Mid-Atlantic Crossroads (MAX) ===== 58 72 59 73 In this demonstration we will show the details of the GENI stitching architecture and current implementation. This will include demonstration of a prototype Stitching Computation Services (SCS). We will also show how SCS interacts client tools and utilizes advertisement RSpecs and request RSpecs to compute stitching solutions and workflow information. We will also describe the details of the prototype aggregate manager I2 is running to support GENI stitching on ION, which is based on code developed by MAX. 60 74 75 Participants: 76 * Tom Lehman , tlehman@east.isi.edu 77 61 78 ===== Cisco GENI Rack ===== 62 79 63 80 Live demonstration of RENCi's ExoGENI software stack running on Cisco's data-center class Unified Computing Systems B-Series platform and NetApp FAS storage system. 64 81 82 Participants: 83 * Joel Obstfeld, jobstfel@cisco.com 84 65 85 ==== Federation and International Projects ==== 66 86 … … 69 89 The "Slice Around the World" demonstration initiative was established to demonstrate the powerful potential of designing and implementing world-wide environments consisting of Global computational and storage clouds closely integrated with highly programmable networks. The initiative has been established by network research centers/research labs that are participating in multiple next generation networking activities, including those developing large scale distributed experimental network research environment, such as those be implemented by such initiatives as the NSF Global Environment for Network Innovations (GENI), the EU Future Internet Research Environment (FIRE), the Japanese New Generation Internet, the Korean Future Internet initiatives, the German Future Internet Lab (G-Lab), the Brazilian future Internet initiative and others. These environments are being developed by researchers for researchers. An important goal for many of the current projects would be to have persistent global environments directly developed and managed by the research community to support their experimental research. 70 90 91 Participants: 92 * Jim Chen, jim-chen@northwestern.edu 93 71 94 ===== FLARE and !WiVi ===== 72 95 73 96 We will present FLARE (deeply programmable network node) and !WiVi (deeply programmable !WiFi access points). This time we will show the architecture design of them as well as applications, such as online video real-time transcoding and beaconcast (that is broadcast data communication via beacons). 74 97 98 Participants: 99 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 100 75 101 ===== VNode ===== 76 102 77 103 We will be showing our progress of VNode system, especially focusing on performance isolation and resource isolation. We are planning to prepare three kinds of demos, one for resource isolation, second for packet cache with toy block networking, and at last for federation. 78 104 105 Participants: 106 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 107 79 108 ==== Experiments and Education ==== 80 109 … … 85 114 We will demonstrate the utility of Seattle in research and the classroom and our integration with the GENI clearinghouse. 86 115 116 Participants: 117 * Justin Cappos, justinc@cs.washington.edu 118 87 119 ===== GENI Experimenter Portal ===== 88 120 … … 96 128 We hope to give a demo on using keyword-based queries to retrieve matching streaming video events that a user can then choose which one to stream. 97 129 130 Participants: 131 * Mooi Chuah, chuah@cse.lehigh.edu 132 98 133 ===== ProtoGENI / InstaGENI ===== 99 134 100 135 In the past few months, several InstaGENI racks have been brought up. We will be demonstrating the capabilities of these racks. 101 136 137 Participants: 138 * Rob Ricci, ricci@cs.utah.edu 139 140 ===== InstaGENI / TransGeo ===== 141 142 In this demonstration we will show a number of InstaGENI racks, together with ProtoGENI nodes at the University of Utah, GENICloud nodes at TU-Kaiserslautern, VNodes at the University of Tokyo, and other federated resources from the University of Ghent (Belgium) and two Brazilian institutions running a collaborative, multi-site Geographic Information System calculation, with layer-2 networking between sites provided by iGENI and !PacketCaching and acceleration by the VNode project of NICT and the University of Tokyo. 143 144 Participants: 145 * Rick !McGeer, rick.mcgeer@hp.com 146 102 147 ===== Magic Window ===== 103 148 104 149 The Magic Window is an augmented reality-based immersive video conferencing experience. It leverages GENI capabilities to provide dynamic content manipulation and data visualization. 105 150 151 Participants: 152 * Russ Clark, russ.clark@gatech.edu 153 154 ===== SDN in Public Safety ===== 155 156 A demonstration of using SDN in Public Safety. 157 158 * Bruce Patterson, bpatterson@ci.ammon.id.us 159 106 160 ===== GENI @ SOX ===== 107 161 108 162 SoX is deploying GENI capabilities in the !SouthEast region. This poster and demo will give updates on this ongoing project. 109 163 164 Participants: 165 * Russ Clark, russ.clark@gatech.edu 166 110 167 ===== OFUWI: Network Coding ===== 111 168 112 169 We will demonstrate our progress in the project 'Network-coding in content-aware networks'. We will present a poster with our current status and results of experiments done on Emulab. 113 170 171 Participants: 172 * Parvi Kaustubhi, kaustubhi@wisc.edu 173 114 174 ==== Wireless Projects ==== 115 175 … … 118 178 This demonstration will show how OpenFlow, Open vSwitch, and the Floodlight controller can be used as a vertical handoff solution between different network interfaces. Traffic will be generated from a server application, and with the handoff solution, will be sent using various networking interfaces to a client. The client will receive the traffic from the server. The interfaces used on the server will be alternated to show the handoff process. 119 179 180 Participants: 181 * Ryan Izard, rizard@clemson.edu 182 120 183 ===== Network Coding on ProtoGENI for Vehicular Networks ===== 121 184 122 185 Network coding using ProtoGENI testbed will be demonstrated. By implementing network coding and multipath forwarding capabilities in the core network, this demo is designed for supporting efficient broadband data delivery in infrastructure-based vehicular networks at Clemson. 123 186 187 Participants: 188 * Ke Xu, kxu@clemson.edu 189 124 190 ===== Supporting !MobilityFirst in OpenFlow Based SDNs ===== 125 191 126 192 !MobilityFirst (clean slate FIA project) has some unique features such as a globally unique naming scheme (GUID), storage aware routing etc. In this demo, we use GENI resources to show that such experimental non IP features can be enabled using OpenFlow based SDNs, by writing appropriate control programs that handle them. 127 193 194 Participants: 195 * Aravind Krishnamoorthy, aravind.k90@rutgers.edu 196 128 197 ===== WiMAX Prototyping in Metro Detroit ===== 129 198 130 199 Our initial coverage measurement and the tools we have developed to facilitate the road tests will be presented. We will also show the OpenXC platform and its integration with GENI, which may well benefit Wireless Vehicular Networking by offering you more insights into your car's operation. 131 200 201 Participants: 202 * Yu Chen, yuchen.wayne@gmail.com 203 132 204 ===== Mobility Services Engine ===== 133 205 134 206 A Demonstration of the Mobility Services Engine (MSE). This will be a live demonstration of the MSE using a laptop client. We will highlight some of the measurement capabilities of the system. 135 207 208 Participants: 209 * Derek Meyer, dmeyer@cs.wisc.edu 210 136 211 ===== !MobilityFirst Network API use in Mobile Applications ===== 137 212 138 213 One of the key feature of the proposed !MobilityFirst protocol stack is the service flexibility, with particular emphasis on multicasting and anycasting. In the demo we will show how this network service features could be easily exploited to enhance the capabilities of mobile applications through the use of the network API. 139 214 215 Participants: 216 * Ivan Seskar, seskar@winlab.rutgers.edu 217 140 218 ===== WiMAX at NYU-Poly ===== 141 219 142 220 Demonstration of wireless lab exercises utilizing GENI WiMAX resources. 143 221 222 Participants: 223 * ffund01@students.poly.edu 224 144 225 ===== WiMAX DDoS Reverse Engineering ===== 145 226 146 227 Our WiMAX research involves analyzing the cross-layer affects of the system parameters used for the Bandwidth Contention Process. We are specifically looking at how these parameters affect a subscriber station's (SS) throughput, packet loss rates, and vulnerability to Distributed Denial of Service (DDoS) attacks. Software simulations use the NS-2 simulator and hardware simulations are being conducted on ORBIT. The parameters investigated are request retires, backoff start, backoff end and frame duration. 147 228 229 Participants: 230 * Katherine Cameron, kccamer@clemson.edu 231 148 232 ===== Freedom of Internet ===== 149 233 150 234 Freedom of Internet is a project that aims to bring full interent accesss including annonmity of user to areas of West Africa where montioring and blocking is common practice. The project uses a variety of resources including Seattle resources. 151 235 236 Participants: 237 * Katherine Cameron, kccamer@clemson.edu 238 152 239 ==== Security and Data Exchange Projects ==== 153 240 … … 156 243 Demonstration of management plane on an OpenFlow-enabled network by dynamic controller assignment/reconfiguration of an OVS. A configuration point has been created using the OFConfig standard. The setup will be on GENI infrastructure as presented in our submission paper to GREE 2013. 157 244 245 Participants: 246 * Deniz Gurkan, Univ. of Houston, dgurkan@uh.edu 247 158 248 ===== LEARN: SDN Application Innovation Framework ===== 159 249 160 We will demo a split data plane switch designed by Dell. The switch has a programmable NPU insert to deploy custom applications that will manipulate flows. All flows are compliant with OF protocol. Participants include: 161 162 Rajesh Narayanan, Dell - Deniz Gurkan, UH - Levent Dane, UH 250 We will demo a split data plane switch designed by Dell. The switch has a programmable NPU insert to deploy custom applications that will manipulate flows. All flows are compliant with OF protocol. 251 252 Participants: 253 * Rajesh Narayanan, Dell 254 * Deniz Gurkan, Univ. of Houston, dgurkan@uh.edu 255 * Levent Dane, Univ. of Housotn 163 256 164 257 ===== !OpenFlow at Clemson: Data Analysis Network and IPv6 ===== … … 166 259 NSF REU students at Clemson University are working with the university's network and security engineers to develop an OpenFlow-based tool to flexibly deploy and manage traffic sensors for diverse subnets. A new field of interest is in scenarios that involve IPv6 traffic. The project incorporates features of the Floodlight controller to manage the network. 167 260 261 Participants: 262 * Benjamin Ujcich, bujcich@g.clemson.edu 263 168 264 ===== Performance Analysis of DDoS Detection Methods on GENI ===== 169 265 170 266 We will have poster, slide/video presentation of DDoS attack experiment on Geni test-bed. More information : [wiki:FirstGenBrooks Performance Analysis of DDoS Detection Methods on Real Network] 267 268 Participants: 269 * Ilker Ozcelik, iozceli@g.clemson.edu