Changes between Version 14 and Version 15 of GEC15Agenda/EveningDemoSession
- Timestamp:
- 11/02/12 12:06:35 (12 years ago)
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GEC15Agenda/EveningDemoSession
v14 v15 29 29 GMOC and GPO will demo performance and operational status monitoring of meso-scale and GENI Racks infrastructure. This will include an enhanced user interface to the GMOC portal, focusing on an operational status map that visualizes the meso-scale network as well as the operational status of resources in GENI Racks. 30 30 31 Participants: 32 * Patrick Bohan, pbohan@grnoc.iu.edu 33 31 34 === InstaGENI === 32 35 33 Demonstration of the InstaGENI rack. We will demonstrate allocation of nodes on the InstaGENI rack; allocation of OpenFlow slices on the rack; instantiation of a PlanetLab node and allocation of an IG-PL slice; and federation with GENICloud 36 Demonstration of the InstaGENI rack. We will demonstrate allocation of nodes on the InstaGENI rack; allocation of OpenFlow slices on the rack; instantiation of a PlanetLab node and allocation of an IG-PL slice; and federation with GENICloud. 37 38 Participants: 39 * Rick McGeer, rick.mcgeer@hp.com 34 40 35 41 === GENICloud === … … 37 43 Demonstration of a persistent Cloud infrastructure over multiple sites and continents, tied to the PlanetLab Control Framework. We will demonstrate Federated access control using ABAC, and federated access control between PlanetLab and GENICloud. We will demonstrate interoperation of PlanetLab and GENICloud slices. 38 44 45 Participants: 46 * Rick McGeer, rick.mcgeer@hp.com 47 39 48 === Beyond observation: OML & OpenFlow === 40 49 41 50 Demonstration of an OMF experiment using wired and wireless nodes. Traffic is routed through OpenFlow hardware and OpenvSwitch software switches over two paths. OML-enabled tools are used to measure the traffic over the primary path, and the measurements are fed directly into a Trema OpenFlow controller, which makes flow decisions based on this information. Labwiki is used for live visualization in the web browser. We show that OML measurements can be used to steer the experiment from the inside, in a closed feedback loop. 42 51 52 Participants: 53 * Christoph Dwertmann, Christoph.Dwertmann@nicta.com.au 54 43 55 === XACML and !FloodLight OpenFlow controller === 44 56 45 57 Demonstration of XACML with an OpenFlow controller. XACML is used to control flow insertion in the !FloodLight controller for a network. Policies for pushing flows can be altered while the controller is online. We will demonstrate by sending data between two laptops on the network. 46 58 59 Participants: 60 * Ryan Izard, rizard@clemson.edu 61 47 62 === Mid-Atlantic Crossroads (MAX) === 48 63 … … 53 68 Additional details regarding this demonstration are available here: http://geni.maxgigapop.net/twiki/bin/view/GENI/Publications#GENI_Engineering_Conference_15_O 54 69 55 Demo participants: Tom Lehman (MAX) Xi Yang (MAX) Abdella Battou (MAX) Balu Pillai (MAX)70 Participants: Tom Lehman (MAX) Xi Yang (MAX) Abdella Battou (MAX) Balu Pillai (MAX) 56 71 57 72 Mid-Atlantic Crossroads GigaPOP, University of Maryland, College Park … … 61 76 We will demonstrate performance measurements of GENI backbone and access networks from the context of a Virtual Desktop Cloud GENI experiment featuring non-IP traffic and an OpenFlow controller application. 62 77 78 Participants: 79 * Prasad Calyam, pcalyam@osc.edu 80 63 81 === Internet2 === 64 82 65 83 Internet2 will demo progress toward implementing GENI interfaces on its Advanced Layer2 Service production network, and discuss updates to it's Advanced Layer2 Service and GENI. Demonstrating the first nationwide 100G SDN-enabled network. 66 84 85 Participants: 86 * Matt Zekauskas, matt@internet2.edu 87 67 88 === !ShadowNet === 68 89 90 We will demonstrate new functions implemented in the !ShadowNet GUI. We plan to demonstrate the traffic generation and route control features. 91 92 Participants: 93 * Zongming Fei, fei@netlab.uky.edu 94 69 95 == Federation and International Projects == 70 96 … … 73 99 Demonstration of GpENI (Great Plains Environment for Network Innovation) programmable testbed for future Internet research. GpENI is an international testbed centered on a Midwest US regional optical network that is programmable at all layers of the protocol stack, using PlanetLab, VINI, and DCN, and interconnected to ProtoGENI in the US as well as G-Lab, !NorNet, and !ResumeNet in Europe. We will demonstrate the topology, functionality, and operations of GpENI as well as the Openflow infrastructure being deployed in KanREN. We will also demonstrate FlowVisor and FOAM capabilities along with the Openflow network. 74 100 101 Participants: 102 * Egemen K. Çetinkaya, ekc@ittc.ku.edu 103 75 104 === Vnode & FLARE === 76 105 77 106 This demonstration shows virtual network slice operation of Vnode (network virtualization platform) specifically featuring under layer resource isolation. FLARE switch with deep programmability creates software defined OpenFlow slices. Vnode and ProtoGENI federation live demo will be also shown. 78 107 108 Participants: 109 * Akihiro Nakao, nakao@iii.u-tokyo.ac.jp 110 79 111 === Slice Around the World === 80 112 81 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. 113 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. 114 115 Participants: 116 * Jim Chen, jim-chen@northwestern.edu 82 117 83 118 == Experiments and Education == … … 87 122 Lehigh Explorer is an Android based application that utilizes content centric network features. It allows users to explore different campuses using keywords as well as images. 88 123 124 Participants: 125 * Mooi Chuah, chuah@cse.lehigh.edu 126 89 127 === Tmix on ProtoGENI === 90 128 91 129 A demonstration of experiments using the Tmix traffic generation system on ProtoGENI nodes. 92 130 131 Participants: 132 * Jay Aikat, aikat@cs.unc.edu 133 93 134 === !VeriFlow === 94 135 95 136 We will present a demo of !VeriFlow, a system to automatically check network-wide invariants in a software-defined network in real-time. More information on this tool can be found at http://www.cs.illinois.edu/~caesar/papers/veriflow-hotsdn12.pdf. 96 137 138 Participants: 139 * Ahmed Khurshid, khurshi1@illinois.edu 140 97 141 === Improved virtualization support in ProtoGENI and InstaGENI === 98 142 99 143 We will demonstrate recent enhancements to virtualization in ProtoGENI and InstaGENI: nodes sliced using Xen, the ability to capture and load images on virtual machines, the ability to move images between aggregates using URL-based image descriptors, and the ability to pre-stage images on shared hosts for fast sliver creation. 100 144 145 Participants: 146 * Rob Ricci, ricci@cs.utah.edu 147 101 148 === OKGems === 102 149 … … 105 152 We will also show Experimental Evaluations of Hadoop/MapReduce on ExoGENI Platform, mainly including Benchmark of Hadoop on ExoGENI and Automatic deployment of Hadoop and its applications. 106 153 154 Participants: 155 * Andy Li, andyli@ece.ufl.edu 156 107 157 === Southern Light Rail - GENI @ SoX === 108 158 109 159 This project is deploying GENI in the SoX Regional Network. This demonstration will give an update on the deployment and capabilities. 110 160 161 Participants: 162 * Russ Clark, russ.clark@gatech.edu 163 111 164 === Education Using Seattle Demo === 112 165 113 166 This demo shows how an instructor can easily (and without cost) provide students with hands-on experience on smartphones, laptops, desktops, and other computers all around the world. We will demonstrate how instructors can use Seattle testbed in the classroom. Our testbed has been used in about 30 classes at universities all around the world (including 2 and 4 year teaching schools). Come and see how this project can enhance your classes in security, operating systems, distributed systems, and networking! 114 167 115 === Software defined Precise Measurement in GENI === 168 Participants: 169 * Justin Cappos, justinc@cs.washington.edu 170 171 === Software Defined Precise Measurement in GENI === 116 172 117 173 We will demonstrate SoNIC, which enables real-time access to 10Gbps Ethernet physical layer in software. By implementing the creation of the bitstream in software and the transmission of the bitstream in hardware, SoNIC provides complete control over the entire network stack in realtime. SoNIC utilizes commodity-off-the-shelf multi-core processors to implement part of the physical layer in software, and employs a FPGA board to transmit optical signal over the wire. As an example of SoNIC's fine-granularity control, it can perform precise network measurements at the pico-second scale, accurately characterizing network components such as routers, switches, and network interface cards. 118 174 175 Participants: 176 * Han Wang, hwang@cs.cornell.edu 177 119 178 === Magic Window === 120 179 121 180 This project uses augmented reality techniques to create an immersive video conferencing experience that allows the viewer to change perspective as if they are looking through a window. The project leverages SDN/OpenFlow networking to create a unique demonstration experience. 122 181 182 Participants: 183 * Russ Clark, russ.clark@gatech.edu 184 123 185 == Wireless Projects == 124 186 … … 127 189 The key features of !MobilityFirst FIA are the GUID naming scheme and the storage aware routing. In this demo, we show that such features can be implemented on an OpenFlow switch by using appropriate control programs. Additionally, we also show that client mobility can be handled seamlessly in an OpenFlow set up. 128 190 191 Participants: 192 * Aravind Krishnamoorthy, aravind.k90@rutgers.edu 193 129 194 === OFUWI: Network Coding === 130 195 131 196 Our demo in GEC 15 will focus on delivering our progress on Network Coding project. Network Coding is addressing multiple wireless issues. We will present a poster with our current results. 132 197 198 Participants: 199 * Nairan Zhang, nairan.wisc@gmail.com 200 133 201 === SENSORKITS === 134 202 135 203 The GENI Sensor Kits using Wireless Sensor Networks project will demonstrate experiments designed for teaching science topics to secondary school students using GENI infrastructure. 136 204 205 Participants: 206 * Michael McGrath, mcgrath.57@buckeyemail.osu.edu 207 137 208 === WiMAX at NYU-Poly === 138 209 139 210 We will demonstrate a protocol we have implemented for cooperative packet recovery over heterogeneous networks (e.g. GENI WiMAX and !WiFi). This experiment (and several others) will be also featured in the GENI WiMAX tutorial at GEC15. 140 211 212 Participants: 213 * ffund01@students.poly.edu 214 141 215 === !WiRover === 142 216 143 217 Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems, !WiRover demo uilizing multiple interfaces. 144 218 219 Participants: 220 * Derek Meyer, dmeyer@cs.wisc.edu 221 145 222 == Security and Data Exchange Projects == 146 223 … … 148 225 149 226 An interoperable data exchange for an emergency management system will be demonstrated. The IF-MAP technology will be utilized to host emergency management information database, dynamic event management, and a built-in ALTO (Application Layer Traffic Optimization) function. A visual emergency management application will host an IF-MAP client for event publication. IF-MAP server will update the subscriber client at an OpenFlow controller (!FloodLight) to set priority and other traffic steering parameters based on the nature of the event. Flow definitions will be pushed to expedite the access to rich media and other possibly security-sensitive information at the event site on a presumed SDN. This is a collaboration with Infoblox (IF-MAP technology) and Dell (Split Data Plane technology). 227 228 Participants: 229 * Deniz Gurkan, dgurkan@uh.edu 150 230 151 231 === Performance Analysis of DDoS Detection Methods on GENI === … … 153 233 DDoS attack experiment on Geni test-bed. More information : [wiki:FirstGenBrooks Performance Analysis of DDoS Detection Methods on Real Network] 154 234 235 Participants: 236 * Ilker Ozcelik, iozceli@g.clemson.edu 237 155 238 === Hive Mind === 156 239 157 240 We will be demonstrating simulations of our of Hive Mind system with regard to a variety of security scenarios. We will also be demonstrating a basic command & control interface for operating and monitoring the Hive Mind software. 158 241 242 Participants: 243 * Sean Peisert, peisert@cs.ucdavis.edu 244 159 245 === OpenFlow at Clemson: Data Analysis Network === 160 246 161 247 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 with different security requirements. The project incorporates features of the !FloodLight controller to manage the network. A new field of interest is in use case scenarios that involve IPv6 traffic. 248 249 Participants: 250 * Benjamin Ujcich, bujcich@g.clemson.edu 251 * Kuang-Ching Wang, kwang@clemson.edu 252 * Scott Groel, sgroel@clemson.edu