Changes between Version 21 and Version 22 of GEC16Agenda/EveningDemoSession
- Timestamp:
- 02/22/13 11:23:31 (11 years ago)
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GEC16Agenda/EveningDemoSession
v21 v22 45 45 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. 46 46 47 {{{ 48 #!comment 49 ===== Cisco GENI Rack ===== 50 51 Cisco demonstrating their own version of a GENI Rack. 52 }}} 53 54 ===== ExoGENI ===== 55 56 Demonstrate capabilities of individual ExoGENI racks and ExoGENI as a joint aggregate. 57 58 * Intra- and Inter-rack slices 59 * Modifying existing slices by adding and removing compute capacity 60 * SDN/OpenFlow support 61 47 62 ==== Federation and International Projects ==== 48 63 64 ===== Slice Around the World ===== 65 66 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. 67 68 ===== FLARE and !WiVi ===== 69 70 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). 71 72 ===== VNode ===== 73 74 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. 75 49 76 ==== Experiments and Education ==== 77 78 ===== Education using Seattle ===== 79 80 This demonstration shows the Seattle testbed, a world-wide platform for research and education. Seattle spans tens of thousands of end user machines and gives researchers access to resources not typically seen on other systems, like laptops, tablets, and mobile phones. 81 82 We will demonstrate the utility of Seattle in research and the classroom and our integration with the GENI clearinghouse. 50 83 51 84 ===== GENI Experimenter Portal ===== … … 60 93 61 94 In the past few months, several InstaGENI racks have been brought up. We will be demonstrating the capabilities of these racks. 95 96 ===== Magic Window ===== 97 98 The Magic Window is an augmented reality-based immersive video conferencing experience. It leverages GENI capabilities to provide dynamic content manipulation and data visualization. 99 100 ===== GENI @ SOX ===== 101 102 SoX is deploying GENI capabilities in the !SouthEast region. This poster and demo will give updates on this ongoing project. 62 103 63 104 ==== Wireless Projects ==== … … 83 124 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. 84 125 126 ===== !MobilityFirst Network API use in Mobile Applications ===== 127 128 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. 129 85 130 ==== Security and Data Exchange Projects ==== 86 131