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GENI Engineering Conference 8

July 20, 2010 UCSD, San Diego, CA

}}} [[PageOutline(2, Table of Contents)]] '''Live demonstrations, posters, and presentations at GEC8 highlight results from spiral 2 projects. See project descriptions, posters and presentations here. ''' '''Please enter your project demonstration information here. Attach posters and presentations here or on linked pages.''' ---- == BGP Multiplexer == ''Demo Participants:'' Vytautas Valancius, Nick Feamster, Jennifer Rexford, and Akihiro Nakao [[BR]] BGP-Mux is a system that enables wide-area route control for networks inside GENI. BGP-Mux allows scarce resources, such as IP prefixes and AS numbers, to be shared among experimental virtual networks. This demo will showcase the automated management of such resources. == Cognitive Radio == ''Demo Participants:'' Ivan Seskar, Peter Wolniansky, Dirk Grunwald [[BR]] Demo cognitive radio platform doing spectrum sensing == Data-Intensive Cloud Control for GENI: Processing Weather Radar Data on Amazon EC2 == ''Demo Participant:'' Emmanuel Cecchet [[BR]] This demo will show how Orca can be used to manage Amazon Web Services (AWS) resources including servers (EC2) and storage (S3). Data from a weather radar will be uploaded to S3 and processed by an EC2 server to produce images. A limited budget of AWS resources will be allocated and the processing will stop as soon as the budget limit has been reached. This will showcase the !DiCloud? proxy aggregate manager for Orca. == GENI Pathlets == ''Demo Participants:'' Mark Berman, Brighten Godfrey [[BR]] Source-controlled routing is a promising architectural approach to improve reliability, efficiency, and overall flexibility of the network. We will demonstrate a streaming media application weathering "storms" on the network via source-controlled adaptive routing, running on top of pathlet routing, a flexible interdomain routing and forwarding substrate. == GENI !NetServ == ''Demo Participants:'' Jan Janak, Mark Berman [[BR]] We present !NetServ, an extensible platform for deploying in-network services. !NetServ-enabled network nodes provide a common execution environment, where network services implemented as modules can be dynamically installed and removed. Our demonstration shows how !NetServ can help solve some of the issues faced by content and real-time service providers. We show how !NetServ-enabled nodes can help content providers disseminate content and how providers of real-time services, such as voice and video calls, can use !NetServ-enabled nodes to make their systems more scalable and reliable. GENI allows us to deploy !NetServ?-enabled nodes in the network. == GENI VIOLIN == ''Demo Participants:'' Pradeep Padala, Dongyan Xu [[BR]] We will show how VIOLIN (http://friends.cs.purdue.edu/projects/violin/index.shtml) can be used for suspending and resuming GENI experiments. This project is part of the GENI-alpha demos planned for GEC9. Our demo will show starting an Emulab experiment, suspending it, and resuming it from a checkpoint. The suspend/resume feature can be used for various purposes including fault tolerance, resource management, and debugging. GMOC Meta-Operations Center == GpENI == == iGENI Distributed Network Research Infrastructure == ''Demo Participant:'' Joe Mambretti [[BR]] The iGENI dynamic provisioning demonstration will showcase capabilities for large scale (national) multiple domain dynamic L1/L2 path provisioing involving multiple sites, using specialized signaling and implementation techniques. == Kansei Wireless Sensor Networks == ''Demo Participant:''Wenjie Zeng [[BR]] The KanseiGenie team will demonstrate its capability of data plane stitching, in addition to its demonstrated control plane stitching capability, on two federated sensor network testbeds, the Kansei testbed located the Ohio State University and the NetEye testbed located at the Wayne State University. Near real-time round-trip delay between the two sites will be measured, collected, and visualized. K-GENI Operational Linkage between GENI and ETRI/KISTI-Korea for International Federation == LAMP Leveraging and Abstracting Measurements with perfSONAR == ''Demo Participants:'' Ezra Kissel,Martin Swany, Guilherme Fernandes [[BR]] perfSONAR is an established framework that enables network performance information to be gathered and exchanged in a multi-domain, federated environment. Leveraging and Abstracting Measurements with perfSONAR (LAMP) is a project to create an instrumentation and measurement (I&M) system, based on perfSONAR, for use by experimenters on GENI. This demo will present the current status of the LAMP I&M system by demonstrating its use on ProtoGENI. Demonstrate monitoring of a running experiment. == LEARN Programmable Measurements over Texas-based Research Network == ''Demo Participant:'' Deniz Gurkan [[BR]] Milestone S2.d: Complete initial integration of the LEARN network into the ORCA control framework (GENI Cluster D), to enable GENI researchers to utilize the LEARN network for L2 (VLAN) transport between a limited number of sites, e.g., University of Houston and Rice University. (7/20/10, GEC8) netKarma GENI Provenance Registry OpenFlow at Clemson University: OF Management and Inter-Campus Access Control OpenFlow at Georgia Tech: RESONANCE Access Control OpenFlow at Indiana University OpenFlow at Stanford: Packet and Circuit Convergence OpenFlow at Stanford: Expedia OpenFlow at Stanford: Aster*x OpenFlow at University of Washington: Aster*x OpenFlow at University of Wisconsin: Mobile Application Migration in Enterprise Metworks OpenFlow at University of Wisconsin: Packet Level Redundancy Elimination (RE) on Network Elements OKGems GENI-Federated Cyber-Physical System with Multi-Modalities OnTimeMeasure Centralized and Distributed Measurement Orchestration Software ORCA/BEN: A Prototype GENI Control Plane (ORCA) and a Metro-Scale Optical Testbed (BEN) PrimoGENI Developing GENI Aggregates for Real-Time Large-Scale Network Simulation S3MONITOR Scalable, Extensible, and Safe Monitoring of GENI SPP Internet Scale Overlay Hosting UMLPEN Programmable Edge Node ViSE Sensor Virtualization and Slivering in an Outdoor Wide-Area Wireless Sensor/Actuator Network Testbed WiMAX