wiki:GEC13Agenda/EveningDemoSession

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  1. Evening Demo Session
    1. Location
    2. Schedule
    3. Session Leaders
    4. Agenda / Details
      1. GENICloud and InstaGENI Demo
      2. GEMINI: A GENI Instrumentation and Measurement Infrastructure
      3. LEARN-ORCA cluster and VLAN poster
      4. BISmark: network monitoring_ visualization and event-driven control
      5. GIMI: Large-scale GENI Instrumentation and Measurement Infrastructure
      6. ExoGENI demo
      7. InstaGENI rack demonstration
      8. DIGOBREG Demo and Poster
      9. IMF message server
      10. OnTimeMeasure Demo
      11. NetKarma Demo: GENI Provenance Registry and Portal
      12. Federating CRON with PlanetLab MAX with Tree-mode Network Stitching
      13. Mid-Atlantic Crossroads (MAX) Demo
      14. GENI ShadowNet
      15. GpENI demo
      16. SeRViTR and GpENI Demo
      17. K-GENI demo
      18. Syndicate demo
      19. MySlice over SFA GUI demo
      20. Experimentation over OFELIA testbed: Power-aware Routing
      21. Parallel service dependent load-balancing
      22. How real-time simulation enables interaction between real machines and …
      23. Resource allocation demonstration
      24. Aalborg FIA project
      25. Development of Education and Training Resources for GENI Experimenters
      26. Adaptive Source Routing on GENI
      27. WiMAX at NYU-Poly: Cooperative Packet Recovery over Heterogeneous Networks
      28. Wideband Cognitive Radio Demonstration
      29. WiMax and CIAN collaboration
      30. Streaming between vehicle and infrastructure using Network Coding
      31. Clemson Wimax Demo
      32. Demonstration of robust delivery services and multi-homing in …
      33. WiRover/WiMAX demo
      34. Lehigh Tourist Guide using SECON
      35. TUF Demo
      36. TIED GEC Demo
      37. Socially Aware Single System Image
      38. Davis Social Links
      39. OpenFlow at Clemson: Data Analysis Network
      40. OFUWI: Network Coding
      41. Demo of Hive Mind Project

Evening Demo Session

Location

Ackerman Union Grand Ballroom
University of California, Los Angeles

Schedule

Tuesday, 5:30 pm - 7:30 pm

Session Leaders

Heidi Dempsey, GENI Project Office

Agenda / Details

There are 40 Demos and posters for the evening demo session

GENICloud and InstaGENI Demo

GENICloud: Demonstration of a persistent Cloud infrastructure over multiple sites and continents, tied to the PlanetLab Control Framework. -InstaGENI: GENI Project Office approved racks for networking experimentation at sites.

GEMINI: A GENI Instrumentation and Measurement Infrastructure

This demo will showcase the current status and emerging directions in the GEMINI project. We will demonstrate the process for adding and using I&M data for experimenters and will show data being gathered from an existing experiment.

LEARN-ORCA cluster and VLAN poster

BISmark: network monitoring_ visualization and event-driven control

BISmark is a home router-based measurement, visualization and control system that is being widely deployed and provides a platform for extending GENI into the home. The project extends the previously demonstrated Resonance control system to provide a general framework for even-driven network control.

GIMI: Large-scale GENI Instrumentation and Measurement Infrastructure

In this GEC13 demo we will perform OML-capable Iperf throughput measurements from locations all over the US (potentially all over the world) to instances in different clouds (EC2, GENICloud, ORCA). We will demonstrate how such a measurement can be performed in an automated fashion by i) allocating required resources, ii) instantiating images that include pre-installed measurement tools, iii) permanently storing the data in a distributed repository, and iv) making results available via the GIMI portal. The result will show the network capacities from many locations into several cloud platforms. This information might be critical in deciding where an application that is highly dependent on networking performance should be hosted.

ExoGENI demo

ExoGENI team will demonstrate the capabilities of the early ExoGENI deployment under ORCA control, including virtual topology embedding with and without OpenFlow support, creating slices across multiple geographically distributes sites, using a combination of virtual and bare-metal instances and more.

InstaGENI rack demonstration

DIGOBREG Demo and Poster

Corporation for National Research Initiatives (CNRI) will be demonstrating the functionality of the Measurement Data Archive prototype, which is implemented using the Digital Object Architecture.

The Measurement Data Archive prototype system consists of two components: 1) User Workspace and 2) Object Archive. The User Workspace component is an entry point for users (e.g., experimenters, instrumentation researchers, etc.) to store and transfer measurement data, which could be in a variety of forms (e.g., formatted datasets, raw files, etc.). Data and metadata files managed in the user workspace can be archived for long-term storage in an Object Archive. Once data is archived, a persistent and unique identifier is created.

IMF message server

The IMF project goals of the current spiral include showing authentication (of user/entity using message service, and message sent by that user) and authorization (of the user to send the message), and also to show an experiment controller and resource controller modeled after the corresponding OMF entities using this service to communicate. The demo will show current IMF capabilities, with a focus on the above.

OnTimeMeasure Demo

We will demonstrate how I&M capabilities of OnTimeMeasure software/service available for GENI experimenters can be used in an integrated manner with Flack/ProtoGENI, INSTOOLS, Gush, OMNI and LAMP.

NetKarma Demo: GENI Provenance Registry and Portal

Demo Participants: Chris Small, Scott Jensen, Peng Chen, Yuan Luo Affiliation: Indiana University

Demonstrating the capture and visualization of provenance for GENI experiments using using the NetKarma provenance registry, Cytoscape provenance visualization plug-ins, and the NetKarma portal. NetKarma captures the provenance of GENI experiments from logs and RSpecs and integrates additional metadata from GMOC regarding an experiment's topology.

Federating CRON with PlanetLab MAX with Tree-mode Network Stitching

Mid-Atlantic Crossroads (MAX) Demo

GENI ShadowNet

We will demonstrate the integration of the ShadowNet virtualization control software with the measurement and instrumentation toolset.

GpENI demo

SeRViTR and GpENI Demo

Secure and Resilient Virtual Trust Routing Framework for Future Internet Demo Participants: Shingo Ata, Deep Medhi, Dijiang Huang, Akira Wada, Tianyi Xing, Xuan Liu, Parikshit Affiliation: Osaka City University, Arizona State University and University of Missouri – Kansas City Demonstration of Secure and Resilient Virtual Trust Routing (SeRViTR) infrastructure between three geographically distributed sites: SeRViTR is a secure and resilient routing network architecture in which services with differences in trustability, guarantees and priorities can co-exist in a virtualized environment. We will demonstrate the resilient virtual trust routing in a single domain constructed between three universities, and the effect of policy management on the virtual routing in the domain.

Great Plains Environment for Network Innovation (GpENI) - Dynamic Network Reconfiguration Demo Participants: Deep Medhi, Parikshit Juluri, Xuan Liu, Shuai Zhao. Affiliation: University of Missouri – Kansas City Demonstration of Dynamic Network Reconfiguration on GpENI (Great Plains Environment for Network Innovation) programmable testbed: 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 and G-Lab and ResumeNet in Europe. We will demonstrate Dynamic Network Reconfiguration on GpENI-VINI, which includes the changing of network topology, packet flow during the reconfiguration process.

K-GENI demo

K-GENI international Future Internet testbed between Korea and the US for GENI collaborations will be introduced with recent updates, and we will demonstrate a software platform developed for the federated network operations and management based on DvNOC and GMOC collaborative works.The federated network operations and management demo includes network abstraction for operations, open data sharing mechanism between international testbeds, and dynamic global identifier generation & allocation for virtual network slices across national boundaries.

Syndicate demo

Syndicate is a distributed read-write filesystem which harnesses a CDN to deliver file data to a scalable number of readers. It provides the semantics of a traditional distributed filesystem, but by leveraging a CDN it decouples read performance from file persistence. This allows users to keep their data in Syndicate on the media of their choice without impacting aggregate read bandwidth. We will present a walk-through of the functionality Syndicate offers to users, and show how many readers spread across PlanetLab can concurrently read a large file from an origin server's USB stick by streaming the data through a CoBlitz CDN instance in VICCI.

MySlice over SFA GUI demo

We will demonstrate a web-based resource management tool called MySlice, which makes it easy to list, filter and attach resources made available through PlanetLab’s SFA control framework, annotated with useful information from different monitoring sources (e.g., reliability and utilization over time, geographic and network location, and more).

Features of MySlice:

MySlice uses SFA’s delegation capabilities to permit an SFA client to run on a remote webserver.
Resources can be selected using measurement data gathered from a number of independent measurement and monitoring projects, including TopHat, CoMon, and SWORD

Elements of MySlice are already in use as part of the standard PlanetLab web interface, used by hundreds of users.

Experimentation over OFELIA testbed: Power-aware Routing

This demo presents a real experiment over the OFELIA i2CAT-island's infrastructure. Taking advantage of the SDN paradigm to control the routing depending on the power consumption of the network, this demo shows the possibilities of experimentation provided by OFELIA OpenFlow-enable testbed and its Control Framework.

Parallel service dependent load-balancing

Parallel service dependent load-balancing: We provide a technical demonstration for the idea of a typical data-center required load-balancing solution with OpenFlow. The demo shows parallel load-balancing on the OFELIA TUB-Island using tools like FlowVisor and NOX including the developed load-balancing plug-ins. We will show how to create an virtual topology and measure the real hardware performance of the described load-balancing scenario.

How real-time simulation enables interaction between real machines and the simulator

We will show how real-time simulation enables interaction between real machines and the simulator. SeattleGENI will be used as means to launch simultaneous commands from containers attached to our simulator. Also, we will show how our GUI tool called Slingshot is used to receive updates and change simulation states in real-time.

Resource allocation demonstration

Aalborg FIA project

Development of Education and Training Resources for GENI Experimenters

Adaptive Source Routing on GENI

Today's routing techniques on the Internet rely completely on decisions within the network. Lacking an end-to-end view, routing algorithms therefore often react slowly to dynamics in the network, and do not take into account the type of traffic being routed. For example, traffic with the demand of high bandwidth is not distinguished from services needing low latency such as real-time applications.

This project is investigating the alternate approach of source-controlled routing (SCR). Assuming a source node holds information about possible routes to destination nodes including information about the characteristics of the different paths obtained by continuous probing, a source can decide which path along the network a particular packet should traverse for optimal results. In addition to that, multipath routing can be used to dramatically decrease latency and routing-related delay with a reasonable overhead on traffic when sending packets simultaneously via different links, using only the packet which arrives first at the destination.

WiMAX at NYU-Poly: Cooperative Packet Recovery over Heterogeneous Networks

We will demonstrate a protocol we have implemented for cooperative packet recovery over heterogeneous networks (e.g. GENI WiMAX and WiFi). The cooperative recovery protocol takes advantage of the multiplicity of radios on modern networked devices to improve the performance of a multimedia multicast service that serves clients with varying wireless channel conditions. We will demonstrate our implementation over the open-access GENI testbed at NYU-Poly.

Wideband Cognitive Radio Demonstration

Demonstration of wide-band radio transceiver for the GENI CogRadio system. The demonstration will highlight the WDR (Wide Dynamic Range) radio operating on an FPGA platform. Signal analyzers will demonstrate the system operating at 100MHz, 400MHz, 900Mhz and 2400MHz on a combination of cabled connections (for licensed bands) and free space (for unlicensed bands). The demonstration will also include a poster detailed the software infrastructure employed.

WiMax and CIAN collaboration

This will be a demo of the current initiative to integrate the WiMax basestation with the "smart optical switching test bed" at Columbia University. This is a collaboration between groups at Columbia to demonstrate the smart cross-layer switching of WiMax data through an optical switch with dynamic routing.

Streaming between vehicle and infrastructure using Network Coding

Clemson Wimax Demo

Demo participants: Katherine Cameron, Ilker Ozcelik, Richard Brooks Affiliation: Clemson University In today’s world the Internet is an environment where people not only communicate but also share knowledge, do business, attend school, and even socialize. As a result of growing dependence on the Internet, one of the biggest concerns of Internet users is security. Unfortunately, the number of security incidents increases exponentially every year. A Distributed Denial-of-Service attack (DDoS attack) disables network services to legitimate users by flooding them. The recent attacks on trusted financial websites, Mastercard and PayPal, are an example of the need for security against DDoS attacks. One of the major problems with Distributed Denial of Service attacks is how difficult it is to detect the source of the attack, because of the many components involved. In this study, we will obtain the Internet traffic signature to use as background traffic in future experiments. By using the real background traffic we will investigate the effectiveness of theoretical DDoS Attack detection techniques on GENI.

Demonstration of robust delivery services and multi-homing in MobilityFirst FIA

WiRover/WiMAX demo

Demo Participants: Derek Meyer, Suman Banerjee Affiliation: Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems

Lehigh Tourist Guide using SECON

We will demo an application that makes use of content centric networking features we have developed in our Secure Content-Centric Mobile Network (SECON) project.

TUF Demo

TIED GEC Demo

Demonstrate prototype policy management tools that enable system managers, resource owners, and other stakeholders to define and understand GENI authorization policies.

Socially Aware Single System Image

Incentive based schemes for resource pooling among friends to create Single System Image (SSI) clusters.

OpenFlow at Clemson: Data Analysis Network

REU students at Clemson join force with campus network and security engineers to develop this OpenFlow-based tool to flexibly deploy and manage traffic sensors for diverse subnets with different security requirements.

OFUWI: Network Coding

Our demo in GEC 13 will focus on delivering Network Coding performance through wireless video application. At this time, our encoder is able to combine multiple TCP flows and the decoder later separates them. We will make use of Emulab to facilitate our demo. This GENI experiment integrates NetFPGA cards as key component in our high performance router. We will present a poster with our current results.

Demo of Hive Mind Project

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