Changes between Version 2 and Version 3 of GECDemoSession/GEC12/DemoInfo

11/16/11 12:38:10 (13 years ago)
Josh Smift



  • GECDemoSession/GEC12/DemoInfo

    v2 v3  
    33= ARP security in ProtoGENI =
    5 Demo participants: Dawei Li, Xiaoyan Hong (University of Alabama)
     5''Demo participants: Dawei Li, Xiaoyan Hong (University of Alabama)''
    77The demo will show ARP attacks and its harm to ProtoGENI (on reserved nodes), and show potential defenses.
    99= CRON =
    11 Demo participants: Seung-Jong Park (Louisiana State University)
     11''Demo participants: Seung-Jong Park (Louisiana State University)''
    1313CRON will demonstrate how large scale computational biology applications can be launched with !MapReduce over multiple Eucalyptus cloud clusters connected through the Internet2 ION service. For demonstration, we will connect two Eucalyptus clusters created at testbeds of LSU CRON site and MAX site.
    1515= Davis Social Links =
    17 Demo participants: Felix Wu (UC Davis)
     17''Demo participants: Felix Wu (UC Davis)''
    1919A relevant feature of online social networks like Facebook is the scope for users to share external information from the web with their friends by sharing an URL. The phenomenon of sharing has bridged the web graph with the social network graph and the shared knowledge in ego networks has become a source for relevant information for an individual user, leading to the emergence of social search as a powerful tool for information retrieval. Consideration of the social context has become an essential factor in the process of ranking results in response to queries in social search engines. In this demo, we present !InfoSearch, a social search engine built over the Facebook platform, which lets users search for information based on what their friends have shared. We identify and implement three distinct ranking factors based on the number of mutual friends, social group membership, and time stamp of shared documents to rank results for user searches. We perform user studies based on the Facebook feeds of two authors to understand the impact of each ranking factor on the result for two queries.
    2121= Enterprise Centric Offloading System (ECOS) =
    23 Demo participants: Aaron Gember (University of Wisconsin - Madison)
     23''Demo participants: Aaron Gember (University of Wisconsin - Madison)''
    2525Our Enterprise Centric Offloading System (ECOS) is designed to address two key requirements of enterprise settings that existing mobile application offloading systems fail to address: data privacy and resource scheduling. ECOS addresses this issues by identifying the privacy level of offloaded application state, limiting offloading to trusted resources, and multiplexing offloading requests from many devices with diverse goals to a range of compute resources. This demo focuses on ECOS's ability to preserve privacy while ensuring offloading offers latency improvements or energy savings.
    2727= GENICloud =
    29 Demo participants: Jessica Ann Blaine and Rick !McGeer (HP Labs), Andy Bavier (Princeton University)
     29''Demo participants: Jessica Ann Blaine and Rick !McGeer (HP Labs), Andy Bavier (Princeton University)''
    3131Demonstration of a persistent Cloud infrastructure over multiple sites and continents, tied to the PlanetLab Control Framework.
    3333= GMOC =
    35 Demo participants: Camilo Viecco (Indiana University)
     35''Demo participants: Camilo Viecco (Indiana University)''
    3737GMOC operational frontend, Measumrenent and monitoring portals.
    3939= GpENI =
    41 Demo participants: Deep Medhi (University of Missouri - Kansas City)
     41''Demo participants: Deep Medhi (University of Missouri - Kansas City)''
    4343This demo will present the current status of GpENI project, in particular, we will demonstrate federation capability.
    4545= HiveMind =
    47 Demo participants: Steven Templeton Affiliation (University of California, Davis)
     47''Demo participants: Steven Templeton Affiliation (University of California, Davis)''
    4949We demonstrate a swarm intelligence inspired, decentralized, light-weight, autonomous security monitoring system run on the DETER testbed using the Benito virtualization framework. For this demo, using slices of up to 640 nodes, we execute controlled attacks for the HiveMind system to detect, for example when the slice is used to launch distributed denial-of-service attacks against an internet host.
    5151= iGENI =
    53 Demo participants: Jim Chen and Joe Mambretti (Northwestern University)
     53''Demo participants: Jim Chen and Joe Mambretti (Northwestern University)''
    5555Enhanced iGENI infrastructure, Advanced Programmable Network Exchange, in partnership with Cluster D projects, ORCA, GENICloud and iGENI international partners.
    5757= IMF =
    59 Demo participants: Rudra Dutta (North Carolina State University)
     59''Demo participants: Rudra Dutta (North Carolina State University)''
    6161The IMF demo will demonstrate the perfSONAR functionality integrated into IMF since GEC11 in Sprial 3, and/or the planned first part of Spiral 4 functionality, a skeleton proposed GENI I&M messaging service.
    6363= I&M MDOD experimenter use case demo =
    65 Demo participants: Deniz Gurkan (University of Houston; Rich Kagan (Infoblox Inc)
     65''Demo participants: Deniz Gurkan (University of Houston; Rich Kagan (Infoblox Inc)''
    6767The UH-Infoblox team will demonstrate the application of IF-MAP for I&M service access and control. An IF-MAP server will be setup to demonstrate the event flow of MDOD creation and measurement data exchange while a MAP server has been updated using the IF-MAP protocol.
    7373= Infinity =
    75 Demo participants: Yudong Gao (University of Michigan)
     75''Demo participants: Yudong Gao (University of Michigan)''
    7777Infinity: an energy-efficient data delivery infrastructure for mobile devices.
    7979= K-GENI =
    81 Demo participants: Myung Ki Shin (ETRI)
     81''Demo participants: Myung Ki Shin (ETRI)''
    8383Our demo will consist of two parts: Part 1 - ETRI will show virtualized programmable network platform and its own control framework. We use various applications to show control of multiple virtual nodes and networks and also present platform's newest features such as dynamic control of CPU and bandwidth resources, and Linux-based data plane virtualization technique. Also, we will introduce a new UI and open platform, named Panto, which enables for researchers to create end-to-end slices based on Slice-based architecture (SFA) over federated resources and networks (K-GENI). Part 2 - KISTI will show recent updates on the K-GENI testbed deployment, and will perform an international demonstration for the federated network operations over K-GENI testbed. The federated network operations demo will present three efforts: 1) operational data sharing between GMOC and dvNOC, 2) back-end development of dvNOC, featuring federation-only core schema implementation and push & pull functionality with openAPIs, 3) newly designed & developed UI for UoVN (User oriented Virtual Network) monitoring and management of dvNOC.
    8585= LEARN-ORCA cluster =
    87 Demo participants: Deniz Gurkan (University of Houston)
     87''Demo participants: Deniz Gurkan (University of Houston)''
    8989LEARN ORCA cluster capability demo: obtain a slice within the ORCA Cluster using resources stitched from ORCA sites at UH and RENCI, connected by NLR backbone, using GENI AM API, and run an application that exercises all resources.
    9191= Measurement Data Archive =
    93 Demo participants: Giridhar Manepalli (Corporation for National Research Initiatives)
     93''Demo participants: Giridhar Manepalli (Corporation for National Research Initiatives)''
    9595Corporation for National Research Initiatives (CNRI) will be demonstrating the functionality of the Measurement Data Archive prototype, which is implemented using the Digital Object Architecture.
    9898= !MySlice =
    100 Demo participants: Panayotis Antoniadis (UPMC Sorbonne Universit�s); Andy Bavier (Princeton University); Aki Nakao (University of Tokyo)
     100''Demo participants: Panayotis Antoniadis (UPMC Sorbonne Universit�s); Andy Bavier (Princeton University); Aki Nakao (University of Tokyo)''
    102102We 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).
    117117= !NetServ on OpenFlow =
    119 Demo participants: Emanuele Maccherani (Columbia University)
     119''Demo participants: Emanuele Maccherani (Columbia University)''
    121121A poster on the on-going work on integrating !NetServ and OpenFlow.
    123123= OFCLEM: Steroid OpenFlow Service =
    125 Demo participants: Aaron Rosen, KC Wang, and Dan Schmiedt (Clemson University)
     125''Demo participants: Aaron Rosen, KC Wang, and Dan Schmiedt (Clemson University)''
    127127In a software defined network (SDN), packet forwarding methods can be dynamically changed by software controllers on the fly to provide additional services and enhancements. These services can be seamlessly integrated into a network without the painful task of installing and configuring software on each machine that wants to use the services. The demo demonstrates Steroid OpenFlow Service (SOS), a service that builds on top of OpenFlow and network agents to seamlessly optimize TCP throughput with a multitude of parallel sockets over multiple paths between the source and destination sites.
    129129= OFIU: !FlowScale =
    131 Demo participants: Chris Small (Indiana University)
     131''Demo participants: Chris Small (Indiana University)''
    133133We are planning on demonstrating !FlowScale, a load balancing-as-a-service tool to allow distribution of network traffic over multiple switches and ports. !FlowScale tool uses multiple user chosen algorithms to hash traffic by IP prefix, VLAN or Ethertype and balances traffic based on these selected characteristics. Indiana University is deploying the !FlowScale software into production as part of a high performance IDS cluster. It is intended that applications such as !FlowScale deployed into production networks will foster deployment of technologies such as OpenFlow that can be used by GENI for research.
    135135= OFUWI: Network Coding =
    137 Demo participants: Nairan Zhang (University of Wisconsin - Madison)
     137''Demo participants: Nairan Zhang (University of Wisconsin - Madison)''
    139139Our demo in GEC 12 will focus on delivering our progress on Network Coding project. At this time, our encoder is able to combine multiple video streams and the decoder later separates them. Video streams, could be potentially provided by accessing two GENI WiMAX nodes located one in Madison WI and the other one in Polytechnic Institute of New York University, Brooklyn NY. This GENI experiment integrates NetFPGA cards as key component in our high performance router. We will present a poster with our current results.
    141141= OnTimeMeasure =
    143 Demo participants: Prasad Calyam (Ohio Supercomputer Center)
     143''Demo participants: Prasad Calyam (Ohio Supercomputer Center)''
    145145We will demonstrate various I&M capabilities of OnTimeMeasure software/service available for GENI experimenters. We will present two GENI experiment case studies: "Resource allocation in virtual desktop clouds" led by The Ohio State University, and "Emulating cloud dynamics for performance sensitive applications" led by Purdue University.
    147147= OpenFlow at UMass Lowell =
    149 Demo participants: Yan Luo (UMass Lowell)
     149''Demo participants: Yan Luo (UMass Lowell)''
    151151Demonstration of initial deployment of OpenFlow switch on UMass Lowell campus network.
    153153= ORCA =
    155 Demo participants: Ilia Baldin (RENCI)
     155''Demo participants: Ilia Baldin (RENCI)''
    157157ORCA project will demonstrate the new features of the ORCA framework - topology embedding, ProtoGENI interoperability, Attribute-based Authorization Control, OpenFlow integration.
    159159= ProtoGENI / Flack / INSTTOOLS =
    161 Demo participants: Rob Ricci (University of Utah)
     161''Demo participants: Rob Ricci (University of Utah)''
    163163We will do a demonstration of creating slices on ProtoGENI and PlanetLab resources using the Flack interface, and will demonstrate instrumentizing the slices with the Kentucky INSTTOOLS software. This demo will cover the same material (in condensed form) as our tutorial earlier in the day, so it will be a good opportunity for those who cannot attend the tutorial to see it.
    165165= S3I =
    167 Demo participants: Lokesh Mandvekar (SUNY Buffalo)
     167''Demo participants: Lokesh Mandvekar (SUNY Buffalo)''
    169169Social networking and user ranking features for SSI creation.
    171171= Secure Content Centric Mobile Network =
    173 Demo participants: Mooi Chuah (Lehigh University)
     173''Demo participants: Mooi Chuah (Lehigh University)''
    175175Secure Content Centric Mobile Network.
    177177= SecureUpdates =
    179 Demo participants: Justin Cappos
     179''Demo participants: Justin Cappos''
    181181This demo describes an easy way to secure software update systems using the TUF project. TUF has a number of critical features that are important to developers distributing software including: pushing out automatic updates, key revocation, and multi-party signing / trust. TUF is already being used by a new system (PrimoGENI) and you have demonstrated how it can be used by a large, mature system (PlanetLab) to securely distribute updates. The demo will show how easy it is to integrate TUF into your code.
    183183= Serval =
    185 Demo participants: Erik Nordstrom and Mike Freedman (Princeton University)
     185''Demo participants: Erik Nordstrom and Mike Freedman (Princeton University)''
    187187Modern Internet services operate under unprecedented multiplicity (in service replicas, host interfaces, and network paths) and dynamism (due to replica failure and recovery, service migration, and client mobility). Yet, today's end-host network stack still offers the decades-old host-centric communication abstraction that binds a service to a fixed IP address and port tuple.
    191191= SeRViTR =
    193 Demo participants: Tianyi Xing (Arizon State University)
     193''Demo participants: Tianyi Xing (Arizon State University)''
    195195SeRViTR is a cloud-based network resource provisioning infrastructure. Users can subscribe network resource based on their application requirements. A variety of applications can be deployed upon the flexible SeRViTR system, e.g., cross domain data sharing, virtual network provisioning, etc. The demo will focus on the data sharing and security services provided for network service users. We plan to incorporate SeRViTR into existing GENI's service domain as an aggregate to provide efficient and secure network provisioning to end users.
    197197= !ShadowNet =
    199 Demo participants: James Griffioen, Zongming Fei, and Hussamuddin Nasir (University of Kentucky, Laboratory for Advanced Networking)
     199''Demo participants: James Griffioen, Zongming Fei, and Hussamuddin Nasir (University of Kentucky, Laboratory for Advanced Networking)''
    201201We will demonstrate how to create a ProtoGENI experiment with Juniper logical routers.
    205205= TIED ABAC =
    207 Demo participants: Ted Faber (ISI)
     207''Demo participants: Ted Faber (ISI)''
    209209Integrated ABAC authorization across teo control frameworks
    211211= Trema OpenFlow Controller =
    213 Demo participants: Hideyuki Shimonishi (NEC)
     213''Demo participants: Hideyuki Shimonishi (NEC)''
    215215Trema is an open source OpenFlow development environment where developers can code OpenFlow controllers.
    217217= UEN GENI =
    219 Demo participants: Joe Breen (University of Utah)
     219''Demo participants: Joe Breen (University of Utah)''
    221221The UEN GENI project will utilize the existing and emerging infrastructure capabilities of both the statewide Utah Education Network (UEN) and its project home, the University of Utah, to deploy a more widely distributed GENI testbed capability within the state of Utah. One key objective of UEN GENI will be to integrate GENI node co-location requirements into the design of the new off-campus data center that the University of Utah is developing near downtown Salt Lake City and where UEN is planning to relocate its primary node. In addition, GENI network requirements will be incorporated into the design of the Research@UEN optical network now under development in northern Utah to link the state's three research universities with the national research networks, which maintain primary nodes in the same telecommunications facility in Salt Lake City. This initiative will deploy GENI racks and switches supporting both the protoGENI and PlanetLab frameworks in addition to OpenFlow virtual switching functionality initially within University of Utah and UEN data centers. In particular, the statewide reach of UEN will enable the consideration of an in-state high school for subsequent GENI rack co-location. This step will allow for a set of talented high school students and their teachers to gain a first-hand feel for the GENI testbed and its research capabilities.
    223223= VMI-FED =
    225 Demo participants: Brian Hay (University of Alaska)
     225''Demo participants: Brian Hay (University of Alaska)''
    227227We will demonstrate the use of the Alaska ORCA resources, which provide experimenters with access to low bandwith and/or high latency connections in Alaska.
    229229= WiMAX at BBN =
    231 Demo participants: Manu Gosain (GENI Project Office, Raytheon BBN Technologies)
     231''Demo participants: Manu Gosain (GENI Project Office, Raytheon BBN Technologies)''
    233233WiMAX at BBN.
    235235= WiMAX at CU Boulder =
    237 Demo participants: Caleb Phillips and Dirk Grunwald (University of Colorado Boulder)
     237''Demo participants: Caleb Phillips and Dirk Grunwald (University of Colorado Boulder)''
    239239We will present recent results in measurement and mapping of wireless coverage of the CU GENI WiMAX node. This work focuses on a new mapping technique that incorporates spatial modeling and geostatistical interpolation with careful placement and collection of samples (measurements). We will have a poster explaining our methods and a laptop-based demo showing coverage maps overlayed on google earth.
    241241= WiMAX at NYU Poly =
    243 Demo participants: Fraida Fund and Thanasis Korakis (Polytechnic Institute of NYU)
     243''Demo participants: Fraida Fund and Thanasis Korakis (Polytechnic Institute of NYU)''
    245245We present as a case study a measurement study of mobile wireless Internet application QoE in a dense urban environment, conducted over the GENI WiMAX mesoscale deployment at NYU-Poly. This study serves to highlight the capability and versatility of the WiMAX deployment. We explain how we use the WiMAX resources at NYU-Poly and the OMF testbed framework to efficiently gather mobile wireless measurements over a wide area.
    247247= WiMAX at UCLA =
    249 Demo participants: Mario Gerla and Chien-Chia Chen (UCLA)
     249''Demo participants: Mario Gerla and Chien-Chia Chen (UCLA)''
    251251The poster will describe the target multi homing environment and the use of network coding.
    253253= WiMAX at UW - Madison =
    255 Demo participants: Derek Meyer and Suman Banerjee (Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems)
     255''Demo participants: Derek Meyer and Suman Banerjee (Wisconsin Wireless and NetworkinG Systems (WiNGS) laboratory, Cisco Systems)''
    257257!WiRover Demo.
    259259= XIA =
    261 Demo participants: Suk-Bok Lee and Peter Steenkiste (Carnegie Mellon University)
     261''Demo participants: Suk-Bok Lee and Peter Steenkiste (Carnegie Mellon University)''
    263263EXpressive Internet Architecture (XIA) is an NSF funded project part of the Future Internet Architecure initiative. XIA addresses the growing diversity of network use models, the need for trustworthy communication, and the growing set of stakeholders who coordinate their activities to provide Internet services. XIA addresses these needs by exploring the technical challenges in creating a single network that offers inherent support for communication between current communicating principals--including hosts, content, and services--while accommodating unknown future entities. For each type of principal, XIA defines a narrow waist that dictates the application programming interface (API) for communication and the network communication mechanisms. XIA provides intrinsic security in which the integrity and authenticity of communication is guaranteed. XIA enables flexible context-dependent mechanisms for establishing trust between the communicating principals, bridging the gap between human and intrinsically secure identifiers. This project includes user experiments to evaluate and refine the interface between the network and users, and studies that analyze the relationship between technical design decisions, and economic incentives and public policy.