future internet research and experiments eu vs usa 7 june, 2012 róbert szabó dept. of...
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Future Internet Research and Experiments
EU vs USA7 June, 2012
Róbert SzabóDept. of Telecommunications and Media InformaticsBudapest University of Technology and Economics
Agenda
My personal interpretation of the Open Platforms for Innovation sessionat FIA Aalborg
Robert Szabo (BME-TMIT) <[email protected]> 2
Robert Szabo (BME-TMIT) <[email protected]>
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FI – PPP (EU) Industry driven initiative set to build an open Future
Internet network and service platform Platform instances validation in large scale real-life trials Broad-based collection of Future Internet technical
requirements Identification of legal, regulatory and standardization
requirements Modeling novel business models and value networks New methods and tools to engage SMEs and foster
entrepreneurship Explorative funding instrument to do research create
communities
Source: Dr. Petra Turkama, Aalto University, CONCORD CSA
GENI – Infrastructure (USA)
GENI is a virtual laboratory for exploring future internets at scale
GENI opens up huge new opportunities Leading-edge research in next-
generation internets Rapid innovation in novel, large-scale
applicationsSource: Chip Elliott, GENI Project Director
“Exploring Networks of the FutureThe start of GENI campus expansion”
CAMPUS!!!
EU vs US
Universities and Campuses
Vs.
Robert Szabo (BME-TMIT) <[email protected]> 6
Participant Type (by EC funding)
20%
3%
8%
60%
7% 2%Research organisations
Public body
SME
Private commercial
HES
Other
Source: Dr. Petra Turkama, Aalto University, CONCORD CSA
How to Sponsor the Industry?
EU Direct involvement
USA By orders from the programs The research community decides what
to use what to order• E.g., Open Flow enabled switches and
routers
Robert Szabo (BME-TMIT) <[email protected]> 7
(incentives)
GENI’s growing footprint
Source: Chip Elliott, GENI Project Director
GENI WIFMAX
GENI architecture
Flexible network / cloud research infrastructure
Also suitable for physics, genomics, other domain science
Support “hybrid circuit” model plus much more (OpenFlow)
Distributed cloud (racks) for content caching, acceleration, etc.
MetroResearch
Backbones
InternetISPU N I V E R S I T YU N I V E R S I T Y
U N I V E R S I T YU N I V E R S I T Y
Regional Networks Campus
g
g
gLegend
GENI-enabled hardware
Layer 3Control Plane
Layer 2Data Plane
Source: Chip Elliott, GENI Project Director
GENI “at scale”
Suggest 100-200 US campuses as target for “at scale” Both academia and national labs GENI-enable the campuses Their students, faculty, staff can then
“live in the future” using both today’s Internet and many experiments
Build out backbones, regionals, and shared clouds to support the campuses
Source: Chip Elliott, GENI Project Director
“At scale” GENI prototype
Enabling “at scale” experiments How can we afford / build GENI at sufficient scale?
Clearly infeasible to build research testbed “as big as the Internet”
Therefore we are “GENI-enabling” testbeds, commercial equipment, campuses, regional and backbone networks
Students are early adopters / participants in at-scale experiments
Key strategy for building an at-scale suite of infrastructure
GENI-enabled campuses,students as early adopters
HP ProCurve 5400 Switch
NEC WiMAX Base Station
GENI-enabledequipment
Source: Chip Elliott, GENI Project Director
US IGNITE
• Science: Advances in networking and systems research will be enabled through experimentation and explorations at scale on unique network infrastructure.
• Innovation: Leveraging previous NSF-investments in the GENI network will allow use of an open testbed available across the globe for experiments in future networks; will enable deployment and evaluation of gigabit applications that were previously not possible.
• Societal Benefit: Applications in national priority areas (e.g., health and wellbeing, emergency preparedness, advanced manufacturing, energy, education and workforce development, transportation) may have profound, long-term social and economic impacts.
Robert Szabo (BME-TMIT) <[email protected]> 12
Source: Chip Elliott, GENI Project Director
Research Infrastructurefor Computer Scientists
Testbed forNext-Gen Applications
Future commercialofferings
CS ExperimentsCS Experiments
Experimental Usage and DemonstrationsExperimental Usage and Demonstrations
Pre-commercial ApplicationsPre-commercial Applications
Regional and backbone networks
Campus and LabApplied Research
Campus networks Municipal andcommercial networks
App creation teams
GENI members, policies, … US Ignite participants, policies, …
GEN
I tec
hnol
ogy
federation
Service creators
Commercial ApplicationsCommercial Applications
GENI US Ignite Initiative
CS Research
US Ignite is now taking shapeBridging CS Experiments to Next-Gen Applications in Cities
Existing ISP connects
Layer 2 Ignite Connect(1 GE or 10GE)
Layer 3 GENI control plane
Layer 2 connect to subscribers
Existing head-end
New GENI / Ignite rack pair
OpenFlow switch(es)FlowvisorRemote managementInstrumentationAggregate managerMeasurementProgrammable PCsStorageVideo switch (opt)
Home
Most equipment not shown
IGNITE Arch Proposal
FI PPP First Year Achivements
Negotiation and implementation of FI PPP Collaboration Agreement and Governance structures
Selection of Advisory Board Release the first set of requirements Release the first platform instances Cross-project collaborations in Working Groups and
workshops Identification of potential test beds for
experimentation Promotion of FI PPP in various forums and
communities Building links and finding synergies with related
initiatives Robert Szabo (BME-TMIT)
<[email protected]> 15
???
Conclusions
Support research at Universities and Research Labs
Support experiments at campusesGo large scale and openLet the industry find profitable
business in the above
Robert Szabo (BME-TMIT) <[email protected]> 16