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Page 1: FIBRE project updates

Brasília, 05 a 06/05/2013

The FIBRE Project

http://www.fibre.org.br

Antônio Abelém - UFPA

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INDEX

• Introduction

• FIBRE at a glance• Objectives• FIBRE Members• Project structure

• Major results• Overall Progress • Development of infrastructure/substrate • The FIBRE Workflow

• Final Considerations

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Introduction

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Context

• The architecture of TCP / IP (Internet) is a huge success since its adoption 30 years ago:– Adopted in 1985 by the NSF as architecture for the

NSFNET network– Extended to the commercial world from 1999 (created

the "bubble" of 2000)– Continues to expand to control almost all digital

communications in the world– Due to the high flexibility of the architecture– Facilitates the incorporation of new means of transport

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Context

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• The flexibility is due to complete separation between applications and transmission details used:

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Context

• However it introduces difficulties to the modification of network abstraction used:– prevents differential treatment for applications that

require special QoS– A single terminal equipment has multiple IP

addresses, if it has a redundant connectivity– Handsets (not always connected) cause “difficulties”

between transparency and mobility– Security "came after", and became essential for

almost all activities today

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• The ability of Internet architecture to absorb patches is running out

Context

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Future Internet • Overcoming this limitation requires changing this architecture

through the design called Future Internet (FI)• Research FI consists of:

– Discuss how the new architecture will be developed for the Internet;

– Evaluate alternative proposals for this new architecture;– Develop procedures to adopt the new architecture.

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Future Internet

• FI triggered a race for development testbeds to experimentally evaluate alternative solutions for the Future Internet;

• Europe, the United States, Japan and Brazil (among others) have been developing proposals:

– GENI (U.S.) www.geni.net

– FIRE (E U) www.ict-fire.eu/home

– Akari (Japan) http://akari-project.nict.go.jp/eng

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Future Internet

• Providing environments for large scale experimentation requires:

– Coexistence with the network traffic of production;

– Environment should be flexible and programmable (software defined network) so that researchers can quickly define and validate their proposals

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FIBRE at a Glance

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FIBRE objectives

Create a common space between the EU and Brazil for

Future Internet (FI) experimental researchinto

network infrastructure and distributed applications,by

building and operating a federated EU-Brazil Future internet experimental facility.

The project will design, implement and validate a shared Future Internet research facility between Brazil and Europe, supporting the joint Future Internet

experimentation of European and Brazilian researchers

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FIBRE Members

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UEssex

UPMC

i2CAT Nextworks

UTH

UFPA

UFG

UFSCar CPqD,USP

NICTA

UNIFACS

RNP, UFFUFRJ

Brazil’s National Education and Research

Network

Fluminense Federal University

Telecommunications Research and

Development Centre

Federal University

of Pará

Federal Universityof Goiás

Federal University

of São Carlos

Federal Universityof Rio de Janeiro

Universityof São Paulo

Salvador University

National ICT Australia

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FIBRE Members

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Major Results

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WP1Project Management

WP1Project Management

WP2Building and operating

the Brazilian facility

WP2Building and operating

the Brazilian facility

WP3Building and Operating the European Facility

WP3Building and Operating the European Facility

WP4Federation of facilities

WP4Federation of facilities

WP5Development of technology pilots and showcases

WP5Development of technology pilots and showcases

WP6Dissemination and collaboration

WP6Dissemination and collaboration

(M1-M34)

(M5-M34)

(M5-M34)

(M5-M34)

(M13-M34)

FIBRE Deliverables

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Major results June 2011-April 2013

Technical Achievements until M23

•User requirements for the experimental facility D2.1, D3.1

•Use case requirements analysis and pilots design D3.1, MS15

•Analysis of federation requirements D4.1, MS12

•Specifications of the facility operation D2.2, D2.3, D2.4 e D2.5

•Technical requirements and topology for each facility D3.2, D2.3 MS15

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Major results June 2011-April 2013

Technical Achievements until M23

•Partial deployment and testing of individual facilities D2.2, D2.3, D3.2,M2.1, MS2.2, MS 2.3

•Operation of the facility MS8

•Enhancement of OCF MS 6

•Enhancement of OMF MS7

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Major results June 2011-April 2013

Technical Achievements until M23

•Links between Brazil and Europe as well between European islands has been set up MS12

•Project dissemination D6.1, D6.2, D6.3, MS19, MS20

•Project management D1.1, D1.2, D1.3, MS1, MS2

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Development of infrastructure/substrate

• In order to define and develop the FIBRE-BR infrastructure we worked on:

• Specification of technical requirements ( network and computer) to purchase the equipment

• Acquisition of network and computer equipment • Defining the topology for each island based on the local

infrastructure• Design of network connections for integrating the islands

to one another • Define a strategy plan to deploy the testbed• Deployment and testing of individual facilities

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SPECIFICATION OF TECHNICAL REQUIREMENT

• FIBRE-BR is composed by the set of hardware/software.– OpenFlow Switchs– Servers– Wireless Nodes– CMF (OCF/OMF/VM)

• These devices were defined in the according the requirements of Brazilian CMF

• Created the commissions (groups) to generate specification to buy FIBRE equipment (RFP - Request For Proposal).

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Resources at one island

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Institution X(**) USP

OMFOCF

ProtoGENI

Each Institution-8 to 18 ORBITS nodes -3 NetFPGA-1 OF SW -1 SW commercial-1 server

OFC = OFELIA CONTROL FRAMEWORK

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Wireless experimental facility

OFELIA Control FrameworkOMFProtoGENIWDM GMPLS

UFRJ UFF

RNP

PoP-RJPoP-DF

PoP-GO

PoP-BAPoP-PA PoP-PE

UFPE

OMFOCF

UFPAUNIFACS

OMFOCF

UFG

OCF

OMFOCF

OMFOCF

UFSCar

OCF

USP

Proto

GENI

OMFOCF

PoP-SP

i2CAT

OCF

U. Bristol

OCF

UTH

OMF

WDM

PoP-i2CAT PoP-UTH

PoP-UB

CPqD

OMFOCF

WDM

OCFOCF

FIBRE achievements

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DEFINING THE TOPOLOGY FOR EACH FACILITY

• The figure show the FIBRE equipment allocate in the rack.

• In the top of rack you have two switch.– Control Switch (manage and control

equipment)– OpenFlow Switch (create

experiments)

• The next equipment is called FIBRE Virtual Server where CMF is installed.

• The three Openflow NetFPGA Servers

• In the bottom of rack were allocate the ICARUS nodes.

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DEFINING THE TOPOLOGY FOR EACH FACILITY

• This figure show the physycal connections among all the equipment in a FIBRE-BR facility.

• The green line constitutes the control plane.

• The yellow lines show the data plane links.

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NetFPGA #

1

NetFPGA #

3

NetFPGA #

2

Pica8 Pronto Switch

IBM server(VMs, LDAP)

Datacom OpenFlow switch(FIBREnet border router)

. . .

Icarus node #1

Icarus node #8

Wireless Network (OMF domain)

Top of Rackconventional switch

Data plane link

Control plane link Data + Control plane

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NetFPGA #1NetFPGA #2

NetFPGA #3 Icarus nodes

IBM server(virtual machines, LDAP)

Pica8 Pronto Switch

Datacom OpenFlow switch(FIBREnet border router)

Wireless NetworkOMF domain

ToR switch

Data plane link Control plane link

OCF domain

DEFINING THE TOPOLOGY FOR EACH FACILITY

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FIBRE Workflow

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Control Framework

RM1

Users

Resource Managers

...

Resources available

RM2 RMN

User-definednetwork

User (experimenter) accesses CF of an island.

All islands topologies are visible.

User defines his network selecting resources from all islands.

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FIBRE Use Cases

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Final Considerations

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• FIBRE is a showcase project in international collaboration in Future Internet– Demonstrate local capacity to collaborate with leading

European projects in this important area– Provide local experimental facilities for validating and

demonstrating new FI proposals– Provide opportunity for extension to and participation by

researchers from other Latin American countries– Promote involvement of and technology transfer to the

industrial sector, to prepare for Future Internet needs, especially involving OpenFlow and SDN approaches.

Benefits

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Expected Results

• Intercontinental slices of heterogeneous infrastructure to network researchers.

• A federated infrastructure automatically controlled by one or more CMFs• High speed intercontinental links connecting the European and the

Brazilian parts of the joint facility.• Enhanced OFELIA Control Framework software• Enhanced OMF and OML software• Federation software and tools• Experimental network application software• Network of contacts between Brazilian and European partners• Internal and external links with similar initiatives

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FIBRE Brazilian Teamwww.fibre.org.br

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FIBRE Brazilian Teamwww.fibre.org.br

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New Members

• UFES

• UFPB

• UFRGS

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Thank [email protected]

www.gercom.ufpa.br

twitter.com/FIBRE_project

www.facebook.com/fibre.project

www.fibre-ict.eu