The FIBRE project aims to create a shared experimental research facility between the EU and Brazil to support future internet experimentation. It will federate existing testbeds from EU projects like OFELIA and Brazilian universities. This will allow experiments to use interconnected resources across sites. Pilot uses cases will demonstrate seamless mobility, high definition video streaming across continents, and bandwidth on demand. The project expects to develop enhanced control framework software, federation tools, and experimental applications. It seeks to foster collaboration between European and Brazilian researchers and industry on future internet technologies.
The document summarizes the FIBRE project, which aims to create a common experimental research space for Future Internet between the EU and Brazil. It establishes testbed islands in Brazil and Europe that will be federated using control frameworks like OFELIA and OMF. Several pilot use cases like seamless mobility and high definition video streaming will be demonstrated. The timeline shows the project meetings and workshops between 2011-2014, including an open workshop in Salvador, Brazil in November 2012 to present results and demonstrations.
The FIBRE project aims to create a shared research facility between the EU and Brazil for experimenting with future internet technologies. It will involve building a new testbed in Brazil and enhancing existing testbeds in Europe. The facilities will be federated to allow experiments using resources from both regions. Several pilot applications will be demonstrated to showcase the capabilities of the federated infrastructure. The project also aims to enhance collaboration between European and Brazilian researchers in future internet areas. It involves six work packages and has 15 partner organizations with the goal of advancing joint internet research between the two regions.
Building Catastrophe Models using Open Data and Open SourceChris Ewing
The presentation looks at catastrophe modelling before showing how Impact Forecasting use open data and open source to build models and visualise model inputs and outputs.
This document provides an overview of catastrophe modeling. It discusses what catastrophe modeling is, why it is used, and how the models work. Catastrophe models use computer simulations to estimate the location, magnitude, and damage of potential natural disaster events. The models calculate expected loss frequencies and insured losses. They help answer questions about where future events may occur and their potential impacts.
Over the past two decades, there has been a step-function in the scientific understanding of natural hazards, from earthquakes to hurricanes and other climatic perils. Yet most of the use cases for this knowledge have centered around the research or forecasting communities, involving highly specialized computing and scientific resources. RMS, since spinning out from Stanford University in 1989, has built its business delivering commercially relevant catastrophe modeling software and analytics to the global financial services industry, enabling business practitioners in the re/insurance sector and investors in catastrophe-linked securities to quantify, manage, and hedge their risks to these perils throughout the world.
In their talk, Hemant and Philippe discuss these business centric use cases, the modeling approaches behind them, and how the revolution in commercially available and scalable compute and analytic technologies are bringing ‘big science’ out of the lab and enabling corporations to incorporate these insights to the heart of their business processes and workflows.
This document summarizes a summer training project conducted at Genpact on analyzing the effects of inflation on the company's costs and profitability. It includes an analysis of key cost drivers like salaries, benefits, infrastructure expenses, IT expenses, and other employee costs. Trends in these costs and their relationship to factors like headcount, work stations, and inflation rate charged to clients are examined. Key findings are that salary costs are most impacted by inflation, the company charges an average 5% inflation rate to clients, and continuing high inflation could negatively impact future profitability if costs are not further controlled. Suggestions include controlling attrition to reduce hiring costs, negotiating inflation clauses in all contracts, and incrementally increasing inflation rates charged over
The document provides an overview of the 1st FIBRE OPEN Workshop and the FIBRE project. The key points are:
- The FIBRE project aims to create a shared experimental facility for future internet research between Brazil and Europe by building testbeds in both regions and federating them.
- It involves 15 partners across 6 European institutions and 9 Brazilian institutions and has a budget of €1.09M from the EC and MR$2.3 from CNPq.
- The main goals are to build and operate new testbeds in Brazil and enhance existing ones in Europe, federate the facilities, develop pilot applications, and foster collaboration between European and Brazilian researchers.
The document summarizes the FIBRE project, which aims to create a common experimental research space for Future Internet between the EU and Brazil. It establishes testbed islands in Brazil and Europe that will be federated using control frameworks like OFELIA and OMF. Several pilot use cases like seamless mobility and high definition video streaming will be demonstrated. The timeline shows the project meetings and workshops between 2011-2014, including an open workshop in Salvador, Brazil in November 2012 to present results and demonstrations.
The FIBRE project aims to create a shared research facility between the EU and Brazil for experimenting with future internet technologies. It will involve building a new testbed in Brazil and enhancing existing testbeds in Europe. The facilities will be federated to allow experiments using resources from both regions. Several pilot applications will be demonstrated to showcase the capabilities of the federated infrastructure. The project also aims to enhance collaboration between European and Brazilian researchers in future internet areas. It involves six work packages and has 15 partner organizations with the goal of advancing joint internet research between the two regions.
Building Catastrophe Models using Open Data and Open SourceChris Ewing
The presentation looks at catastrophe modelling before showing how Impact Forecasting use open data and open source to build models and visualise model inputs and outputs.
This document provides an overview of catastrophe modeling. It discusses what catastrophe modeling is, why it is used, and how the models work. Catastrophe models use computer simulations to estimate the location, magnitude, and damage of potential natural disaster events. The models calculate expected loss frequencies and insured losses. They help answer questions about where future events may occur and their potential impacts.
Over the past two decades, there has been a step-function in the scientific understanding of natural hazards, from earthquakes to hurricanes and other climatic perils. Yet most of the use cases for this knowledge have centered around the research or forecasting communities, involving highly specialized computing and scientific resources. RMS, since spinning out from Stanford University in 1989, has built its business delivering commercially relevant catastrophe modeling software and analytics to the global financial services industry, enabling business practitioners in the re/insurance sector and investors in catastrophe-linked securities to quantify, manage, and hedge their risks to these perils throughout the world.
In their talk, Hemant and Philippe discuss these business centric use cases, the modeling approaches behind them, and how the revolution in commercially available and scalable compute and analytic technologies are bringing ‘big science’ out of the lab and enabling corporations to incorporate these insights to the heart of their business processes and workflows.
This document summarizes a summer training project conducted at Genpact on analyzing the effects of inflation on the company's costs and profitability. It includes an analysis of key cost drivers like salaries, benefits, infrastructure expenses, IT expenses, and other employee costs. Trends in these costs and their relationship to factors like headcount, work stations, and inflation rate charged to clients are examined. Key findings are that salary costs are most impacted by inflation, the company charges an average 5% inflation rate to clients, and continuing high inflation could negatively impact future profitability if costs are not further controlled. Suggestions include controlling attrition to reduce hiring costs, negotiating inflation clauses in all contracts, and incrementally increasing inflation rates charged over
The document provides an overview of the 1st FIBRE OPEN Workshop and the FIBRE project. The key points are:
- The FIBRE project aims to create a shared experimental facility for future internet research between Brazil and Europe by building testbeds in both regions and federating them.
- It involves 15 partners across 6 European institutions and 9 Brazilian institutions and has a budget of €1.09M from the EC and MR$2.3 from CNPq.
- The main goals are to build and operate new testbeds in Brazil and enhance existing ones in Europe, federate the facilities, develop pilot applications, and foster collaboration between European and Brazilian researchers.
Design & Deployment of a Future Internet Testbed FIBRE Testbed
The FIBRE project aims to design and deploy a shared Future Internet testbed between Brazil and Europe to support experimental research. Key objectives include building large-scale experimental facilities by federating existing OFELIA and OpenLab testbeds in Europe with a new testbed in Brazil. This will allow researchers to use resources across sites for experiments. The architecture involves islands of resources connected through a federated control framework. Brazil and EU partners are deploying wireless and wired resources across multiple research institutions to establish the facilities. The project expects to provide intercontinental experimental infrastructure and foster collaboration between researchers.
Future Internet testbeds/experimentation between Brazil and Europe - FIBREFIBRE Testbed
The FIBRE project aims to create a shared experimental space between the EU and Brazil for Future Internet research by building and operating federated testbeds. Over 30 months, the project will build new Future Internet experimental testbeds in Brazil and federate them with existing EU testbeds. This will allow experiments spanning both regions to test technologies like seamless mobility and high-definition content delivery across the federated infrastructure.
The document summarizes the projects of the Optical Fibre Sensors Research Centre at the University of Limerick. It describes projects involving biomedical sensors, radiation therapy dosimetry sensors, gas and pressure monitoring, food monitoring, and structural health monitoring of historical buildings. It also outlines collaborations with universities and companies in Italy and China on fiber optic sensor technologies.
Mr Philippe Froissard, EU DG Research and Innovation – ‘’Developing Research...UNESCO Venice Office
This document discusses research infrastructures and the EU's approach to developing them. It covers:
1) The role of ESFRI in identifying pan-European research infrastructure priorities and the projects on its roadmap.
2) How EU framework programmes like FP7 and Horizon 2020 fund preparatory, construction, and operation phases of infrastructures.
3) The goals of integrating national infrastructures, fostering innovation, and strengthening international cooperation around research infrastructures.
This document provides information about the TRANZFOR project, which aims to strengthen research collaboration on forestry and climate change between the EU and Australia-New Zealand through staff exchanges. At the mid-point of the project, 25 exchanges had been completed out of a planned 75, representing one-third of the total expected person-months of exchange. Exchanges involved researchers working on topics across the five work packages of the project, including genomics and tree breeding, forest modeling, environmental services, risk assessment, and bioenergy. Ten joint publications were in preparation, and five of the planned milestones had been achieved, including the establishment of a project website.
FIT@BR – a Future Internet Testbed in BrazilFIBRE Testbed
- The document describes the design and implementation of the FIT@BR testbed, a Future Internet testbed being deployed in Brazil through the Brazil-EU FIBRE project.
- FIT@BR will be a federated testbed across multiple sites in Brazil to support experimentation on new network architectures and applications. It is being implemented using three existing control and monitoring frameworks.
- The testbed aims to facilitate collaboration between Brazilian and European researchers on Future Internet initiatives and allow interoperation with other international testbeds.
The document summarizes the projects of Daniele Tosi and the Optical Fibre Sensors Research Centre at the University of Limerick. Some key projects discussed include developing extrinsic Fabry-Perot interferometer sensors for biomedical applications like measuring pressure for urodynamics and cardiovascular applications. The research has also led to developing optical fibre sensors for monitoring radiation levels in radiation therapy. Partnerships with hospitals and other universities in Italy and China are also mentioned.
The FIBRE project is a testbed for experimenting with future internet technologies funded through an EU-Brazil coordinated call. It consists of multiple research institutions and networks that have deployed local testbeds ("islands") connected through a federated network. A new governance model has been established with steering committees, a network operations center, and technical committees to coordinate development and user support. Future plans include expanding to more institutions, integrating new software frameworks, and using the testbed for educational purposes and computer network classes.
O documento descreve as evoluções recentes e planos futuros do testbed FIBRE, incluindo: 1) A adoção de um novo framework de controle baseado no OMF-6; 2) O desenvolvimento de um novo portal de experimentação; 3) A migração para uma nova rede virtualizada com switches de software.
Introdução ao Testbed FIBRE e visão de futuroFIBRE Testbed
O documento apresenta o testbed FIBRE, uma plataforma de experimentação de larga escala para pesquisa em redes de computadores no Brasil. O FIBRE possui recursos distribuídos em 16 ilhas e permite a realização de experimentos replicáveis em SDN. O documento descreve a infraestrutura, governança, comunidade de usuários e visão de futuro do FIBRE como um ambiente de pesquisa e ensino.
O documento descreve o serviço de experimentação FIBRE para pesquisa em redes do futuro no Brasil. Ele fornece uma visão geral da infraestrutura de testes, incluindo locais, recursos e número atual de usuários. Além disso, detalha os planos futuros como uma segunda chamada aberta, melhorias no portal e na plataforma de gerenciamento de experimentos.
Projeto de Elasticidade e Evolução do Projeto FIBREFIBRE Testbed
O documento descreve um projeto para evoluir a infraestrutura de experimentação do FIBRE utilizando virtualização e equipamentos whitebox de baixo custo. O objetivo é permitir a criação de switches virtuais sob demanda e melhorar o desempenho usando DPDK, removendo a dependência do FlowVisor. Os resultados iniciais mostraram melhorias no throughput e latência após tunning no OVS, porém a latência ainda precisa ser reduzida. Trabalhos futuros incluem testes com portas de 10Gbps e novas funcionalidades no OVS
Future Internet Brazilian Environment for ExperimentationFIBRE Testbed
This document provides an overview of the FIBRE testbed, a large-scale virtual laboratory in Brazil for networking research and education. It discusses the timeline and goals of the FIBRE project, describes the current infrastructure including wireless nodes, virtual machines, and connections to other testbeds. It also outlines usage examples, the growth in users, and next steps to upgrade the architecture and expand partnerships.
FIBRE (legacy) testbed is an experimental platform for networking research and education built on infrastructure from the FIBRE project and operated as a service by the Brazilian NREN. It aims to be integrated with major worldwide testbeds. Data protection, isolation of data flows between users, and portability of experiment data and results are key requirements to attract industry usage. Future plans include deploying new control software, training materials, and thematic "islands" for wireless, IoT, programmable networks and cloud experimentation.
Using Future Internet testbeds in the classroomFIBRE Testbed
The document discusses using the Future Internet testbed FIBRE to teach networking classes. It provides an overview of FIBRE, including its goals of experimenting with new Internet architectures, worldwide initiatives in teaching with testbeds, and plans to develop exercises and lessons to deploy in FIBRE. The summary highlights that FIBRE allows researchers to validate new proposals for the Future Internet through experimentation in its large-scale facilities, and that developing educational materials for its use can help train the next generation of networking researchers.
The document discusses the evolution and current state of FIBRE, a large-scale Future Internet testbed spanning Brazil and Europe. FIBRE originally aimed to design, implement, and validate a shared testbed for experimentation. It now includes 10 nodes in Brazil and 3 in Europe. The testbed is federating internationally and within Brazil to support more experimental projects. It interconnects to networks in Europe and the US through virtualized slices on production OpenFlow backbones at RNP in Brazil and AmLight in the US. This allows experimental facilities while maintaining production network stability and availability.
Pilot Use Case 3: BoD services over the intercontinental FIBRE infrastructureFIBRE Testbed
The document describes a demonstration of bandwidth on demand services over an intercontinental fibre infrastructure using an enhanced version of the Ofelia Control Framework. Key points:
- The demo uses physical switches and servers from the i2CAT FIBRE island controlled by an enhanced NOX controller to create a dedicated slice.
- An enhanced version of the OSCARS platform runs on this slice to provide bandwidth on demand services by composing circuits across the network topology and setting up flows in the switches using the NOX controller.
- The demo shows how an administrator can allocate a physical slice and how OSCARS abstracts this to allow dynamic circuit composition between hosts while ensuring bandwidth, time, and VLAN constraints are met.
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- The testbed aims to facilitate collaboration between Brazilian and European researchers on Future Internet initiatives and allow interoperation with other international testbeds.
The document summarizes the projects of Daniele Tosi and the Optical Fibre Sensors Research Centre at the University of Limerick. Some key projects discussed include developing extrinsic Fabry-Perot interferometer sensors for biomedical applications like measuring pressure for urodynamics and cardiovascular applications. The research has also led to developing optical fibre sensors for monitoring radiation levels in radiation therapy. Partnerships with hospitals and other universities in Italy and China are also mentioned.
The FIBRE project is a testbed for experimenting with future internet technologies funded through an EU-Brazil coordinated call. It consists of multiple research institutions and networks that have deployed local testbeds ("islands") connected through a federated network. A new governance model has been established with steering committees, a network operations center, and technical committees to coordinate development and user support. Future plans include expanding to more institutions, integrating new software frameworks, and using the testbed for educational purposes and computer network classes.
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FIBRE (legacy) testbed is an experimental platform for networking research and education built on infrastructure from the FIBRE project and operated as a service by the Brazilian NREN. It aims to be integrated with major worldwide testbeds. Data protection, isolation of data flows between users, and portability of experiment data and results are key requirements to attract industry usage. Future plans include deploying new control software, training materials, and thematic "islands" for wireless, IoT, programmable networks and cloud experimentation.
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The document discusses the evolution and current state of FIBRE, a large-scale Future Internet testbed spanning Brazil and Europe. FIBRE originally aimed to design, implement, and validate a shared testbed for experimentation. It now includes 10 nodes in Brazil and 3 in Europe. The testbed is federating internationally and within Brazil to support more experimental projects. It interconnects to networks in Europe and the US through virtualized slices on production OpenFlow backbones at RNP in Brazil and AmLight in the US. This allows experimental facilities while maintaining production network stability and availability.
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- An enhanced version of the OSCARS platform runs on this slice to provide bandwidth on demand services by composing circuits across the network topology and setting up flows in the switches using the NOX controller.
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Route flow autoconf demo 2nd sdn world congress 2013
FIBRE project: Brazil and Europe unite forces and testbeds for the Internet of the future
1. FIBRE
project:
Brazil
and
Europe
unite
forces
and
testbeds
for
the
Internet
of
the
future
FIRE Engineering Workshop
Ghent, November 6th 2012
Thanasis Korakis
2. Main Objective
Create
a
common
space
between
the
EU
and
Brazil
for
Future
Internet
(FI)
experimental
research
into
network
infrastructure
and
distributed
applicaFons,
by
building
and
operaFng
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,
supporFng
the
joint
Future
Internet
experimentaFon
of
European
and
Brazilian
researchers
2/13
4. Experimental
islands
to
be
federated
Testbed islands
FIBRE
members
not
comming
resources
UFPA
UBristol
UPMC
Nextworks
UFPE
I2CAT
UNIFACS
UTH
RNP
UFG
UFF
UFSCar
UFRJ
CPqD
USP
NICTA
4/13
5. FIBRE EU testbeds
• Enhancements
of
the
OFELIA
testbeds
(i2CAT
and
U.
Essex)
and
the
UTH's
NITOS
testbed
OFELIA
UBristol
!
OFELIA
I2Cat
UTH
NITOS
!
5/13
6. FIBRE Brazil testbeds
Nine
geographically
distributed
insFtuFonal
faciliFes
FIBRE Common Resources
RNP Ipê
OF-enabled Switch Compute Servers
GIGA
To Fibre
Partners
Kyatera
!
NetFPGA Servers Orbit Nodes
L2
long
distance
network
Site-Specific Resources
connecFons
Wireless Testbeds Optical Testbeds
Optical Testbeds
Other Internal Testbeds
(e.g. Emulab)
Wimax
Wi-fi APs
6/13
7. FIBRE’s Federation architecture
• Physical
resources
shared
between
federated
islands
• ExisFng
CMFs
federated
through
common
federaFon
control
plane
• Experiment
configuraFons
backed
up
for
reuse
• I&M
framework
integraFng
data
from
the
different
islands
and
CFs
7/13
8. Pilot Use Cases
Seamless
Mobility
for
EducaFonal
Laptops
8K/4K
Video
Streaming
UK
and
Brazil
High
definiFon
content
delivery
across
different
sites
Bandwidth
on
Demand
through
OpenFlow
GMPLS
in
the
FIBRE
facility
8/13
9. Expected Results
• InterconFnental
slices
of
heterogeneous
infrastructure
to
network
researchers.
• A
federated
infrastructure
automaFcally
controlled
by
one
or
more
CMFs
• High
speed
interconFnental
links
connecFng
the
European
and
the
Brazilian
parts
of
the
joint
facility.
• Enhanced
OFELIA
Control
Framework
sofware
• Enhanced
OMF
and
OML
sofware
• FederaFon
sofware
and
tools
• Experimental
network
applicaFon
sofware
• Network
of
contacts
between
Brazilian
and
European
partners
hhp://www.fibre-‐ict.eu
9/13
10. Benefits
• FIBRE
is
a
showcase
project
in
internaFonal
collaboraFon
in
Future
Internet
– Demonstrate
capacity
to
collaborate
with
leading
European
projects
in
this
important
area
– Provide
local
experimental
faciliFes
for
validaFng
and
demonstraFng
new
FI
proposals
– Provide
opportunity
for
extension
to
and
parFcipaFon
by
researchers
from
other
LaFn
American
countries
– Promote
involvement
of
and
technology
transfer
to
the
industrial
sector,
to
prepare
for
Future
Internet
needs.
10/13
11. Intercontinental experimental platform
• FederaFon
of
EU
and
Brazil
FIBRE
research
infrastructures
creaFng
an
interconFnental
mulF-‐domain,
mulF-‐layer
and
mulF-‐technology
experimental
plajorm.
11/13
12. 1st FIBRE Open Workshop
26 - 27 November, 2012
Salvador + Bahia + Brazil
Tentative agenda includes:
•
PresentaFon
of
FIBRE
results
and
demonstraFon
•
PresentaFons
from
Future
Internet
driven
iniFaFves
worldwide
•
Round
table
with
industry
players
and
policy
makers
•
Example
of
Future
Internet
ApplicaFons
•
Short
courses
/
hands-‐on
training
12
photo:
Leandro
N.
Ciuffo