[8] OFELIA FP7 consortium, OFELIA FP7 project, 2010. <http://www.fp7-ofelia.eu/>.

• OFELIA é um projeto colaborativo dentro do European Commission’s FP7 ICT Work Programme.

• O projeto cria uma instalação experimental que permite aos pesquisadores não apenas fazer experimentos sobre uma rede de teste mas também controlar e extender a própria rede precisamente e dinamicamente.

• Iniciado em Setembro de 2010
• Duração: 3 anos
• Investimento total: 6.3M€

• 10 parceiros
  • + 2 após a 1a. Open Call
  • + 6após a 2a. Open Call
• Instituições acadêmicas
• Indústrias parceiras:
  • Deutsche Telekom, NEC, ADVA Optical
• Parceria com Universidade de Stanford:
  • Nick McKeown, Guru Parulkar
  • Control framework, arquitetura, experiência
• 10 ilhas OpenFlow-enabled em instituições acadêmicas

• A instalação OFELIA é baseada no OpenFlow, uma tecnologia emergente de rede que permite virtualização e controle de ambientes de rede através de interfaces padronizadas e seguras.

1. - Gerenciamento de projeto
2. - Gerenciamento das instalações
3. - Gerenciamento de Open Calls
4. - Redes dos Campi e Emulation Wall
5. - Desenvolvimento de software
6. - Disseminação e cooperação internacional
7. - Colaboração com o FIRE
8. - Camadas de virtualização avançadas de redes para OpenFlow
9. - Suporte à funcionalidade Content centric networking
10. - Integração do OpenFlow e Path Computation Element - PCE
11. - Vod assistido pelo OpenFlow
12. - EDOBRA - Extending and Deploying OFELIA in BRAzil
13. - Emoticon - Extending OpenFlow for Unified Management and Control of Cloud Data Center Resources

• D2.1 Report on requirement study and analysis of use cases for OFELIA M26
• D2.2 Complete report on federation architecture of OFELIA M28
• D2.3 Final report on management operation and monitoring framework of OFELIA M31
• D2.4 First report on implementation testing and operation of federated islands M25
• D2.5 Final federated testbed report M37
• D3.1 User selection first open call M10
• D3.2 User selection second open call M22
• D4.1 First year report on planning development testing and operation of individual islands M13
• D4.2 Second year report on planning development testing and operation of individual islands M25
• D4.3 Final report on planning development testing and operation of individual islands M37
• D5.1 First version of the Ofelia management software M6
• D5.2 Second version of the Ofelia management software M18
• D5.3 Final version of Ofelia management software M35
• D6.1 Project website online M3
• D6.2 OpenFlow summer school M14
• D6.3 Dissemination report for year 1 M13
• D6.4 Joint intercontinental workshop on future internet test networks M22
• D6.5 Dissemination report for year 2 M25
• D6.6. Final report on dissemiantion activities M37
• D7.1 FIRE cooperation M37
• D7.2 FIRE Federation Framework M37
• D8.1 Requirements and specifications for the VeRTIGO modules: MAC-based VT slicing, virtual nodes M14
• D8.2 Release of software modules: MAC-based VT slicing, virtual nodes + Requirements and specifications M20
• D8.3 Measurement and tests of NV layer on CN/OFELIA island M24
• D8.4 Release of software modules: MPLS/QnQ VT slicing, VT planner, VT statistics M30
• D8.5 Benchmarking slicing mechanisms M37
• D9.1 EXOTIC final architecture and design M26
• D9.2 EXOTIC evaluation plan and methodology M28
• D9.3 EXOTIC final evaluation and overall report M37
• D10.1 Integration of Path Computation Elements in the OpenFlow control plane M37
• D11.1 OpenFlow Storage Extensions Specifications M30
• D11.2 OpenFlow VoD Cache Demonstrator M37
• D12.1 IEEE 802.21 OpenWRT OpenFlow Integration Preliminary Architecture Design M27
• D12.2 Report on Installation, Operation and Management of OFELIA Island at Brazil M30
• D12.3 DTS Preliminary Architecture Design M29
• D12.4 OFELIA Island at Brazil Available for Public Use M35
• D12.5 Source Code of ODTONE OpenFlow OpenWRT publicly available M37
• D12.6 Final OFELIA Island Status Report M37
• D12.7 Final Architecture Design Report M37
• D13.1 EMOTICON requirements and architecture design M30
• D13.2 EMOTICON evaluation plan and methodology M32
• D13.3 EMOTICON final evaluation and overall report M37

1. AKARI - Architecture Design Project a for New Generation Network
2. ALIEN - Abstraction Layer for Implementation of Extensions in Programmable Networks
3. CHANGE
4. CONVERGENCE
5. DANTE - (Delivery of Advanced Network Technology to Europe)
6. ​GÉANT
7. FELIX
8. FED4FIRE
9. FIBRE - Future Internet Test Beds / Experimentation between Brazil and Europe
10. FIRE
11. Geni - Global Environment for Network Innovations
12. Internet2
13. IRATI - Investing RINA as an Alternative to TCP/IP
14. JGN
15. KOREN - Korea Advanced Research Network
16. OFERTIE
17. OpenFlow Switch Consortium
18. NOVI - Networking innovations Over Virtualized Infrastructures
19. SPARC

1. Berlin, Germany (TUB)
2. Ghent, Belgium (IBBT)
3. Zurich, Switzerland (ETH)
4. Barcelona, Spain (i2CAT)
5. Bristol, UK (UNIVBRIS)
6. Catania, Italy (CNIT)
7. Rome, Italy (CNIT)
8. Trento, Italy (CREATE-NET)
9. Pisa, Italy
10. Uberlândia, Brazil (UFU)
11. Castelldefels, Spain (CTTC)

Arquivo:Apresentação OFELIA Fev2013.pdf