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PORTA OPTICA STUDY THE ACADEMIC NETWORKS IN EASTERN EUROPE

PORTA OPTICA STUDY THE ACADEMIC NETWORKS IN EASTERN EUROPE Artur Binczewski, Miłosz Przywecki, Maciej Stroiński, Jan Węglarz Poznan Supercomputing and Networking Center. http://www.porta-optica.org. Content. Project overview Partners Main goal & objectives Preliminary results

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PORTA OPTICA STUDY THE ACADEMIC NETWORKS IN EASTERN EUROPE

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  1. PORTA OPTICA STUDY THE ACADEMIC NETWORKS IN EASTERN EUROPE Artur Binczewski, Miłosz Przywecki, Maciej Stroiński, Jan Węglarz Poznan Supercomputing and Networking Center http://www.porta-optica.org

  2. Content • Project overview • Partners • Main goal & objectives • Preliminary results • Next steps http://www.porta-optica.org 2/27

  3. Overview • Instrument: SSA FP6 • Duration: 1 year • Start: 01/02/2006 • End: 31/01/2007 • 12 project partners • 3 main regions: • Eastern Europe: Belarus, Ukraine, Moldova • Baltic states: Estonia, Latvia, Lithuania • Southern Caucasus: Armenia, Azerbaijan, Georgia http://www.porta-optica.org 3/27

  4. Partners 4/24 4/27 4/11

  5. Main Goal & Objectives • Main Goal: • Stimulation and consolidation of initiatives to ensure the successful, dark-fiber based research network deployment in the Eastern Europe, Baltic states and Southern Caucasus regions • Objectives: • Identificationof user communities and their requirements • Assessment of fiber infrastructure availability • Performing fiber network case studies and deployment scenarios • Raising project awareness and results dissemination http://www.porta-optica.org 5/27

  6. Estonia Potential impact: 11 cities 732 300 people 80 scientific institutions 50 higher education institutions 69 114 university students EENET, Estonian NREN: • GÉANT2 connection: 622 Mbps • DF 1Gbps: Tallin-Tartu, Tallin-Paide, Paide-Tartu • All other links (2-11Mbps) using leased lines http://www.porta-optica.org 6/27

  7. Estonia 622Mbps GEANT2 4Mbps 4Mbps 11Mbps 1Gbps 2Mbps 1Gbps 4Mbps 4Mbps 8Mbps 2Mbps 2Mbps DF 1Gbps: Tallin-Tartu, Tallin-Paide, Paide-Tartu http://www.porta-optica.org 7/27

  8. Latvia Potential impact: 26 cities 1 462 000 people 89 scientific institutions 49 higher education institutions 121 830 university students LATNET, Latvian NREN: • GÉANT2 connection: 155 Mbps • Backbone: leased lines up to 2 Mbps • Last mile: fiber optic/radio connections/DSL http://www.porta-optica.org 8/27

  9. Latvia http://www.porta-optica.org 9/27

  10. Lithuania Potential impact: 22 cities 1 764 000 people 109 scientific institutions 25 higher education institutions 137 732 university students LITNET, Lithuanian NREN: • GÉANT2 connection: 1 Gbps now, soon 2.5 Gbps • Backbone: 1Gbps, 200Mbps, 4-30Mbs, • Own or leased DF http://www.porta-optica.org 10/27

  11. Lithuania 1 Gbps http://www.porta-optica.org 11/27

  12. Belarus Potential impact: 6 cities 3 450 000 people 194 scientific institutions 44 higher education institutions 273 000 university students BASNET, Belarusian NREN: • GÉANT2 connection: 34 Mbps • Backbone: • Minsk MAN: FDDI ring 100Mbps • Intitutions in Minsk connected via FO or radio links • Other cities connected via 2Mbps leased lines http://www.porta-optica.org 12/27

  13. Ukraine Potential impact: 43 cities 19 517 000 people 600 scientific institutions 384 higher education institutions 1 342 000 university students URAN, association of Ukrainian RENs: • No GÉANT2 connection (in progress) • Leased channels between major cities: • 155Mbps (Kiev-Lviv), TDM • 10 Mbps (Kiev-Odessa), Ethernet • 128kbps-2Mbps (other cities), TDM http://www.porta-optica.org 13/27

  14. Ukraine http://www.porta-optica.org 14/27

  15. Moldova Potential impact: 7 cities 1 151 000 people 50 scientific institutions 35 higher education institutions 78 500 university students RENAM, Moldavian NREN: • 16 Mbps GÉANT2 connection • DF infrastructure in Chisinau (20km) • Intercity connections up to 8Mbps (Chisinau-Balti, radio-relay) • users connected to NREN using leased lines (xDSL), radio links, Gigabit/Fast/Ethernet, WiFi) http://www.porta-optica.org 15/27

  16. Georgia Potential impact: 6 cities 1 481 000 people 48 scientific institutions 23 higher education institutions 92 900 university students GRENA, Georgian NREN: • No GÉANT2 connection • Backbone: • Tbilisi: Gigabit Ethernet, DF, 15 km • Regional infrastructure based on leased 2 Mbps channels http://www.porta-optica.org 16/27

  17. Georgia http://www.porta-optica.org 17/27

  18. Azerbaijan Potential impact: 6 cities 3 634 000 people 186 scientific institutions 35 higher education institutions 137 184 university students AzRENA/AzNET, Azerbaijani RENs: • No GÉANT2 connection, • Academy of Science buildings in Baku - FO infrastructure • Other institutions connected via radio links and leased lines http://www.porta-optica.org 18/27

  19. Azerbaijan (AzRENA) http://www.porta-optica.org 19/27

  20. Azerbaijan (AzNET) http://www.porta-optica.org 20/27

  21. Armenia Potential impact: 8 cities 3 450 000 people 194 scientific institutions 44 higher education institutions 273 000 university students ASnet/ARENA/ISOC/NFSATnet/LIBnet Armenian RENs • No GÉANT2 connection • 10Mbps FO connections between network nodes • Institutions connected via FO, radio links and DSL http://www.porta-optica.org 21/27

  22. Armenia Gyumri Yerevan http://www.porta-optica.org 22/27

  23. Potential beneficiaries Impact of work • 9 beneficiary countries • 1400 scientific institutions • 700 higher education institutions, • 2 525 260 students • 135 cities • 36 641 300 people http://www.porta-optica.org 23/27

  24. Potential beneficiariesExamples of main scientific institutions • Minsk, Unitary Enterprise “Geoinformation systems”, United Institute of Informatics Problems, Belarus (development of belorussian space system of distance land exploration on the base of belorussian space ship "BelKA"”) • Chisinau, Faculty of Radioelectronics and Telecommunications of Technical University of Moldova, (First GRID site in Moldova) • Kiev, V. M. Glushkov Institute of Cybernetics, Ukraine, (developing system to control problems within the framework of cluster technologies) • Tallinn, National Institute of Chemical Physics and Biophysics, Estonia(development of novel directions in material sciences, gene- and biotechnology, environmental technology, and computer science) • Ventspils, Ventspils International Radioastronomy Centre (VIRAC), Latvia http://www.porta-optica.org 24/27

  25. Summary • GEANT2 connection: 0 – 2.5Gbps • Regional infrastructure based on low-speed leased lines/DSL/radio • Research teams cannot effectively collaborate due to lack of high-speed network infrastructure http://www.porta-optica.org 25/27

  26. Next steps July 2006, Users database published, October 2006, Analysis of deployment opportunities ready December 2006, Case studies ready, January 2006, Fiber optic development plan ready http://www.porta-optica.org 26/27

  27. THANK YOU http://www.porta-optica.org 27/27

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