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EVALSO a high bandwidth communication link for Paranal ESO Lunch Talk - 2010/11/30 G.Filippi

EVALSO a high bandwidth communication link for Paranal ESO Lunch Talk - 2010/11/30 G.Filippi gfilippi@eso.org. Why?.

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EVALSO a high bandwidth communication link for Paranal ESO Lunch Talk - 2010/11/30 G.Filippi

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  1. EVALSO a high bandwidth communication link for Paranal ESO Lunch Talk - 2010/11/30 G.Filippi gfilippi@eso.org

  2. Why? For very obvious reasons, Observatories tend to be built in remote areas where high capacity communication infrastructures are not normally available or easily accessible. This is the case for the ESO Paranal and the Cerro Armazones Observatories, located in the Atacama Desert, in the Northern region of Chile. Although computing and networking infrastructures are available and continuously evolving at the sites, the possibility to fully exploit in real time such facilities is limited by the available bandwidth to connect them to the rest of the research and academic world. To fully exploit such remote sites (from fast data transfer to rapid response mode, from remote monitoring and engineering to virtual presence) high capacity links, i.e., bandwidth >Gigabit-per-second (Gbps), are necessary.

  3. The start Driven by this idea, a consortium of 9 members has been created in 2007 aiming to create a physical infrastructure (and the tools to exploit it) to efficiently connect the the ESO Paranal and the Bochum Cerro Armazones (OCA) Observatories to Latin American network and from there to Europe. The project builds on the National Research network of Chile (REUNA) and International infrastructures created in the last years with the EC support (RedCLARA, GEANT) to provide Latin American and European Research a competitive edge by having faster access to the collected data and using the connected facilities in an ever more efficient way.

  4. EVALSO • This proposal was presented at the European Commission Frame Program 7 and in late 2007 was granted co-funding. • Enabling Virtual Access to Latin–America Southern Observatories • … was born!

  5. Project Structure (Workpackages) • JRA2: Virtual Presence • Will plan and produce the tools that could be used to make possible the virtual presence of scientists, engineers, and experts at remote facilities and, to the extreme, the possibility to perform remote observations. • JRA3: New observing modes • Will investigate and concept prove new observing modes made now possible by the availability of the fast link and the tools developed by JRA2. Virtual Presence Maintenance Assisted ToO Target of Opportunity Difficulty of planning a priori Service observation Visitor mode Astronomer’s & Engineer’s Presence • SA1: Upgrading of the communication infrastructure • JRA1: Fast Data Access • Will aim at drastically improve the time needed for making the data available from the moment of the physical observation.

  6. Where • The ESO Paranal (PAO) and Cerro Armazones Observatories (OCA), located in the Atacama Desert in the North of Chile. • The REUNA offices in Antofagasta (approximately 120 km from the Observatory) • The ESO and REUNA Offices in Santiago de Chile (about 1200 km south of Antofagasta)

  7. EVALSO Communication Infrastructure The Atacama desert and the Observatories

  8. EVALSO Communication Infrastructure Overall layout and plan 2008: marker survey 2009: selection, procurement, engineering 2010: construction, installation, testing.  Completion October 2010 4 Antofagasta 6 Atacama 1 7 Dark Fiber: unlimited capacity “Lambda”: (currently) 10Gpbs 2 Santiago 3 5

  9. EVALSO Communication Infrastructure Fiber cable specification and layout • Segment 1 (ESO Paranal to “La Varilla” cross road (B-710/Ruta5): • Segment 1a: new 12-core fiber cable for direct installation underground • Type of fiber: ITU G652.D • Length: 75 Kms • Attenuation: 18,5dB @ 1550nm • Chromatic Dispersion: ps/nm 1258 • Segment 1b: one fiber pair from existing aerial cable (TELEFONICA) • Type of fiber: ITU G652.D • Length: 50 Kms • Attenuation: 11,5dB @ 1550nm • Chromatic Dispersion: • Total Length: 125Kms • Total Attenuation: 30dB @ 1550nm • Segment 4: (Cerro Armazones Observatory to ESO Paranal) • Type of fiber: ITU G652.D • Length: 30Km (20 new cable, same as for 1a +10 from Segment 1a) • Attenuation: 9dB @ 1550nm

  10. EVALSO Communication Infrastructure New fiber cable along ROAD B-710 Topography and detailed plans needed for Official approval by MOP (Chilean Public Works Ministry) La Varilla Ruta 5 Norte crossing KM 117.200 Ruta B-710 Gaspipe crossing

  11. EVALSO Communication Infrastructure Some details of the new fiber Construction • Item 1a: Logistic (at Paranal Observatory) for: • machinery and vehicles • road safety signals, warning tape • cable (~100km) and materials

  12. EVALSO Communication Infrastructure Some details of the new fiber Construction Item 1a: trenching, tunneling (road crossings) SPIE Astronomical Instrumentation, San Diego, 2010 - 12 - Ref 7740-35, June 30, G.Filippi (ESO)

  13. EVALSO Communication Infrastructure Some details of the new fiber Construction Item 1a: excavation for manholes, warning tape, fiber cable lay-down SPIE Astronomical Instrumentation, San Diego, 2010 - 13 - Ref 7740-35, June 30, G.Filippi (ESO)

  14. EVALSO Communication Infrastructure Some details of the new fiber Construction Item 1a: construction started from Paranal Observatory, along ESO private access road, reached the B-710 and it is advancing parallel to it.

  15. EVALSO Communication Infrastructure Connecting to the existing fiber Item1b: drop off the existing fiber cable. Item 1a: crossing under Ruta5 at La Varilla

  16. EVALSO Communication Infrastructure Rocks, rocks and …. more rocks

  17. EVALSO Communication Infrastructure Construction of the new fibers

  18. EVALSO Communication Infrastructure EVALSO Communication Infrastructure … some views

  19. EVALSO Communication Infrastructure EVALSO Communication Infrastructure The “LAMBDA” backbone Antofagasta One wavelength at 10Gbps (for the time being) Copiapo Provision for Add&Drop access points for REUNA traffic. 2 La Serena TELCO Santiago

  20. EVALSO Communication Infrastructure Santiago: connections to ESO and REUNA and planned ring with CLARA

  21. EVALSO Communication Infrastructure Equipment Specification and Layout

  22. EVALSO Communication Infrastructure Selected Equipment CIENA CN 4200 family • 5 slot chassis • Power Unit and Fan redundant • Service Card • M3 : 3x1GEth • F10A: 1xOTU-2, 2x1GEth Filters (MUX/DEMUX) slot 4 Service Card slots Fan Power Modules

  23. EVALSO Communication Infrastructure Equipment in the service points PARANAL REUNA/Santiago ESO/Vitacura (RedCLARA) TELCO Antofagasta TELCO Santiago

  24. 2010/11/04 Launching event in Santiago

  25. 2010/11/04 .. some moments of the launching event

  26. EVALSO … … is there!!!!! OCA 100km Optical Fiber ESO Paranal GEANT2/DANTE Trans-Atlantic link GB-NREN NL-NREN DFN (D-NREN)

  27. Some Remarks • EVALSO cannot be considered the ultimate solution • Continental infrastructures have to be coordinated to remove the bottlenecks, especially between Latin America and Europe • The limiting element in the chain is now the intercontinental link capacity and its cost But in the meantime let us be happy for making the first step … • … and let me thank and congratulate the people in the different organizations who have worked really hard to make this first achievement of EVALSO a reality • … within budget! (Fernando Liello, Project Coordinator, Universita’ di Trieste, from his presentation at EVALSO Launching event)

  28. Current and future use Till the end of the EVALSO project (mid2011), it will be available for the Research Activities of the EVALSO Consortium. After that time, the infrastructure will be used according to mutual agreements that are being discussed among ESO, OCA, and REUNA. Some key concepts: • ESO will be responsible for the maintenance of the optical infrastructure; • REUNA will be responsible for the maintenance of the DWDM equipment and for the network operation for all nodes; • Dedicated channels are established between: OCA and REUNA/Antofagasta, ESO/Paranal and ESO/Santiago, REUNA/Antofagasta and REUNA/Santiago, ESO/Santiago and REUNA/Santiago; • More channels may become active as result of future projects and agreements.

  29. Example: OCA Thanks to the availability of high bandwidth communication to the observatory infrastructure, the AIRUB(OCA) plans to: • reduce travel waste (people time, money, CO2) thanks to remote real-time control of telescopes and robotic operation • reduce data transfer costs by replacing shipping over hard disks • allows immediate response to newly discovered variable phenomena • use remotely controlled telescopes with good video and audio quality links as part of the educational process (teaching and/or training) without need for expensive traveling and therefore more affordable for the students/university (Rolf Chini, RUB-OCA from his presentation at EVALSO Launching event)

  30. www.evalso.eu

  31. CREDITS My thanks go to the many people that contributed to the project, among those: DMO: F.Comeron, D.Dobrzycka, … SDD/IT: B.Kublik, F.Heissenhuber, M.Naumann, … SDD/Data: S.Zampieri, … PAO: A.Wright, F.Luco, F.Ruseler, … ePOD: G.Argandona, O.Usher, … ADD: E.Patkos, … ADD/C&P: Y.Wesse, … ... and many more! A special thank to ADD, C&P, PAO Logistics and all ESO functions that provided invaluable support during the various project phases.

  32. Many thanks for your attention, and for any questions feel free to contact me. Giorgio Filippi European Southern Observatory Karl-Schwarzschild-Strasse 2,  D-85748 Garching bei Muenchen,  Germany. Email: gfilippi@eso.org

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