docG. Prati - The integrated center between TeCIP and CNIT
download 
Report Transcription
G. Prati - The integrated center between TeCIP and CNIT
Giancarlo Prati December 6, 2013 Welcome @ TeCIP Institute of Communication, Information, and Perception Technologies (TeCIP) http://tecip sssup it http://tecip.sssup.it • • • 5.500 m 5 500 m² total surface in the CNR Area of Pisa + 800 m total surface in the CNR Area of Pisa + 800 m² clean room clean room Colocated with National Inter‐University Consortium for Telecommunications (CNIT) Laboratory of Photonic Networks and Ericsson R&D Lab TeCIP Institute has settlement in “La Fontina” district (1150 m²) and in La Spezia and Livorno going back to roots... “Pisa Photonics”: seeding the Institute launched on January 20, 2001 “Maximising Maximising ecosystem sinergy sinergy” >80 pers 28 pers >50 pers CNR Area S.Cataldo 10-year 10 year agreement agreement: I 2010 In t unique set-up renewed with in the Ericsson Italian panorama up to 2015 Figures about CNIT: 37 universities 1400 faculties 49 employees >100 temp staff 3 Nat’l Labs Figures about CNIT: PARMA FLORENCE GENOA PISE 37 universities 1400 faculties 49 employees >100 temp staff 3 Nat’l Labs CAGLIARI, NAPLES CNIT Photonic Networks National Laboratory • • • • • • • Co-located with the TeCIP Institute 2 Heads of Research Area 2 Heads of Research 8 Senior Researchers 3 Technicians 10 Research R h Scholars S h l 3Administrative Staff Visiti prof/stud Visiting f/st d basics on TeCIP T CI Institute... I TeCIP Institute Organisation TeCIP Institute,, Scuola Sant’Anna Photonic Ph t i Networks N t k Nat’l Lab CNIT Real-time Real time Informatics Photonic Communication Perceptual Robotics 3 macro-areas, ac o a eas, o one e mission: ss o High g tec technology o ogy to boost competitiveness is a strategic asset for TeCIP Institute Organisation TeCIP Institute,, Scuola Sant’Anna Photonic Ph t i Networks N t k Nat’l Lab CNIT Networks & Services Photonic Communication Optical Communication y Systems Optical Communication Theory & Techniques High-capacity Optical Communications Fiber sensors & Integrated g Photonic Subsystems Inphotec Centre @ TeCIP T CIP Institute Pisa Advanced Technologies for Integrated Photonics Digital & Microwave Photonics CNIT Silicon Photonics Design Center High g tec technology o ogy to boost competitiveness is a strategic asset for 7 areas w. leader, 2 centers, 83 people (28 CNIT) Macro-area: Real-time Informatics Areas • Real‐Time Systems • Resource Management Reso rce Management • Embedded Systems Design • Networks of Networks of Embedded Systems Macro-area: Perceptual Robotics Areas • Human‐Robot Interaction • Computer Graphics & Virtual Environment • Intelligent Automation Systems TeCIP Institute Figures Research Projects 74 Research Projects: 23 European 3 p Projects j 21 Industrial Projects 3 Government Projects 10 Projects by other public bodies 17 Other Projects 2012 Annual A l Turnover: T M€ 8.5 8 (from research contracts, tenured personnel not included) (2012) Main sources of research funds 2012 2010 E U PROJECT PARTNER DISTRIBUTION' S SHARE TRAINING 1% OTHER PUBLIC BODIES 8% PRIVATES 28% 25% OTHERS 3% MINISTRY OF THE EUROPEAN UNION AND TUSCANY REGION 26% UNIVERSITY AND RESEARCH 9% 2011 E U PROJECT PARTNER DISTRIBUTION'S SHARE 18% TRAINING 0% PRIVATES 21% OTHERS 5% MINISTRY OF EUROPEAN UNION AND TUSCANY REGION 38% THE UNIVERSITY AND RESEARCH 18% Graduatoria G adua o a nazionale* a o ae d dipartimenti pa e d di medie d dimensioni e so Area 09 - Ingegneria Industriale e dell’Informazione * Valutazione ANVUR ANVUR-MIUR MIUR della Qualità della Ricerca 2004-2010 2004 2010 1,60 1,40 1,20 1,00 0,80 0 60 0,60 0,40 0,20 0,00 VQR - Graduatoria nazionale nazionale* assoluta nel settore ING ING--INF/03 Telecomunicazioni * Valutazione ANVUR ANVUR-MIUR MIUR della Qualità della Ricerca 2004-2010 2004 2010 1,20 1,00 0,80 0,60 0,40 0,20 0,00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 Teaching programmes • 3‐year PhD program in Emerging Digital Technologies • 2‐year Int’l Master on Communication ’l Networks k Engineering •2 2‐year year Erasmus Erasmus Mundus Masters on Photonic on Photonic Networks coordinated by Scuola Superiore Sant’Anna with Technische Universität Berlin, Aston University, Osaka University • 2 “Laurea Magistrale” joint degree with Università di Pisa: ԟ Computer Science and Networking p g ԟ Embedded Computing Systems • 2 Double 2 Double Degree Programmes with Università di Trento: Università di Trento: ԟ Information and Communication Technologies ԟ Computer Science and Engineering Educcation n Reesearcch Extra-EU International Collaborations • University of British Columbia (UBC), Canada * • University of California at Santa Barbara (UCSB), (UCSB) USA * • University of Tokyo, Japan gy ((KIST), ) S.Korea • Korean Institute of Science and Tecnology • National Institute of ICT (NICT), Japan • Inha University/OPERA, University/OPERA, Incheon, S.Korea • University of California at Davis (UCD), (UCD) USA * • Institut National de la Réchérche Scientifique, Scientifique, Québec, Canada * y (MIT), USA • Massachusetts Institute of Technology • Osaka University, University, Japan * * 1 person is there • Waseda University, University, Japan for 1-2 year stay • Boston University University,, USA * • University of Southern California (USC), USA * Erasmus Mundus Masters in Photonic Networks E i Engineering i (MAPNET) • Scuola Superiore Sant’Anna (coordinator) • Technische Universität Berlin, Germany • Aston A t University U i it Birmingham, Bi i h UK • Osaka University, Japan Educcation n Reesearcch Extra-EU International Collaborations • University of British Columbia (UBC), Canadanode * Our packet-switching all-photonic experiment • University of California at Santa Barbara (UCSB), (UCSB) USA * at NICT, Japan • University of Tokyo, Japan gy ((KIST), ) S.Korea • Korean Institute of Science and Tecnology • National Institute of ICT (NICT), Japan • Inha University/OPERA, University/OPERA, Incheon, S.Korea • University of California at Davis (UCD), (UCD) USA * • Institut National de la Réchérche Scientifique, Scientifique, Québec, Canada * y (MIT), USA • Massachusetts Institute of Technology • Osaka University, University, Japan * * 1 person is there • Waseda University, University, Japan for 1-2 year stay • Boston University University,, USA * • University of Southern California (USC), USA * Erasmus Mundus Masters in Photonic Networks E i Engineering i (MAPNET) • Scuola Superiore Sant’Anna (coordinator) • Technische Universität Berlin, Germany • Aston A t University U i it Birmingham, Bi i h UK • Osaka University, Japan Technology gy Readiness Level ((TRL)) TRL 1.Basic p principles p observed and reported p TRL 2.Technology concept and/or application formulated TRL 3.Analytical & experimental critical function and/or characteristic proof-of-concept proof of concept TRL 4.Component and/or breadboard validation in laboratory environment TRL 5.Component and/or breadboard validation in relevant environment TRL 6. System/subsystem model or prototype demonstration in a relevant environment (ground or space) TRL 7.System prototype demonstration in a space environment TRL 8.Actual system completed and "Flight qualified" through test and demonstration (ground or space) TRL 9 9.Actual Actual system "Flight Flight proven" proven through successful mission operations Photonic communication and sensing... Macro-area: ac o a ea Photonic o o c Communication Co u ca o • Networks and Services (P. Castoldi) • Optical Communication Systems (E. Ciaramella) O ti l C i ti S t (E Ci ll ) • Optical Communication Theory and Techniques (E. Forestieri) • Optical Fiber i l ib Sensors & Integrated Photonics Subsystems & d h i b (F. Di Pasquale) • Integrated Photonics Technology Center I t t d Ph t i T h l C t (S.Doneda) (S D d ) • High‐Capacity Optical Communication (L. Potì) • Digital & Microwave Photonics (A. Bogoni) • Advanced Technologies f Integrated for I d Photonics Ph i (M. Romagnoli) Scuola S t’A Sant’Anna TeCIP Commun. CNIT IRCPhoNet National Laboratory of Photonic Networks Spin-off Companies World World Universities Universities Industry R&D Italian Italian Universities Universities Spin-off p Companies Photonics ‐ scientific output indicators 25 20 Patents 15 10 5 0 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2004 2005 90 80 70 60 Publications bl 50 40 Journals 30 20 Int’l Conferences 10 0 2001 2002 2003 2006 2007 2008 2009 2010 2011 2012 TeCIP Institute – Laboratori di fotonica 1000 Gb/s Fi ld trial Field ti l in Australia 1 Tb/s @ TeCIP Lab 24 2013: Melbourne-Sydney field trial on TELSTRA network New Melbourne Sydney y y Central Route •Approx 980 km, ~165km improvement on Coastal Route. •13 Amplifiers sites, sites 2 Terminals and 1 ROADM site site. •~500 fibres measured. •Increase Availability from 98.976% to 99.521% •Provide Telstra a low latency competitive advantage. •Provide a low latency direct optical path to Canberra Existing Inland Path. 1275 km Sydney New Central Path, Low Latency. 980 km Canberra Existing Coastal Path, 1145 km Typical Remote Site Melbourne 2013: 1 Tbps Fiber-Optics Comm in Australia Ultra‐fast OTDM* systems (>1 Tbit/s) Optical Communication with Coherent Detection (1 Tbit/s) 1 Tbit/s = 1.000.000.000.000 bit/second Photonic Integrated I C Circuits (PIC) Photonic Integrated Circuits (PIC) TeCIP/CNIT areas can benefit from integrated photonics: Optical Networks and Services Optical p Communication Systems Optical Commun Commun. Theory and Techniques Optical Ultrafast AllAmplification Optical and Sensing Subsystems Digital Photonics Photonic g Integration We are moving in this direction : cleanroom facility available in 2014 Silicon Photonics PIC Fab Cleanroom co-financed fi d by b Tuscany T R i Government Region G t under construction a 12 M€ PIC project substantial gy technology innovation industry attractive unique fab in Italy Integrated Photonics Fab for Silicon Photonics (under construction, available Fall 2014) CENTRO DI FOTONICA INTEGRATA 30 Equipment for PIC Fab Photos of some equipment donated by Pirelli Labs Equipment for PIC Fab Photos of some equipment donated by Pirelli Labs Front Back (in ( grey zone) Front Integrated teg ated Photonics oto cs Technology ec o ogy Center Ce te Expanding the collaboration with industry: InPhoTeC will provide tools, training and rapid prototyping to industries and other institutions for realizing integrated photonics solutions Nanofabrication Facility 800‐m2 facility (350‐m2 clean space) 2 class 1000, 25‐m2 class 100, 260‐m l l 65‐m2 class 10000 Packaging area 70‐m2 available Nanofabrication Equipment 5‐nm resolution electron beam lithography Thin film deposition Etching of silicon and III‐Vs Packaging line including fiber pigtail and flip‐ chip bonding Silicon Photonics complete cycle Silicon Photonics Design Center The CNIT “Silicon Photonics Design Center” is directed by dr. Marco Romagnoli Ge-Si laser a fundamental step, subject of research all around the world Marco Romagnoli, Giampiero Contestabile, Vito Sorianello, Stefano Faralli, Veronica Toccafondo, Philippe Velha, and (as contributing members) Claudio Oton Nieto, Paolo Pintus, Nicola Andriolli, Claudio Porzi Tecnologie avanzate per la fotonica integrata 4 mm Circuiti p progettati g dal TeCIP: Integrated transceiver, 16 QAM transmitter, coherent h t receiver, i PD coherent receiver, DCE circuit,, space switch, OPLL receiver, modulator array, array PD DPSK receiver, q y discriminator frequency 5.5 mm Progetto/Simulazione/Caratterizzazione: TeCIP Institute Pisa Fonderia/Processo tecnologico: IME Singapore g p 35 Microring-based g optical p switch CHARACTERIZATION OF PIC @ 37 innovating through technology
