Monolithic Webinar 102015F.pptx - The Integrated Photonic Systems ...

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Oct 20, 2015 - integrated silicon photonics technology & manufacturing ... Corentin Monmeyran (Scribe), MIT ... A Ma
Define the difficult challenges. Create the poten6al solu6ons.

Manufacturing Monolithic Integrated Photonics Lionel C. Kimerling PSMC- AIM Photonics Webinar Series October 20, 2015 http://photonicsmanufacturing.org/

The Photonic Systems Manufacturing Roadmap Leadership

Robert C. Pfahl, Jr, iNEMI, Principal Inves;gator, PSMC Lionel C. Kimerling, MIT, Principal Inves;gator, PSMC Jim McElroy, iNEMI, Execu;ve Director, PSMC

NIST AMTech Technology Working Groups §  Monolithic Integra9on: Lionel C. Kimerling, MIT §  Data Center Emulator: Bob Pfahl, iNEMI §  IoT Emulator: Richard Grzybowski, MACOM §  Emulator Cost Modeling: Elsa OliveO and Randolph Kirchain, MIT §  Photonics Packaging: Bill BoPoms, Third Millennium Test Solu;ons §  Boards, Backplanes, Connectors: John MacWilliams, US Compe;tors §  Assembly and Test: Dick OPe, Promex Industries

Weekly Webinar Series beginning October 20 Roadmap Release on December 7 Agreement to merge this Roadmap into AIM’s IPTR More than 125 companies par:cipated in 2015 AIM Photonics Proprietary

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American Ins:tute for Manufacturing Integrated Photonics Key Technology Manufacturing Areas Lead: American Ins;tute for Manufacturing Integrated Photonics (AIM Photonics) (Research Founda;on SUNY) Established: July 2015 Hub loca9on: New York Funding: $110M federal investment combined with ~ $500M Industry/State cost share Members: 55 companies, 21 States, 20 universi;es, 33 Community Colleges, 16 other organiza;ons Integrated photonics allows designers and manufacturers to put thousands of photonic components together on a single chip: providing significant reduc;ons in size, weight, and power; while drama;cally improving performance and reliability.

Vision: Establish a technology, business and educa;on framework for industry, government and academia to accelerate the transi6on of integrated photonic solu6ons from innova6on to manufacturing-ready deployment in systems.

Datacom / Telecom

Sensing

PIC Array Technologies

RF Photonics

Manufacturing innova9on Centers of Excellence Electronic-Photonic Design Automa:on

Mul:-Project Wafer and Assembly

Inline Controls and Test

Test Assembly and Op:cal Packaging

Distribu;on A: Cleared for Public Release

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Monolithic Integration TWG Charter The goal of the Monolithic TWG is to: •  Evaluate the imperative for future technologies to employ highly integrated photonic systems. •  Catalog the Technology Roadmap for Integrated Photonics Technology. •  Identify Roadblocks and potential Show-Stoppers holding back these developments. •  Communicate this information to the industry supply chain, the AIM program and its stakeholders. •  Continue to catalog this evolving technology roadmap as more is known about the strategic imperative for integrated silicon photonics technology & manufacturing in the US. 3

Monolithic Integration TWG Membership •  •  •  •  •  •  •  •  •  •  •  •  •  •  •  •  • 

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Lionel Kimerling, MIT Corentin Monmeyran (Scribe), MIT Mark Webster, Cisco Luca Alloatti, MIT George Celler, SOITEC, retired Pieter Dumon, IMEC, Luceda Madeleine Glick, U Arizona Mark Beals, MIT Richard Grzybowski, MACOM Irene Sterian, Celestica Jeff Shainline, NIST Mark Wade, MIT Jurgen Michel, MIT Michael Watts, MIT Dirk Englund, MIT Anuradha Agarwal, MIT David Bishop, Boston University

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Kal Shastri, Cisco Alice White, Boston University Jonathan Klamkin, BU/UCSB Bill Bottoms, 3MTS Anthony Ley, Harmonic emeritus Ram Rao, Oclaro Jiashu Chen, Finisar Haisheng Rong, Intel, Richard Otte, Promex Philip Lippel, MIT Rob Stone, Broadcom John Bowers, UCSB Robert Blum, Oclaro Chris Weaver, MIT Caroline Ross, MIT Juejun Hu, MIT Alan Benner, IBM Nicholas Ilyadis, Broadcom Haifeng Liu, Intel

MONOLITHIC INTEGRATION INTRODUCTION SITUATION ANALYSIS DESIGN TOOLS MANUFACTURING EQUIPMENT MANUFACTURING PROCESSES MATERIALS QUALITY/RELIABILITY ENVIRONMENTAL TECHNOLOGY TEST, INSPECTION, MEASUREMENT (TIM) ROADMAP OF QUANTIFIED KEY ATTRIBUTE NEEDS CRITICAL (INFRASTRUCTURE) ISSUES TECHNOLOGY NEEDS PRIORITIZED RESEARCH NEEDS (>5 YEARS RESULTS) PRIORITIZED DEVELOPMENT AND IMPLEMENTATION NEEDS (