Richard Grzybowski Email and Phone Number

Q: What company does Richard Grzybowski work for?

Richard Grzybowski works for MIT Microphotonics CenterIndustry Consortium

MphC Director of Strategic Planning at @ MIT Microphotonics CenterIndustry Consortium

New York, United States

Richard Grzybowski's Location

Steuben County, New York, United States, United States

Richard Grzybowski's Contact Details

Richard Grzybowski work email

Richard Grzybowski personal email

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About Richard Grzybowski

CTO / VP / DIRECTOR - R&D & ENGINEERINGNew Product Development / Start-Up Management / Program Management / IP / Lean / Optoelectronics / Technology Roadmaps / Process Improvement / Hardware & SoftwareProven leader with accomplishments in building/directing wide-ranging R&D programs in electronics, optoelectronics, supercomputing, wireless, silicon photonics and large systems for $Multi-Million start-up Photonic Controls, $8B Corning Incorporated and $85B United Technologies. Well-developed skills in strategic planning, discovery process, engineering, program management, technology roadmaps, development methods and commercialization of new products & systems. Contribute by: Building a robust new product pipeline to drive organic growth Developing processes to optimize efficiency and reduce manufacturing costs Leading R&D with complex international and FedGov requirements Driving discovery and development, minimizing risk and improving ROIsA high-energy leader with determination and vision. Build strong teams by creating a positive work environment and rewarding top performance. Earned a Ph.D. in Electrical Engineering from the University of Connecticut, an MSEE from Rensselaer Polytechnic Institute and a BSEE from Yale University. Holds 24 US patents. 2018 UCONN Academy of Distinguished Engineering inductee.  $multi-million start-up wrapping electronic system controls around photonic cores. Leading business development and government programs in optical switching systems for high performance supercomputers, silicon microphotonic design, sensor development and high voltage ionization systems. Driving product and technology strategy. Setting the technology direction - building and executing against project plans that support engineering/product development goals. Developing strategic plans for the direction and control of product development activities while providing technical direction and guidance, as well as hands‐on program management,.

Richard Grzybowski's Current Company Details

Mit Microphotonics CenterIndustry Consortium

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MphC Director of Strategic Planning

New York, United States

Richard Grzybowski Work Experience Details

Mphc Director Of Strategic Planning

Mit Microphotonics CenterIndustry Consortium

New York, United States
Vp Of Technologies

Ranovus Inc. May 2023 - Present

Ottawa, Ontario, Ca

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Chairman Of The Board

Mit Microphotonic Center Communication Technology Roadmap Oct 2010 - Jun 2024

Leadership of Industrial Board. Development of new roadmapping initiatives. Delivery of Position Whitepapers.
General Manager, Silicon Photonics

Macom May 2019 - Jan 2023

 Responsible for all silicon photonic development across three sites within MACOM Lead aggressive tape-out schedule with multiple foundries internationally Lead development of MACOM PDK elements, control and evaluation modules Deep understanding of silicon photonic process development Lead packaging and test development for all silicon photonic products Lead proposal development to extend MACOM silicon photonic products into new and adjacent markets
Director Of Research And Development

Macom Sep 2014 - May 2019

Silicon Photonics (SiPh) is an emerging technology that uses semiconductor-grade silicon as the platform for the integration of active and passive integrated photonic circuits along with electronic components on a single micro-chip. With the necessary expertise, the technology enables innovative solutions utilizing silicon optical circuits and micro-optics, while allowing the optimal integration of control electronics and system packaging. MACOM Integrated Photonic Solutions is focused on integrated silicon microphotonics. These technologies combine high performance optics with low power and small size attributes. Silicon microphotonics in particular brings the benefits of high-density, low-cost and performance scalability, similar to silicon CMOS chip manufacturing.
Chief Technology Officer

Photonic Controls, Llc Oct 2012 - Sep 2014

Horseheads, Ny, Us

New Business Development and Leadership of Advanced Government Programs. $multi-million start-up wrapping electronic system controls around photonic cores. Leading business development and government programs in optical switching systems for high performance supercomputers, silicon microphotonic design, sensor development and high voltage ionization systems. Driving product and technology strategy. Setting the technology direction - building and executing against project plans that support engineering/product development goals. Developing strategic plan for the direction and control of product development activities while providing technical direction and guidance, as well as hands‐on program management, for all engineering activities.

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Executive Director Of Opsis Center

Opsis Nov 2013 - May 2014

Operational leadership of Silicon Photonic (SiP) foundry access service and PDK development & maintenance. Streamline department processes for Export Control, customer development, SiP community education via workshops and technical documentation.
General Chair

Ieee Optical Interconnects Conference May 2013 - May 2014

This IEEE Photonics Society Optical Interconnects Conference seeks to facilitate collaboration required to drive new interconnect architectures and technologies from concepts in research labs to commercial realities. To this end, the conference covers the complete spectrum of high performance interconnect challenges in network systems, architectures, applications, subsystems, and devices. In addition, the crucial role that any interconnect strategy plays can only be fully realized when optimized at the system level. This is particularly so in large future peta- and exa-scale platforms in datacenters and supercomputers. So we look forward to the participation of system architects, programmers and everyone researching the interconnect role in a more self-aware next generation platform.The conference provides a mix of high caliber invited talks in addition to refereed oral and poster papers, each providing a unique opportunity to learn and exchange ideas with the authors. In addition, all attendees have the option to participate in working groups to discuss and design a conceptual solution to a predefined design problem germane to the world of interconnects science. The problem sessions establish an overall focus for the conference as well as important background in the topic areas - enabling all participants to more richly engage throughout the conference. This year the problem sessions will be held on Sunday afternoon, May 4th and will feature a problem related to optical interconnects. The problem session is a fun, very engaging, ice breaking way to meet people with skills that complement your own. We urge you to consider arriving on Sunday, May 4th before 1pm so you can take advantage of the opportunity.
Chairman Of The Board Of Directors

Optoelectronics Industry Development Association (Oida) Nov 2010 - Oct 2012

Completed the merger of OIDA to OSA, managed the transfer of the legal entity and all of the assets to OSA, and continued as the elected CoB of OIDA as a distinct and successful entity within OSA.
Director, Systems Engineering & Program Management

Corning, Inc. Oct 2005 - Oct 2012

Corning, New York, Us

Reporting to the SVP and Director of Research, I developed and lead an organization whose mission is to enable accelerated innovation and project learning by developing and deploying systems engineering & systems-thinking project/program leaders skilled in both disciplines across Corning’s early stage projects. This directorate serves as a development pipeline for systems-thinking project leaders that greatly increase the probability of project success – the more complex the project, the greater the contribution and ongoing risk reduction throughout the project’s life. Projects I sponsor include high performance computer interconnects, precision glass bumps and the recently completed $25MM OSMOSIS HPC optical switch and OSMOSIS II projects, which were delivered to a delighted government sponsor.

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Secretary

International Council On Systems Engineering Jan 2010 - Jan 2012

San Diego, Ca, Us

Secretary and BoD member for INCOSE.

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Manager, Systems Engineering Research

Corning Incorporated Sep 2000 - Sep 2005

Responsible for the enculturation of the Systems Engineering discipline at Corning and the definition and leadership of a program management culture that effectively executes their stage-gate process to realize system level products. In addition, I was responsible for the $20MM DoE OSMOSIS contract which delivered what remains the world’s fastest high speed switched optical back plane for the high performance super computer market.
Manager, Electronics Design & Analysis

United Technologies Research Center Jan 1999 - Sep 2000

East Hartford, Ct, Us

I led three teams of researchers focused in the Wireless Communication Systems, Power Electronics and Electric Machines, and Predictive Reliability areas. My personal research was focused on the physics based reliability and wireless communication modeling areas. This team’s goal was the development of a methodology for employing statistical methods to account for uncertainty in reliability prediction models of both mechanical and electrical components and systems. The second research area I led concentrated on the development of a wireless communication modeling technology that employed a three pronged approach for characterizing unique wireless channels (e.g. elevator hoistways and gas turbine engines), assessing and optimizing the communication hardware and modulation techniques (e.g. FHSS, DSSS, etc.), and optimizing the communication protocol employed (e.g. 802.11, CAN, etc.). Products developed with these technologies achieved sales of ~ $35MM/yr.

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Manager, High Temperature Electronics & Rf Design

United Technologies Research Center Jan 1998 - Sep 1999

East Hartford, Ct, Us

 Technical Manager for Harsh Environment Electronics, Packaging & Reliability. Led research microcircuit fabrication, probabilistic physics of failure reliability prediction, advanced electronics packaging and wireless technology teams.  Research areas focused on high temperature (>600C) electronics for gas turbine engines.  Products developed achieved sales of ~ $30MM/yr.

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Sr. Research Scientist

United Technologies Research Center Jan 1994 - Jan 1998

East Hartford, Ct, Us

 Manager of Integrated Electronics, Electronics Packaging, and Reliability - ten research engineers and all of the Electronics Research support staff. Principal Investigator of the High Temperature Distributed Control Systems (HiTeC) program. This ARPA-funded program brought $20M in contracts and involved 9 companies. Led research in high temperature/harsh environment electronic component characterization and modeling, electronic packaging and microwave signal propagation.  Products developed achieved sales of ~ $25MM/yr.

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Richard Grzybowski Skills

Microsoft Office Microsoft Excel R&d Engineering Management Systems Engineering Program Management Electronics Product Development Engineering Optics Integration Manufacturing Semiconductors Electrical Engineering System Architecture Process Engineering Six Sigma Wireless Simulations Strategy Start Ups Product Management Research And Development Cross Functional Team Leadership Project Management Process Improvement Analysis System Design Fiber Optics Leadership Design Of Experiments Requirements Management Sensors Technology Management Strategic Planning Requirements Analysis Dod Earned Value Management Systems Design Process Simulation Lean Manufacturing Business Process Improvement Photonics Microwave Engineering Optoelectronics Wireless Technologies Fdtd Silicon Photonic Design

Richard Grzybowski Education Details

University Of Connecticut

Electromagnetics & Device Physics
Rensselaer At Work

Electrical Engineering
Yale University

Electrical And Electronics Engineering

Frequently Asked Questions about Richard Grzybowski

What company does Richard Grzybowski work for?

Richard Grzybowski works for Mit Microphotonics CenterIndustry Consortium

What is Richard Grzybowski's role at the current company?

Richard Grzybowski's current role is MphC Director of Strategic Planning.

What is Richard Grzybowski's email address?

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What is Richard Grzybowski's direct phone number?

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What schools did Richard Grzybowski attend?

Richard Grzybowski attended University Of Connecticut, Rensselaer At Work, Yale University.

What skills is Richard Grzybowski known for?

Richard Grzybowski has skills like Microsoft Office, Microsoft Excel, R&d, Engineering Management, Systems Engineering, Program Management, Electronics, Product Development, Engineering, Optics, Integration, Manufacturing.

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