Joint meeting with IEEE ENCS and IEEE Bangalore for SSCS presentation
Optimizing Power vs. Data Rate in Laser Based Data Transmission Systems. Optical power optimization made possible via flow rate control and without modifications to the optical transmission components (VCSEL or receiver)
Joint meeting for birds of a feather (BOF) interested in solid state circuits and collaboration on this subject. Clay Cranford will present a short talk entitled " Optical Transmission Optimization Case Study"
https://ieeemeetings.webex.
Date and Time
Location
Hosts
Registration
- Date: 25 Jul 2020
- Time: 09:30 AM to 11:00 AM
- All times are (GMT-05:00) US/Eastern
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- Contact Event Host
- Co-sponsored by Paul Goodson
- Starts 18 July 2020 05:20 PM
- Ends 25 July 2020 09:00 AM
- All times are (GMT-05:00) US/Eastern
- No Admission Charge
Speakers
Clay
Optical Optimization Case Study
Optimizing Power vs. Data Rate in Laser Based Data Transmission Systems
Biography:
Hayden C Cranford ( Clay) is an inventor and engineering erofessional with successful experience in high-speed circuits and systems. He has led teams of engineers to develop all facets of designs for high-speed serial links and optical transmission systems. He patented ideas for new lower power solutions for various facets of high-speed chip designs.
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Developed novel power savings for clients’ high-speed serial links, solving chronic power dissipation issues (patents filed at multiple companies for different approaches).
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Delivered design and technical leadership for state-of-the-art gigabit class serial links in 14nm technology, enabling maximum speed for minimal power use. Worked on follow on smaller nodes as well.
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Led intellectual property (IP) and patent teams generating 150 patents. Recognized as IBM and GlobalFoundries Master Inventor, award granted <1% of inventors.
- Recognized as IBM Raleigh Inventor of the Year
Email:
Agenda
Talk ~ 1/2 hour
Questions / Comments ~ 1/2 hour
Media
Optical Optimization Case Study | Optimizing Power vs. Data Rate in Laser Based Data Transmission Systems | 664.13 KiB |