Optica Online Industry Meeting: Linear Drive Optics
30 April 2024 10:00 - 11:30
Eastern Daylight/Summer Time (US & Canada) (UTC -04:00)
Linear Pluggable Optics (LPO) offers a viable solution to address low power consumption and high bandwidth demands of data centers. LPO simplifies design with a pluggable module interface, facilitating easy plugging and unplugging of transceivers. This design enhances optical interconnection flexibility, simplifies fiber cabling, and streamlines equipment maintenance, allowing for efficient system management and upgrades. Furthermore, LPO technology eliminates expensive DSPs from the module, reducing the bill-of-materials in a given module. While offering power and cost savings, Linear Drive faces technical and business challenges that has limited widespread adoption. This Meeting takes a deep dive into LPO technology, examining its benefits, challenges, and its role in the data center optics landscape.
Speakers
Andy Bechtolsheim
Arista, Chairman, Chief Development Officer and Co-Founder
Andreas “Andy” Bechtolsheim is Chairman, Chief Development Officer and Co-Founder of Arista Networks. Previously, Andy was a Co-Founder and Chief System Architect at Sun Microsystems, responsible for next generation server, storage, and network architectures. Andy received a M.S. in Computer Engineering from Carnegie Mellon University in 1976 and was a doctoral student in Computer Engineering at Stanford University from 1977 to 1982. He has been honored with a Fulbright scholarship, the Stanford Entrepreneur Company of the year award, the Smithsonian Leadership Award for Innovation, the EY 2015 US Entrepreneur of the Year Award (together with Jayshree Ullal) and is a member of the National Academy of Engineering.
Son Le
Nubis Communications, Director of System Integration & Testing
Son Thai Le has worked in the field of engineering since 2010. Son started as a Research Assistant at the Laboratory of Radio Transmitter Devices at SFedU, where they proposed a novel and effective method to control the chaotic regime of semiconductor laser subjected to external injection, proposed a novel analytical method for analysing the nonlinear dynamics of semiconductor laser subjected to external injection, and proposed and demonstrated a novel self-heterodyne detection method for amplitude-shift-keying optical signals. From 2013 to 2016, they worked at Aston University as a Postdoctoral Research Fellow and PhD student. During this time, they demonstrated the world first transmission based on the modulation of continuous part of the nonlinear signal spectrum, achieving a record distance reach of 7344km, and demonstrated two novel flexible nonlinear compensation techniques for CO-OFDM, which can be applied effectively in WDM transmissions and optical links with ROADM. Son also invented a novel quasi-pilot-aided phase noise compensation technique for CO-OFDM systems, which effectively reduces the pilot subcarrier overhead by a factor of 2. Since 2016, they have been a Member of Technical Staff and Research Engineer at Nokia Bell Labs, and since 2022 they have been a Principal Systems Engineer at Nubis Communications.
Son Thai Le attended Hanoi University of Science and Technology from 2006 to 2007. From 2007 to 2012, they attended Southern Federal University (former Rostov State University) and received a Bachelor of Engineering (B.Eng.) in Electrical, Electronics and Communications Engineering. Son then attended Aston University from 2013 to 2016, where they earned a Doctor of Philosophy (Ph.D.) in Laser and Optical Engineering.
Tiger Ninomiya
Accelink Technologies Co., Principal Technologist
Tiger Ninomiya is currently a Principal Technologist at Accelink USA Corporation, where he actively engages with Accelink’s latest technologies, including optical transceivers for datacom and telecom, as well as other optical components, modules, and subsystems. With over 12 years of experience in fiber optics, telecom, and datacom, he actively participates in standard groups and industry consortia, such as IEC, OIF, IEEE, ITU-T, and MSAs such as QSFP-DD, SFP-DD, OSFP, and LPO. He has held leadership roles in organizations such as IEC, TIA, and COBO. In the past, Tiger was heavily involved in the development and standardization of VSFF fiber optic connectors.