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Entries in Chris Cole (5)

Wednesday
Feb222023

OFC 2023 show preview

DateWednesday, February 22, 2023 at 1:41PM

  • Sunday, March 5 marks the start of the Optical Fiber Communication (OFC) conference in San Diego, California
  • The three General Chairs - Ramon Casellas, Chris Cole, and Ming-Jun Li - discuss the upcoming conference

OFC 2023 will be a show of multiple themes. That, at least, is the view of the team overseeing and coordinating this year's conference and exhibition.

General Chair Ming-Jun Li of Corning who is also the recipient of the 2023 John Tyndall Award (see profiles, bottom), begins by highlighting the 1,000 paper submissions, suggesting that OFC has returned to pre-pandemic levels.

Ramon Casellas, another General Chair, highlights this year's emphasis on the social aspects of technology. "We are trying not to forget what we are doing and why we are doing it," he says.

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Friday
Nov042022

Taking a unique angle to platform design

DateFriday, November 4, 2022 at 8:37PM

  • A novel design based on a vertical line card shortens the trace length between an ASIC and pluggable modules.
  • Reducing the trace length improves signal integrity while maintaining the merits of using pluggables.
  • Using the vertical line card design will extend for at least two more generations the use of pluggables with Ethernet switches.

The travelling salesperson problem involves working out the shortest route on a round-trip to multiple cities. It's a well-known complex optimisation problem.

Chris Cole

Systems engineers face their own complex optimisation problem just sending an electrical signal between two points, connecting an Ethernet switch chip to a pluggable optical module, for example.

Sending the high-speed signal over the link with sufficient fidelity for its recovery requires considerable electronic engineering design skills. And with each generation of electrical signalling, link distances are getting shorter.

In a paper presented at the recent ECOC show, held in Basel, consultant Chris Cole, working with Yamaichi Electronics, outlined a novel design that shortens the distance between an Ethernet switch chip and the front-panel optics.

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Friday
Oct072022

ECOC '22 Reflections - Part 2 

DateFriday, October 7, 2022 at 10:33AM

Gazettabyte is asking industry and academic figures for their thoughts after attending ECOC 2022, held in Basel, Switzerland. In particular, what developments and trends they noted, what they learned, and what, if anything, surprised them. 

maytikka, Shutterstock.com

In Part 2, Broadcom‘s Rajiv Pancholy, optical communications advisor, Chris Cole, LightCouting’s Vladimir Kozlov, Ciena’s Helen Xenos, and Synopsys’ Twan Korthorst share their thoughts.

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Thursday
Sep232021

The future of optical I/O is more parallel links

DateThursday, September 23, 2021 at 7:37AM

Chris Cole has a lofty vantage point regarding how optical interfaces will likely evolve.

As well as being an adviser to the firm II-VI, Cole is Chair of the Continuous Wave-Wavelength Division Multiplexing (CW-WDM) multi-source agreement (MSA). 

Chris Cole

The CW-WDM MSA recently published its first specification document defining the wavelength grids for emerging applications that require eight, 16 or even 32 optical channels.

And if that wasn’t enough, Cole is also the Co-Chair of the OSFP MSA, which will standardise the OSFP-XD (XD standing for extra dense) 1.6-terabit pluggable form factor that will initially use 16, 100 gigabits-per-second (Gbps) electrical lanes. And when 200Gbps electrical input-output (I/O) technology is developed, OSFP-XD will become a 3.2-terabit module. 

Directly interfacing with 100Gbps ASIC serialiser/ deserialiser (serdes) lanes means the 1.6-terabit module can support 51.2-terabit single rack unit (1RU) Ethernet switches without needing 200Gbps ASIC serdes required by eight-lane modules like the OSFP.

“You might argue that it [the OSFP-XD] is just postponing what the CW-WDM MSA is doing,” says Cole. “But I’d argue the opposite: if you fundamentally want to solve problems, you have to go parallel.”

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Monday
Jun292020

CW-WDM MSA charts a parallel path for optics  

DateMonday, June 29, 2020 at 11:44AM

Artificial intelligence (AI) and machine learning have become an integral part of the businesses of the webscale players.

The mega data centre players apply machine learning to the treasure trove of data collected from users to improve services and target advertising.

They can also use their data centres to offer cloud-based AI services.

Training neural networks with data sets is so intensive that it is driving new processor and networking requirements.

It is also impacting optics. Optical interfaces will need to become faster to cope with the amount of data, and that means interfaces with more parallel channels.

Anticipating these trends, a group of companies has formed the Continuous-Wave Wavelength Division Multiplexing (CW-WDM) multi-source agreement (MSA).

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