Gazettabyte

Entries in MIMO (6)

Friday

Dec172021

Marvell's 50G PAM-4 DSP for 5G optical fronthaul

Friday, December 17, 2021 at 12:14PM

Marvell has announced the first 50-gigabit 4-level pulse-amplitude modulation (PAM-4) physical layer (PHY) for 5G fronthaul.

The chip completes Marvell’s comprehensive portfolio for 5G radio access network (RAN) and x-haul (fronthaul, midhaul and backhaul).

Marvell's wireless portfolio of ICs. Source: Marvell.

Marvell has announced what it claims is an industry-first: a 50-gigabit PHY for the 5G fronthaul market.

Dubbed the AtlasOne, the PAM-4 PHY chip also integrates the laser driver. Marvell claims this is another first: implementing the directly modulated laser (DML) driver in CMOS.

“The common thinking in the industry has been that you couldn’t do a DML driver in CMOS due to the current requirements,” says Matt Bolig, director, product marketing, optical connectivity at Marvell. “What we have shown is that we can build that into CMOS.”

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Friday

Dec182015

SDM and MIMO: An interview with Bell Labs

Friday, December 18, 2015 at 9:50AM

Bell Labs is claiming an industry first in demonstrating the recovery in real time of multiple signals sent over spatial-division multiplexed fibre. Gazettabyte spoke to two members of the research team to understand more.

Part 2: The capacity crunch and the role of SDM

The argument for spatial-division multiplexing (SDM) - the sending of optical signals down parallel fibre paths, whether multiple modes, cores or fibres - is the coming ‘capacity crunch’. The information-carrying capacity limit of fibre, for so long described as limitless, is being approached due to the continual yearly high growth in IP traffic. But if there is a looming capacity crunch, why are we not hearing about it from the world’s leading telcos?

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Peter Winzer,

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Data centre interconnect,

optical networking,

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Thursday

Dec102015

Bell Labs demos real-time MIMO over multicore fibre

Thursday, December 10, 2015 at 8:52AM

Part 1 of 2

Bell Labs, the research arm of Alcatel-Lucent, has used a real-time receiver to recover a dozen 2.5-gigabit signals sent over a coupled three-core fibre. Until now the signal processing for such spatial-division multiplexed transmissions have been done offline due to the computational complexity involved.

“The era of real-time experiments in spatial-division multiplexing is starting and this is the very first example” - Peter Winzer

“The era of real-time experiments in spatial-division multiplexing is starting and this is the very first example,” said Peter Winzer, head of the Optical Transmission Systems and Networks Research Department at Bell Labs. “Such real-time experiments are the next stepping stone towards a true product implementation.”

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Wednesday

Feb202013

Space-division multiplexing: the final frontier

Wednesday, February 20, 2013 at 8:13AM

System vendors continue to trumpet their achievements in long-haul optical transmission speeds and overall data carried over fibre.

Alcatel-Lucent announced earlier this month that France Telecom-Orange is using the industry's first 400 Gigabit link, connecting Paris and Lyon, while Infinera has detailed a trial demonstrating 8 Terabit-per-second (Tbps) of capacity over 1,175km and using 500 Gigabit-per-second (Gbps) super-channels.

"Integration always comes at the cost of crosstalk"

Peter Winzer, Bell Labs

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Tuesday

Feb072012

The evolution of optical networking

Tuesday, February 7, 2012 at 9:37AM

An upcoming issue of the Proceeedings of the IEEE will be dedicated solely to the topic of optical networking. This, says the lead editor, Professor Ioannis Tomkos at the Athens Information Technology Center, is a first in the journal's 100-year history. The issue, entitled The Evolution of Optical Networking, will be published in either April or May and will have a dozen invited papers.

One topic that will change the way we think about optical networks is flexible or elastic optical networks.

Professor Ioannis Tomkos

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Tuesday

Jan312012

OFC/NFOEC 2012: Technical paper highlights

Tuesday, January 31, 2012 at 10:34AM

Source: The Optical Society

Novel technologies, operators' experiences with state-of-the-art optical deployments and technical papers on topics such as next-generation PON and 400 Gigabit and 1 Terabit optical transmission are some of the highlights of the upcoming OFC/NFOEC conference and exhibition, to be held in Los Angeles from March 4-8, 2012. Here is a taste of some of the technical paper highlights.

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