Gazettabyte is asking industry figures for their thoughts after attending the recent OFC show in San Diego. Here are the thoughts of BT's Professor Andrew Lord, author and consultant, Daryl Inniss, and Cignal AI's Kyle Hollasch.

Andrew Lord, senior manager of research and optical networks, BT Group.

I am excited to see the developments around 100G ZR pluggables. Assuming they can hit the power requirements, I can imagine them being used across the edge for years to come.

I learned that there is some confidence in the optical community that optics has a significant part to play in the AI revolution. But this is still primarily associated with high bit rate transport, whether it be fibres or inter-chip. Photonic integrated switches to assist with future GPUs is, on the other hand, likely to be limited by the wavelength of light and resulting small numbers of components on a realistic-sized photonic integrated circuit.

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Deutsche Telekom is redesigning its domestic optical network and has chosen Nokia as its equipment supplier.

“They are re-architecting and rolling out, in a short time, a huge portion of their optical network,” says Kyle Hollasch, (pictured) director of optical portfolio marketing, Nokia. “We are displacing in many parts of the network four different vendors.”

Network architecture

Deutsche Telekom’s legacy mesh-based wavelength-division multiplexing (WDM) network uses equipment from several vendors. In the last decade, Deutsche Telekom also added to the core an IP-optical solution from Cisco Systems.

Now, the CSP is replacing the mesh-WDM network and the Cisco IP-optical core with an OTN-WDM core from Nokia.

“They are unifying their traffic from all of their business services, government services, 5G anyhaul and the core IP network onto one core WDM network,” says Hollasch. 

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Nokia has detailed its next-generation PSE-3 digital signal processor (DSP) family for coherent optical transmission.

The PSE-3s is the industry’s first announced coherent DSP that supports probabilistic constellation shaping, claims Nokia.

Probabilistic shaping is the latest in a series of techniques adopted to improve coherent optical transmission performance. These techniques include higher-order modulation, soft-decision forward error correction (SD-FEC), multi-dimensional coding, Nyquist filtering and higher baud rates.

Kyle Hollasch

“There is an element here that the last big gains have now been had,” says Kyle Hollasch, director of product marketing for optical networks at Nokia.

Probabilistic shaping is a signal-processing technique that squeezes the last bit of capacity out of a fibre’s spectrum, approaching what is known as the non-linear Shannon Limit.

“We are not saying we absolutely hit the Shannon Limit but we are extremely close: tenths of a decibel whereas most modern systems are a couple of decibels away from the theoretical maximum,” says Hollasch.

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