Gazettabyte

Entries in ECOC 2020 (2)

Wednesday

Dec162020

100-gigabaud optics usher in the era of terabit transmissions

Wednesday, December 16, 2020 at 11:00AM

NeoPhotonics has unveiled a coherent modulator and receiver that operate at over 100 gigabaud.

Telecom operators are in a continual battle to improve the economics of their optical transport networks to keep pace with the relentless growth of IP traffic.

One approach is to increase the symbol rate used for optical transmission. By operating at a higher baud rate, more data can be carried on an optical wavelength.

Ferris Lipscomb

Alternatively, a higher baud rate allows a simpler modulation scheme to be used, sending the same amount of data over greater distances. That is because the fewer constellation points of the simpler modulation scheme help data recovery at the receiver.

NeoPhotonics has detailed two optical components - a coherent driver-modulator and an intradyne coherent receiver (micro-ICR) - that operate at over 100 gigabaud (GBd). The symbol rate suits 800-gigabit systems and can enable one-terabit transmissions.

NeoPhotonics’ coherent devices were announced to coincide with the ECOC 2020 show.

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Ayar Labs’ TeraPhy chiplet nears volume production

Tuesday, December 15, 2020 at 10:21AM

Moving data between processing nodes - whether servers in a data centre or specialised computing nodes used for supercomputing and artificial intelligence (AI) - is becoming a performance bottleneck.

Workloads continue to grow yet networking isn’t keeping pace with processing hardware, resulting in the inefficient use of costly hardware.

Networking also accounts for an increasing proportion of the overall power consumed by such computing systems.

These trends explain the increasing interest in placing optics alongside chips and co-packaging the two to boost input-output (I/O) capacity and reach.

At the ECOC 2020 exhibition and conference held virtually, start-up Ayar Labs showcased its first working TeraPHY, an optical I/O chiplet, manufactured using GlobalFoundries’ 45nm silicon-photonics process.

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