• Broadcom's Tomahawk 5 marks the era of the 51.2-terabit switch chip
• The 5nm CMOS device consumes less than 500W
• The Tomahawk 5 uses 512, 100-gigabit PAM-4 (4-level pulse amplitude modulation) serdes (serialisers-deserialisers)
• Broadcom will offer a co-packaged version combining the chip with eight 6.4 terabit-per-second (Tbps) optical engines

Part 1: Broadcom's Tomahawk 5

Broadcom is sampling the world's first 51.2-terabit switch chip.

With the Tomahawk 5, Broadcom continues to double switch silicon capacity every 24 months; Broadcom launched the first 3.2-terabit Tomahawk was launched in September 2014.

"Broadcom is once again first to market at 51.2Tbps," says Bob Wheeler, principal analyst at Wheeler's Network. "It continues to execute, while competitors have struggled to deliver multiple generations in a timely manner."

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Increasing the baud rate of coherent modems benefits optical transport. The higher the baud rate the more data can be sent on a wavelength, reducing the cost-per-bit of traffic.

But engineers have become so good at designing coherent systems that they are now approaching the Shannon limit. 

Tomislav Drenski

At the OFC show earlier this year, Ciena showcased a coherent module operating at 107 gigabaud (GBd). And last year, Acacia, now part of Cisco, announced its next-generation 1.2 terabits-per-second (Tbps) wavelength coherent module operating at up to 140GBd. 

The industry believes that increasing the baud rate to 240+GBd is possible, but each new symbol-rate hike is challenging.

All the components in a modem - the coherent DSP and its digital-to-analogue (DAC) and analogue-to-digital (ADC) converters, the optics, and the analogue drive circuitry - must scale in lockstep.

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Optical interconnect specialist Ayar Labs has announced that it is working with Nvidia, a leader in artificial intelligence (AI) and machine learning silicon, systems and software.

In February Ayar Labs announced a strategic collaboration with the world’s leading high-performance computing (HPC) firm, Hewlett Packard Enterprise (HPE).

Charles Wuischpard

Both Nvidia and HPE were part of the Series C funding worth $130 million that Ayar Labs secured in April.

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Effect Photonics has completed the acquisition of Viasat’s staff specialising in coherent digital signal processing and forward error correction (FEC) technologies and the associated intellectual property.

Harald Graber

The company also announced a deal with Jabil Photonics - a business unit of manufacturing services firm Jabil - to co-develop coherent optical modules that the two companies will sell.

The deals enable Effect Photonics to combine Viasat’s coherent IP with its indium phosphide laser and photonic integrated circuit (PIC) expertise to build coherent optical designs and bring them to market.

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• ADVA expands its multiplexing modules to include the network edge
• The company is developing optical modules as part of a three-pillar business strategy
• ADVA’s merger with ADTRAN is approaching its conclusion

ADVA has expanded its family of multiplexing optical modules with a 40km bidirectional design for access networks. 

Saeid Aramideh

Until now, ADVA’s three multiplexer optical module products have focussed on IP routing and switching.

The multiplexing modules combine lower-speed optical interfaces into a higher-speed port.

The company unveiled its 4-by-10-gigabit MicroMux Edge BiDi, its first multiplexer module for the network edge, at the OFC show held in March in San Diego.

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