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Entries in OSFP-XD (2)

Friday
Nov042022

Taking a unique angle to platform design

  • 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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Thursday
Sep232021

The future of optical I/O is more parallel links

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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