Infinera’s coherent pluggables for XR optics will also address the company’s metro needs.
Coherent pluggables now dominate the metro market where embedded designs account for just a fifth of all ports, says Infinera.
Robert Shore
“As we grow our metro business, we need our own pluggables if we want to be cost-competitive,” says Robert Shore, senior vice president of marketing at Infinera.
Infinera’s family of pluggables implementing the XR optics concept is dubbed ICE-XR.
XR optics splits a coherent optical signal into Nyquist sub-carriers, each carrying a data payload. Twenty-five gigabits will likely be the sub-carrier capacity chosen.
XR optics can be used for point-to-point links where all the sub-carriers go to the same destination. But the sub-carriers can also be steered to different destinations, similar to how breakout cables are used in the data centre.
With XR optics, a module can talk to several lower-speed ones in a point-to-multipoint arrangement. This enables optical feeds to be summed, ideal for traffic aggregation applications such as access and 5G.
Open XR Forum
Infinera detailed its ICE-XR pluggables during the OFC virtual conference and exhibition.
The event coincided with the launch of the Open XR Forum whose members include network operators, Verizon, Lumen Technologies (formerly CenturyLink), Windstream and Liberty Global.
Members of the Open XR Forum span sub-component makers, systems vendors like Infinera, and network operators. The day the Open XR Forum website was launched, Infinera received a dozen enquiries from interested parties.
The Open XR Forum will define standards for XR optics such as how the networks are managed, the form factors used, their speeds and power requirements.
“There are a lot of underlying operational aspects that need to be worked out,” says Shore.
XR optics will use a similar model to ZR+ coherent optics. ZR+ delivers enhanced transmission performance compared to the OIF’s 400ZR coherent standard. “ZR+ is not a standard but rather a set of open specifications that can be used by anyone to create a product, and that is exactly the approach we are taking with XR optics,” says Shore.
Over the last 18 months, Infinera has met with 150 network operators regarding XR optics. “We wanted to validate this is a worthwhile technology and that people wanted it,” says Shore.
There have also been 40 network operator trials of the technology by the end of July. BT has used the technology as part of a metro aggregation trial while Virgin Media and American Tower each tested XR optics over PON.
More members have joined the Open XR Forum and will be announced in the autumn.
ICE-XR
ICE-XR’s name combines two concepts.
The first, ICE, refers to the Infinite Capacity Engine, the optics and coherent digital signal processor (DSP) that is the basis for Infinera’s ICE4 and newer ICE6 coherent transmission designs. ICE4 was Infinera’s first product to use Nyquist sub-carriers.
“XR”, meanwhile, borrows from 400ZR. Here, the ‘X’ highlights that XR supports point-to-point coherent communications, like 400ZR, and point-to-multipoint.
“ICE-XR’s release will be timed in conjunction with the official ratification of the specifications from the Open XR Forum,” says Shore.
Infinera’s ICE-XR portfolio will include 100, 400, and 800-gigabit optical modules.
The 100-gigabit ICE-XR, based on four 25-gigabit sub-carriers, will be offered as QSFP-28, QSDP-DD and CFP2 form factors. The 400-gigabit and 800-gigabit variants, using 16 and 32 sub-carriers respectively, will be available as QSFP-DD and CFP2 modules.
The 100-gigabit and 400-gigabit ICE-XR modules will be released first in 2022.
The 400-gigabit ICE-XR will also double as Infinera’s ZR+ offering when used point-to-point.
Shore says its first ZR+ module will not support the oFEC forward-error correction (FEC) used by the OpenZR+ multi-source agreement (MSA).
“The performance hit you take to ensure multi-vendor interoperability is vastly outweighed by the benefits of the improved [optical] performance [using a proprietary FEC],” says Shore.
Merchant DSP suppliers and the systems vendors with in-house DSP designs all support proprietary FEC schemes that deliver far better performance than oFEC, says Shore.
Infinera is developing a monolithic photonic integrated circuit (PIC) for ICE-XR manufactured at its indium phosphide facility.“ICE-XR will increase the utilisation of our fabrication centre, especially when pluggables produce higher volumes compared to embedded [coherent designs],” says Shore.
Infinera says more than one coherent DSP will be needed for the ICE-XR product portfolio. The modules used have a range of power profiles. The QSFP-28 module will need to operate within 4-5W, for example, while the QSFP-DD implementing ZR+ will need to be below 20W. Developing one DSP to span such a power range is not possible.
Business model
The Open XR Forum’s specifications will enable vendors to develop their own XR optics implementations.
Infinera will also license aspects of its design including its coherent DSPs. The aim, says Shore, is to develop as broad an ecosystem as possible: “We want to make XR optics an industry movement.”
Shore stresses ZR+ interoperability is not a must for most applications. Typically, a vendor’s module will be used at both ends of a link to benefit from the ZR+’s custom features. But interoperability is a must for XR optics given its multi-rate nature. The different speed modules from different vendors must talk to each other.
“Because you have multi-generational and multi-rate designs, it becomes even more important to support multi-vendor interoperability,” says Shore. “It gives the network operators more choice, freedom and flexibility.”
XR optics for the data centre
Infinera says there are developments to use XR optics within the data centre.
As data rates between equipment rise, direct-detect optics will struggle to cope, says Shore. The hierarchical architectures used in data centres also lend themselves to a hub-and-spoke architecture of XR optics.
“This type of technology could fit very nicely into that environment once the capacity requirements get high enough,” says Shore.
For this to happen, power-efficient coherent designs are required. But first, XR optics will need to become established and demonstrate a compelling advantage in a point-to-multipoint configuration.
XR optics will also need to replace traditional direct-detect pluggables that continue to progress; 800-gigabit designs are appearing and 1.6-terabit designs were discussed at OFC. Co-packaged optics is another competing technology.
“You are not looking at the 2022-23 timeframe, but maybe 2025-26,” says Shore.
Covid-era shows
Infinera postponed its customer meetings that pre-covid would take place at OFC till after the show to avoid clashing with the online sessions. Once the meetings occurred, customers were given a tour of Infinera’s virtual OFC booth.
Infinera’s solutions marketing team also divided between them the OFC sessions of interest to attend. The team then ‘met’ daily to share their learnings.
“I do think that the world of in-person events has changed forever,” says Shore. Infinera attended 40 events in 2019. “We will probably do fewer than 20 [a year] going forward,” says Shore.