Ciena sends a 1.6T optical lambda over a 470km link
- Ciena has detailed the first live field trial using its WaveLogic 6 Extreme coherent modem.
- The WaveLogic 6 modem will be generally available from the end of the month.
Ciena's newest coherent optical modem has sent 1.6 terabits of data over a 470km link. The field trial used Ciena's WaveLogic 6 Extreme coherent modem in telecom operator Arelion's live network.
The link connects an Equinix data centre in Ashburn to a Telxius submarine cable landing station, both sites in the state of Virginia.
"The fact that we are achieving 1.6-terabit wavelengths across close to 500 kilometres is a testament to the performance and integrity of the design," says Helen Xenos, senior director of portfolio marketing at Ciena.
Ciena has won over 20 orders for the WaveLogic 6 Extreme from telecom operators and hyperscalers.
In Ciena's latest quarterly results, CEO Gary Smith mentioned how Ciena had won business with significant cloud providers covering terrestrial, submarine, and coherent pluggable applications. "The majority [of these are] driven by expected growth in AI and cloud traffic," said Smith.
WaveLogic 6 Extreme DSP
Ciena announced its WaveLogic 6 Extreme digital signal processor (DSP) early in 2023.
The WaveLogic 6 Extreme is the industry’s first 3nm CMOS process coherent DSP with a maximum symbol rate of 200 gigabaud (GBd). Current leading coherent DSPs deployed use symbol rates ranging from 120-150GBd and support up to 1.2-terabit wavelengths.
The Ciena DSP can execute 1,600 trillion (1.6 x 1015) operations per second and uses the equivalent of 4km of on-chip copper interconnect.
In contrast, Ciena’s leading deployed DSP device—the WaveLogic 5 Extreme, announced in 2019—is a 7nm CMOS DSP. Over 300 customers have ordered the WaveLogic 5 Extreme.
When it was first announced, the WaveLogic 5 had a baud rate ranging from 60 to 95GBd. Now, its baud rate ranges from 71.0 to 106.9GBd. This highlights how the coherent modem performance has been improved over the years and the same should be expected for the WaveLogic 6 Extreme.
Arelion trial
The Arelion trial is the first Ciena has announced.
"It's a high bandwidth route connecting a submarine landing station to the data centre capital of the world - Ashburn, Virginia," says Xenos. "It's an ideal link to show how WaveLogic 6 can support this massive data volume transmission at today's fastest speeds."
The optical wavelength sent 1.6 terabits per second (Tbps) of data over nearly 500 km reach. The WaveLogic 5 Extreme, when first announced, sent 800Gbps some 200km.
"The performance that we can achieve at the highest line rate with WaveLogic 6 is better than what we were able to achieve at the highest line rate with WaveLogic 5 Extreme," says Xenos. This is because a 3nm CMOS process can cram more digital logic on-chip, enabling the execution of advanced digital signal processing algorithms.
The WaveLogic 6 Extreme improves spectral efficiency by 15 per cent over existing links. The device also delivers 0.25-1 decibel (dB) of signal performance improvement by better tackling nonlinearities introduced by the communication channel during transmission.
The DSP also uses multi-dimensional coding technology to tackle noisy and nonlinear impaired fibre links.
Ciena expects to be able to send 1.6-terabit wavelengths several hundred kilometres over metro networks that feature reconfigurable optical add-drop multiplexers (ROADMs).
The Arelion trial used Ciena's Waveserver, a two-rack-unit (2RU) optical transport chassis and Ciena's open 6500 reconfigurable line system (see image below).
The Waveserver chassis uses insertable sleds, each sled hosting two WaveLogic 6 Extreme coherent modems. Four sleds fit into the Waveserver chassis for a total of eight optical wavelengths and 12.8Tbps transmission capacity.
Overall, 24 1.6Tbps wavelengths, each occupying a 200GHz channel, fit into a fibre's C-band spectrum, giving a total capacity of 38.4Tbps. The same applies to the fibre's L-band.
"You are filling up the full C-band with only 24 wavelengths," says Xenos. "It wasn't that long ago when we filled the C-band with 96, 100-gigabit channels or 64, 400-gigabit channels." (See chart.)
Ciena says other field trials are planned. Based on its simulation work, Ciena expects its latest coherent modem to send 1.2Tbps across the Atlantic Ocean, 1Tbps across the Pacific Ocean, and 800Gbps over 3,000km. "We expect to see performance improvements because we are still tweaking," says Xenos.
Embedded and pluggable modules
Coherent pluggable optics continue to advance, especially with the demands of hyperscalers. Coherent pluggable modules, driven by hyperscalers’ data centre interconnect demands, also continue to advance. So, is the requirement for the highest-performance embedded modules diminishing?
Ciena believes that both classes of devices are needed: performance-optimised (embedded) and pluggable coherent optical modules.
“There are more capabilities that are becoming available in pluggables, with the 800-gigabit generation extending to 1,000km and beyond and with L-band offerings coming in the near future,” she says. “If you can integrate the pluggable into a router platform, that allows you to save on space and power.”
However, the pluggable can’t match the spectral efficiency of an embedded coherent module. An 800-gigabit pluggable uses a 150GHz channel spacing, which is the same spectral efficiency as the earlier generation Ciena WaveLogic AI.
The latest embedded modules, in contrast, can be significantly better than equivalent line reate pluggables: from 1.3x to 2x. This is an important consideration in environments where fibre is scarce.
Another point Xenos makes is the nature of the optical network and its total cost, not just the optics (embedded or pluggable) but also the optical line system. If a link has many amplification stages and ROADMs, the optical line makes a more significant contribution to the overall cost. Here embedded optics is needed to span the more complex optical route while being one part of the overall cost.
“You have to look at the total overall cost of building the network,” says Xenos. “It is the optics and the photonic line system.”
General availability
The WaveLogic 6 Extreme will be generally available at the end of September 2024.
When Ciena first announced the coherent DSP, the company expected the device to be generally available in the first half of 2024. In March at OFC 2024, Ciena gave an update saying trials would start this summer.
Xenos says the delivery date did slip by several months. But she stresses the achievement of delivering such a complex coherent modem system. As well as designing the chip in a 3nm CMOS process, the DSP also includes very high-speed mixed-signal analogue-to-digital and digital-to-analogue converters.
"When you target a certain availability, it is the best date that is also realistic," says Xenos. "The fact that we're only a few months off means that the team has executed to deliver a working product."
Ciena is also integrating WaveLogic 6 into its 6500 optical transport platform and will make a coherent WaveLogic 6 module available for OEMs or developers that have custom equipment requirements.
Meanwhile, Ciena continues to develop the Nano, the second WaveLogic 6 device designed for the coherent pluggable market. The WaveLogic 6 Nano is expected to be sampled at the end of the year.
Market consolidation
In June, Nokia announced its intention to acquire Infinera. If the deal passes regulatory approval, it will reduce the number of companies capable of developing high-end coherent DSPs.
More players mean greater competition which pushes the marketplace. But developing coherent DSPs using shrinking CMOS nodes is getting more expensive. One fewer player can be viewed as good news for the rest. Xenos says Ciena has expected fewer high-end coherent players going forward.
"Those who are vertically integrated have an advantage of improved cost efficiencies that they can offer to their end-customers," she says. "And we've been investing in vertical integration because it allows us to control our destiny and come to market with new technology at an earlier time."
This is what the company has done with the WaveLogic 6 Extreme, where Ciena had to develop its own 100GHz analogue bandwidth coherent optics to achieve the 200GBd symbol rate.
Future developments
The roadmap for coherent pluggable modules is well defined due to the industry organisation, the OIF’s 1600ZR and 1600ZR+ 1.6Tbps coherent pluggable modules which are expected from 2028. For embedded modules the roadmap is less clear.
“There is nothing to announce at this time, but we know that the next step has to be bold enough to provide a meaningful benefit for its adoption into the network,” says Xenos.
Reader Comments