Coriant is the latest optical networking equipment maker to unveil a data centre interconnect product. The company claims its Groove G30 platform is the industry’s highest capacity, most power efficient design.
“We have several customers that have either purpose-built data centre interconnect networks or have data centre interconnect as a key application riding on top of their metro or long-haul networks,” says Jean-Charles Fahmy, vice president of cloud and data centre at Coriant.
Each card in the platform is one rack unit (1RU) high and has a total capacity of 3.2 terabit-per-second, while the full G30 rack supports 42 such cards for a total platform capacity of 134 terabits. The G30's power consumption equates to 0.45W-per-gigabit.
The card supports up to 1.6 terabit line-side capacity and up to 1.6 terabit of client side interfaces. The card can hold eight silicon photonics-based CFP2-ACO (analogue coherent optics) line-side pluggables. For the client-side optics, 16, 100 gigabit QSFP28 modules can be used or 20 QSFP+ modules that support 40 or 4x10 gigabit rates.
Silicon photonics
Each CFP2-ACO supports 100, 150 or 200 gigabit transmission depending on the modulation scheme used. For 100 gigabit line rates, dual-polarisation, quadrature phase-shift keying (DP-QPSK) is used, while dual-polarisation, 8 quadrature amplitude modulation (DP-8-QAM) is used for 150 gigabit, and DP-16-QAM for 200 gigabit.
A total of 128 wavelengths can be packed into the C-band equating to 25.6 terabit when using DP-16-QAM.
It [the data centre interconnect] is a dynamic competitive market and in some ways customer categories are blurring. Cloud and content providers are becoming network operators, telcos have their own data centre assets, and all are competing for customer value
Coriant claims the platform can achieve 1,000 km using DP-16-QAM, 2,000 km using 8-QAM and up to 4,000 km using DP-QPSK. That said, the equipment maker points out that the bulk of applications require distances of a few hundred kilometers or less.
This is the first detailed CFP2-ACO module that supports all three modulation formats. Coriant says it has worked closely with its strategic partners and that it is using more than one CFP2-ACO supplier.
Acacia is one silicon photonics player that announced at OFC 2015 a chip that supports 100, 150 and 200 gigabit rates however it has not detailed a CFP2-ACO product yet. Acacia would not comment whether it is supplying modules for the G30 or whether it has used its silicon photonics chip in a CFP2-ACO. The company did say it is providing its silicon photonics products to a variety of customers.
“Coriant has been active in engaging the evolving ecosystem of silicon photonics,” says Fahmy. “We have also built some in-house capability in this domain.” Silicon photonics technology as part of the Groove G30 is a combination of Coriant’s own in-house designs and its partnering with companies as part of this ecosystem, says Fahmy: “We feel that this is one of the key competitive advantages we have.”
The company would not disclose the degree to which the CFP2-ACO coherent transceiver is silicon photonics-based. And when asked if the different CFP2-ACOs supplied are all silicon photonics-based, Fahmy answered that Coriant’s supply chain offers a range of options.
Oclaro would not comment as to whether it is supplying Coriant but did say its indium-phosphide CFP2-ACO has a linear interface that supports such modulation formats as BPSK, QPSK, 8-QAM and 16-QAM.
So what exactly does silicon photonics contribute?
“Silicon photonics offers the opportunity to craft system architectures that perhaps would not have been possible before, at cost points that perhaps may not have been possible before,” says Fahmy.
Modular design
Coriant has used a modular design for its 1RU card, enabling data centre operators to grow their system based on demand and save on up-front costs. For example, Coriant uses ‘sleds’, trays that slide onto the card that host different combinations of CFP2-ACOs, coherent DSP functionality and client-side interface options.
“This modular architecture allows pay-as-you-grow and, as we like to say, power-as-you-grow,” says Fahmy. “It also allows a simple sparing strategy.”
The Groove G30 uses a merchant-supplied coherent DSP-ASIC. In 2011, NSN invested in ClariPhy the DSP-ASIC supplier, and Coriant was founded from the optical networking arm of NSN. The company will noy say the ratio of DSP-ASICs to CFP2-ACOs used but it is possible that four DSP-ASICs serve the eight CFP2-ACOs, equating to two CFP2-ACOs and a DSP-ASIC per sled.
“Web-scale customers will most probably start with a fully loaded system, while smaller cloud players or even telcos may want to start with a few 10 or 40 gigabit interfaces and grow [capacity] as required,” says Fahmy.
Open interfaces
Coriant has designed the G30 with two software environments in mind. “The platform has a full set of open interfaces allowing the product to be integrated into a data centre software-defined networking (SDN) environment,” says Bill Kautz, Coriant’s director of product solutions. “We have also integrated the G30 into Coriant’s network management and control software: the TNMS network management and the Transcend SDN controller.”
Coriant also describes the G30 as a disaggregated transponder/ muxponder platform. The platform does not support dense WDM line functions such as optical multiplexing, ROADMs, amplifiers or dispersion compensation modules. Accordingly, Groove is designed to interoperate with Coriant’s line-system options.
Groove can also be used as a source of alien wavelengths over third-party line systems, says Fahmy. The latter is a key requirement of customers that want to use their existing line systems.
“It [the data centre interconnect] is a dynamic competitive market and in some ways customer categories are blurring,” says Fahmy. “Cloud and content providers are becoming network operators, telcos have their own data centre assets, and all are competing for customer value.”
Further information
IHS hosted a recent webinar with Coriant, Cisco and Oclaro on 100 gigabit metro evolution, click here