China Mobile plots 400 Gigabit trials in 2017
China Mobile is preparing to trial 400-gigabit transmission in the backbone of its optical network in 2017. The planned trials were detailed during a keynote talk given by Jiajin Gao, deputy general manager at China Mobile Technology, at the OIDA Executive Forum, an OSA event hosted at OFC, held in Los Angeles last week.
The world's largest operator will trial two 400-gigabit variants: polarisation-multiplexed, quadrature phase-shift keying (PM-QPSK) and 16-ary quadrature amplitude modulation (PM-16QAM).
The 400-gigabit 16-QAM will achieve a total transmission capacity of 22 terabits and a reach of 1,500km using ultra-low-loss fibre and Raman amplification, while with Nyquist PM-QPSK, the capacity will be 13.6 terabits and a 2000km reach. China Mobile started to deploy 100 gigabits in its backbone in 2013. It expects to deploy 400 gigabits in its metro and provisional networks from 2018.
Gao also detailed the growth in the different parts of China Mobile's network. Packet transport networking ports grew by 200,000 in 2016 to 1.2 million. The operator also grew its fixed broadband market share, adding over 20 million GPON subscribers to reach 80 million in 2016 while its optical line terminals (OLTs) grew from 89,000 in 2015 to 113,000 in 2016. Indeed, China Mobile has now overtaken China Unicom as China's second largest fixed broadband provider. Meanwhile, the fibre in its metro networks grew from 1.26 million kilometres in 2015 to 1.41 million in 2016.
The Chinese operator is also planning to adopt a hybrid OTN-reconfigurable optical add-drop multiplexer (OTN-ROADM) architecture which it trialled in the second half of 2016, linking several cities. The operator currently uses electrical cross-connect switches which were first deployed in 2011.
The ROADM is a colourless, directionless and contentionless design that also supports a flexible grid, and the operator is interested in using the hybrid OTN-ROADM in its provisional backbone and metro networks. Using the OTN-ROADM architecture is expected to deliver a power savings of between 13% and 50%, says Gao.
XG-PON was also first deployed in 2016. China Mobile says 95% of its GPON optical network units deployed connect single families. The operator detailed an advanced home gateway that it has designed which six vendors are now developing. The home gateway features application programming interfaces to enable applications to be run on the platform.
For the XG-PON OLTs, China Mobile is using four vendors - Fiberhome, Huawei, ZTE and Nokia Shanghai Bell. The OLTs support 8 ports per card with three of the designs using an ASIC and one an FPGA. "Our conclusion is that 10-gigabit PON is mature for commercialisation," says Gao.
Gao also talked about China Mobile's NovoNet 2020, the vision for its network which was first outlined in a White Paper in 2015. NovaNet will be based on such cloud technologies as software-defined networking (SDN) and network function virtualisation (NFV) and is a hierarchical arrangement of Telecom Integrated Clouds (TICs) that span the core through to access. He outlined how for private cloud services, a data centre will have 3,000 servers typically while for public cloud 4,000 servers per node will be used.
China Mobile has said the first applications on NovoNet will be for residential services, with LTE, 5G enhanced packet core and multi-access edge computing also added to the TICs.
The operator said that it will trial SDN and NFV in its network this year and also mentioned how it had developed its own main SDN controller that oversees the network.
China Mobile reported 854 million mobile subscribers at the end of February, of which 559 million are LTE users, while its wireline broadband users now exceed 83 million.
Reflections on OFC 2017
Mood, technologies, notable announcements - just what are the metrics to judge the OFC 2017 show held in Los Angeles last week?
It was the first show I had attended in several years and the most obvious changes were how natural the presence of the internet content providers now is alongside the telecom operators, as well as systems vendors exhibiting at the show. Chip companies, while also present, were fewer than before.
Source: OSA
Another impression were the latest buzz terms: 5G, the Internet of Things and virtual reality-augmented reality. Certain of these technologies are more concrete than others, but their repeated mention suggests a consensus that the topics are real enough to impact optical components and networking.
It could be argued that OFC 2017 was the year when 400 Gigabit Ethernet became a reality
The importance of 5G needs no explanation while the more diffuse IoT is expected to drive networking with the huge amounts of data it will generate. But what are people seeing about virtual reality-augmented reality that merits inclusion alongside 5G and IoT?
Another change is the spread of data rates. No longer does one rate represent the theme of an OFC such as 40 Gigabits or 100 Gigabits. It could be argued that OFC 2017 was the year when 400 Gigabit Ethernet became a reality but there is now a mix of relevant rates such as 25, 50, 200 and 600 gigabits.
Highlights
There were several highlights at the show. One was listening to Jiajin Gao, deputy general manager at China Mobile Technology, open the OIDA Executive Forum event by discussing the changes taking place in the operator's network. Gao started by outlining the history of China Mobile's network before detailing the huge growth in ports at different points in the network over the last two years. He then outlined China Mobile's ambitious rollout of new technologies this year and next.
China's main three operators have 4G and FTTx subscriber numbers that dwarf the rest of the world. Will 2017 eventually be seen as the year when the Chinese operators first became leaders in telecom networking and technologies?
The Executive Forum concluded with an interesting fireside discussion about whether the current optical market growth is sustainable. The consensus among representatives from Huawei, Hisense, Oclaro and Macom was that it is; that the market is more varied and stable this time compared to the boom and bust of 1999-2001. As Macom’s Preetinder Virk put it: "The future has nothing to do with the past". Meanwhile, Huawei’s Jeffrey Gao still expects strong demand in China for 100 gigabits in 2017 even if growth is less strong than in 2016. He also expects the second quarter this year to pick up compared to a relatively weak first quarter.
OFC 2017 also made the news with an announcement that signals industry change: Ciena's decision to share its WaveLogic Ai coherent DSP technology with optical module vendors Lumentum, Oclaro and NeoPhotonics.
The announcement can be viewed several ways. One is that the initiative is a response to the success of Acacia as a supplier of coherent modules and coherent DSP technology. System vendors designed their own coherent DSP-ASICs to differentiate their optical networking gear. This still holds true but the deal reflects how the progress of merchant line-side optics from the likes of Acacia is progressing and squeezing the scope for differentiation.
The deal is also a smart strategic move by Ciena which, through its optical module partners, will address new markets and generate revenues as its partners start to sell modules using the WaveLogic Ai. The deal also has a first-mover advantage. Other systems vendors may now decide to offer their coherent DSPs to the marketplace but Ciena has partnerships with three leading optical module makers and is working with them on future DSP developments for pluggable modules.
The deal also raises wider questions as to the role of differentiated hardware and whether it is subtly changing in the era of network function virtualisation, or whether it is a reflection of the way companies are now collaborating with each other in open hardware developments like the Telecom Infra Project and the Open ROADM MSA.
Another prominent issue at the show is the debate as to whether there is room for 200 Gigabit Ethernet modules or whether the industry is best served by going straight from 100 to 400 Gigabit Ethernet.
Facebook and Microsoft say they will go straight to 400 gigabits. Cisco agrees, arguing that developing an interim 200 Gigabit Ethernet interface does not justify the investment. In contrast, Finisar argues that 200 Gigabit Ethernet has a compelling cost-per-bit performance and that it will supply customers that want it. Google supported 200 gigabits at last year’s OFC.
Silicon photonics
Silicon photonics was one topic of interest at the show and in particular how the technology continues to evolve. Based on the evidence at OFC, silicon photonics continues to progress but there were no significant developments since our book (co-written with Daryl Inniss) on silicon photonics was published late last year.
One of the pleasures of OFC is being briefed by key companies in rapid succession. Intel demonstrated at its booth its silicon photonics products including its CWDM4 module which will be generally available by mid-year. Intel also demonstrated a 10km 4WDM module. The 4WDM MSA, created last year, is developing a 10km reach variant based on the CWDM4, as well as 20km and 40km based designs.
Meanwhile, Ranovus announced its 200-gigabit CFP2 module based on its quantum dot laser and silicon photonics ring resonator technologies with a reach approaching 100km. The 200 gigabit is achieved using 28Gbaud optics and PAM-4.
Elenion Technologies made several announcements including the availability of its monolithically integrated coherent modulator receiver after detailing it was already supplying a 200 gigabit CFP2-ACO to Coriant. The company was also demonstrating on-board optics and, working with Cavium, announced a reference architecture to link network interface cards and switching ICs in the data centre.
I visited Elenion Technologies in a hotel suite adjacent to the conference centre. One of the rooms had enough test equipment and boards to resemble a lab; a lab with a breathtaking view of the hills around Los Angeles. As I arrived, one company was leaving and as I left another well-known company was arriving. Elenion was using the suite to demonstrate its technologies with meetings continuing long after the exhibition hall had closed.
Two other silicon photonics start-ups at the show were Ayar Labs and Rockley Photonics.
Ayar Labs in developing a silicon photonics chip based on a "zero touch" CMOS process that will sit right next to complex ASICs and interface to network interface cards. The first chip will support 3.2 terabits of capacity. The advantage of the CMOS-based silicon photonics design is the ability to operate at high temperatures.
Ayar Labs is using the technology to address the high-bandwidth, low-latency needs of the high-performance computing market, with the company expecting the technology to eventually be adopted in large-scale data centres.
Rockley Photonics shared more details as to what it is doing as well as its business model but it is still to unveil its first products.
The company has developed silicon photonics technology that will co-package optics alongside ASIC chips. The result will be packaged devices with fibre-based input-output offering terabit data rates.
Rockley also talked about licensing the technology for a range of applications involving complex ICs including coherent designs, not just for switching architectures in the data centre that it has discussed up till now. Rockley says its first product will be sampling in the coming months.
Looking ahead
On the plane back from OFC I was reading The Undoing Project by Michael Lewis about the psychologists Danny Kahneman and Amos Tversky and their insights into human thinking.
The book describes the tendency of people to take observed facts, neglecting the many facts that are missed or could not be seen, and make them fit a confident-sounding story. Or, as the late Amos Tversky put it: "All too often, we find ourselves unable to predict what will happen; yet after the fact, we explain what did happen with a great deal of confidence. This 'ability' to explain that which we cannot predict, even in the absence of any additional information, represents an important, though subtle, flaw in our reasoning."
So, what to expect at OFC 2018? More of the same and perhaps a bombshell or two. Or to put it another way, greater unpredictability based on the impression at OFC 2017 of an industry experiencing an increasing pace of change.
North American operators in an optical spending rethink
Optical transport spending by the North American operators dropped 13 percent year-on-year in the third quarter of 2014, according to market research firm Dell'Oro Group.
Operators are rethinking the optical vendors they buy equipment from as they consider their future networks. "Software-defined networking (SDN) and Network Functions Virtualisation (NFV) - all the futuristic next network developments, operators are considering what that entails," says Jimmy Yu, vice president of optical transport research at Dell’Oro. "Those decisions have pushed out spending."
NFV will not impact optical transport directly, says Yu, and could even benefit it with the greater signalling to central locations that it will generate. But software-defined networks will require Transport SDN. "You [as an operator] have to decide which vendors are going to commit to it [Transport SDN]," says Yu.
SDN and NFV - all the futuristic next network developments, operators are considering what that entails. Those decisions have pushed out spending
The result is that the North American tier-one operators reduced their spending in the third quarter 2014. Yu highlights AT&T which during 2013 through to mid 2014 undertook robust spending. "What we saw growing [in that period] was WDM metro equipment, and it is that spending that has dropped off in the third quarter," says Yu. For equipment vendors Ciena and Fujitsu that are part of AT&T's Domain 2.0 supplier programme, the Q3 reduced spending is unwelcome news. But Yu expects North American optical transport spending in 2015 to exceed 2014's. This, despite AT&T announcing that its capital expenditure in 2015 will dip to US $18 billion from $21 billion in 2014 now that its Project VIP network investment has peaked.
But Yu says AT&T has other developments that will require spending. "Even though AT&T may reduce spending on Project VIP, it is purchasing DirecTV and the Mexican mobile carrier, lusacell," he says. "That type of stuff needs network integration." AT&T has also committed to passing two million homes with fibre once it acquires DirecTV.
Verizon is another potential reason for 2015 optical transport growth in North America. It has a request-for-proposal for metro DWDM equipment and the only issue is when the operator will start awarding contracts. Meanwhile, each year the large internet content providers grow their optical transport spending.
Dell'Oro expects 2014 global optical transport spending to be flat, with 2015 forecast to experience three percent growth
Asia Pacific remains one of the brighter regions for optical transport in 2014. "Partly this is because China is buying a lot of DWDM long-haul equipment, with China Mobile being one of the biggest buyers of 100 Gig," says Yu. EMEA continues to under-perform and Yu expects optical transport spending to decline in 2014. "But there seems to be a lot of activity and it's just a question of when that activity turns into revenue," he says.
Dell'Oro expects 2014 global optical transport spending to be flat compared to 2013, with 2015 forecast to experience three percent growth. "That growth is dependent on Europe starting to improve," says Yu.
One area driving optical transport growth that Yu highlights is interconnected data centres. "Whether enterprises or large companies interconnecting their data centres, internet content providers distributing their networks as they add more data centres, or telecom operators wanting to jump on the bandwagon and build their own data centres to offer services; that is one of the more interesting developments," he says.