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From: FUBHO4/13/2021 4:35:08 PM
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FROM MARCH 19:

www.lightreading.com /infinera-expects-commercial-xr-optics-in-2022/d/d-id/768194

Infinera expects commercial XR Optics in 2022

| Light Reading
News Analysis Ken Wieland, contributing editor 3/19/2021

Rob Shore, SVP of marketing at US-based Infinera, told Light Reading he expected first commercial deployments of the company's prototype XR Optics tech sometime next year.

He was also hopeful of announcing an XR Optics industry consortium of some description, comprising service providers, technology partners and even standards organizations, "within a matter of months."

With an eye on ZR+ optics, another 400G technology, Shore is keen to highlight XR Optics' "pluggable" credentials.




Infinera's XR optics enables a single transceiver to generate numerous lower-speed subcarriers that can be independently steered to different destinations.
(Source: Infinera)

"ZR+ has generated a fair amount of press coverage, but there's really nothing special about it except industry standardization," asserted Shore.

"What we want to do with XR Optics is rather than just release a technology, and hope people take it, is to build an industry coalition."

Some progress has already been made on the coalition front, through partnerships with Lumentum and II-VI, although these were announced over a year ago.

Shore was nonetheless confident that industry momentum was swinging the way of XR Optics. "We've got a whole host of other equipment manufacturers and sub component manufacturers on the hook here as well," he said.

On trial

Shore was speaking to Light Reading after Infinera announced yet another successful field trial of XR Optics, but this time – somewhat unusually – with a towerco in the shape of America Tower.

Shore asserted that the proof-of-concept, which took place in Colombia, "proved once again that XR Optics' signals can coexist with PON architectures."

Infinera has been involved in nearly two dozen XR Optics trials with operators globally, including BT. Only a few days prior to the American Tower PoC, the UK's Virgin Media also put XR Optics through its paces


"XR optics is the only coherent point-to-multipoint solution being proposed enabling significantly greater capacity [400G and above]," says David Welch, Infinera's founder and chief innovation officer.

"XR optics also enables efficiencies and network simplification beyond access by enabling a single transceiver to aggregate traffic from multiple lower speed transceivers anywhere in the network."

Through a glass darkly

How quickly XR Optics can gain market traction is open to debate. Heavy Reading's Sterling Perrin acknowledges the progress being made by Infinera through its various trials, but still views XR optics as very much a "future-looking technology."

Want to know more about optical? Check out our dedicated optical channel here on Light Reading."XR optics is an interesting adaptation of Nyquist subcarriers in coherent transmission that allows the individual subcarriers to be individually routed, but, at increments of nx25G, this is at least a generation ahead of next-gen PON variants," he says.

Julie Kunstler, a principal analyst at research firm Omdia, a Light Reading sister company, pointedly notes that because XR Optics is quite new, the ecosystem is inevitably immature. "It's too early to forecast a cost curve," she said.

Related posts:

— Ken Wieland, contributing editor, special to Light Reading

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From: FUBHO4/22/2021 5:37:02 PM
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The Shortest Path: An Interview with Vincent Gatineau of EllaLink

- www.infinera.com www.infinera.com /blog/the-shortest-path-an-interview-with-vincent-gatineau-of-ellalink/tag/submarine/
4/22/2021
It may surprise you to know that data passing between the Iberian Peninsula and Latin America today will most likely take a very indirect route – from Europe to the U.S. and then down to Brazil. But this is soon set to change with the launch of the new EllaLink express optical platform that offers a direct route via a high-capacity submarine cable from Sines in Portugal to Fortaleza in Brazil.

Last week I was lucky enough to participate in the season finale of EllaLEAKS, a series of films that have helped to document the whole construction process. It was an amazing event, and I was able to talk about the project with EllaLink’s Chief Marketing and Sales Officer, Vincent Gatineau, afterwards.



Geoff: It’s great to talk to you, Vincent, and thank you for the invitation to get involved in the EllaLEAKS finale event. I have to say, having experienced so many virtual webinars over the past year, I thought it was a really great event, with a fantastic look and feel, and very professionally produced. Congratulations!

Vincent: Thank you, Geoff. It was thanks to a lot of hard work by so many people, and we’re delighted with the number of attendees at the live event. As you mentioned, we also have the whole series of films online for people to check out, and I think it’s really interesting to see the process of laying the cable, building the landing stations, and so on. We look forward to next season, which will kick off with more stories from our partners.

Geoff: Could you summarize EllaLink for us all?

Vincent: Sure. We start with a high-performance submarine cable with four fiber pairs on the trunk that follows a direct route from Portugal to Brazil. But a key aspect is that this is about joining two sets of communities that share common languages and cultures – predominantly Portuguese and Spanish, of course. The cable has been installed with a number of branching units, and will initially connect to Cabo Verde and Madeira. The system has also been designed to accommodate future subsea extensions to the Canary Islands, Morocco, Mauritania, French Guiana, and Southern Brazil. Using our fiber ring, we can connect to Madrid and Lisbon and extend to Marseille, where we hook into the massive Mediterranean cable systems that take us to the Middle East and onward to Asia. People can check out these routes on the interactive Telegeography Submarine Cable Map.



Geoff: Low latency was a big theme of the webinar…why is it so important?

Vincent: It’s about the way people are using networks today. We often think of financial trading needing low latency, but online gaming is growing rapidly across the Latin Americas region, and gamers these days are playing with other people from around the world. The response times for social media applications are also critical because of the way these applications are funded through online advertising. As said by our good friend, CEO of DE-CIX Ivo Ivanov, “latency is the next currency.”

Geoff: And how much of a reduction can you achieve? After all, we’re ultimately limited by the speed of light.

Vincent: Yes, and that’s why our direct routing is critical. To make use of high-capacity cables, data today has to go from Europe to the U.S. and then down to Brazil. The EllaLink route is only half the distance, so that means half the latency – we’re looking at less than a 60-ms round trip delay between Portugal and Brazil. We also offer direct, all-optical connections from data center to data center, glassing through at the landing station and avoiding any added latency from OTN switching. And our ability to do that is really enabled by the high performance we’ve seen from Infinera’s ICE6 technology.

Geoff: Yes, I think the performance of ICE6 has been a revelation in so many cases. What are you expecting for the cable system?

Vincent: The conservative estimate is for an end-of-life cable capacity of about 100 Tb/s on the trans-Atlantic section, and that’s 25 Tb/s per fiber pair. We can also support a range of services from 1 GbE up to 400 GbE, and we offer an open cable solution, with what will look like a virtual fiber pair to a customer. They can choose whichever transponders they wish, but the spectrum will be managed and kept stable by the Infinera Intelligent Power Management solution.

Geoff: In fact I wrote a blog about the importance of active power management that people can refer to here. You mentioned glassing through at the landing station. Wouldn’t it be easier to just put the data center where the cable lands?

Vincent: This point very much relates to which came first, the cable or the data center? Is the cable system being built to bring connectivity to an underserved area, in which case it comes before the data center, or are you building a cable system to connect into existing data center infrastructure? So glassing through at the landing station is ideal, but not possible for every system. There is a symbiotic relationship between data centers and cable systems, and in the case of EllaLink, Fortaleza is an area already rich in cable connectivity, and in Sines we deliberately selected a new site to offer diversity from the existing cable systems landing in Portugal. Where you have a busy landing location, there can be a danger of cables crossing in shallow waters and exposing the cable to hazards like anchors or fishing nets. We took a lot of care in Sines to make sure that we only cross other cables in deep ocean locations. Where we needed extra shallow water protection, we used a technique called horizontal directional drilling (HDD) to help protect the cable by burying it deep under the seabed.

Geoff: I saw the video you posted on the HDD technique, and also the construction of the cable landing station at Sines – it’s really an amazing engineering project. And I know you also have a lot of research and educational involvement on EllaLink.

Vincent: We do. One of our major anchor customers is the BELLA Consortium, who provide for the long-term interconnectivity needs of the European and Latin American research and education communities. I’m also excited to say that GÉANT and EMACOM have established the EllaLink Geolab, an initiative that aims to provide the scientific community with real-time, accurate, and relevant data on seabed conditions along the cable route. EllaLink is the first commercial telecoms submarine cable in the world to integrate SMART cable concepts into its design.

Geoff: It’s fascinating stuff, and applications like earthquake monitoring would have the potential to save so many lives, especially as sea levels rise due to climate change. Vincent, thank you for the opportunity to participate in the season finale, and congratulations on an incredible submarine network project!

Vincent: Thank you, Geoff, and I’m looking forward to a long partnership with Infinera.



Vincent Gatineau is the Chief Marketing and Sales Officer for EllaLink. Vincent was part of the Sales & Marketing team of Alcatel Submarine Networks for nine years, followed by the EllaLink project since its first days among other major systems developments. Previously, Vincent has held various international positions within the Alcatel-Lucent group in India and Chile. Vincent has an engineering degree from Institut Mines Telecom Lille Douai. He is fluent in French, English and Spanish. Infinera thanks him for his contribution.

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From: FUBHO5/4/2021 10:56:05 AM
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Infinera Expands Open Optical Portfolio to Include Latest Generation of 400G Pluggable Optics

SAN JOSE, Calif., May 04, 2021 (GLOBE NEWSWIRE) -- Infinera (NASDAQ: INFN) announced today the availability of metro-optimized 400G pluggable optics-based solutions for the XTM Series and GX Series Compact Modular Platforms, bringing enhanced flexibility and economics to metro networks. The new capabilities complement the company’s 600G/800G embedded optics technology, enabling network operators to cost-effectively scale their networks to meet the relentless growth of bandwidth with optimized optical networking solutions from the edge to the core.

The new XTM Series Enhanced 400G Flexponder module and GX Series CHM1R Open ROADM-compliant dual-400G sled will support a broad range of 400G pluggable optics, including 400G XR/ZR+ optics. In addition to point-to-point applications, the XTM and GX will leverage the point-to-multipoint capabilities of XR optics to substantially simplify networks and drive down costs. The combination of 400G support across both platforms enables network operators to support optimized solutions across both 300 mm- and 600 mm-deep network infrastructure with industry-leading low power and high density.

“The move to 400G in metro/regional optimized DWDM platforms is a major step that we welcome,” said Dave Eddy, Chief Operating Officer at Neos Networks. “Our extensive U.K. network is built on the XTM Series, and 400G capabilities provide Neos Networks with another option for those segments in our network that see the highest demand. We look forward to capitalising on this technology in our network to enable the company to maintain its position of running one of the most advanced optical networks across the U.K.”

“Pluggable optics have always been at the heart of our metro strategy, and over the years we have achieved many industry firsts with the use of pluggable optics in transport platforms,” said Glenn Laxdal, Senior Vice President, Global Product Line Management at Infinera. “Expanding our capabilities to include the latest generation of 400G optics, combined with our industry-leading 600G/800G optics, provides customers with best-in-class solutions to address applications across their networks.”

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From: FUBHO5/5/2021 12:07:18 AM
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Sounds very positive...

seekingalpha.com

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From: FUBHO5/6/2021 6:08:57 PM
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Counting the cost: How chip shortages are affecting telecom companies

Light Reading www.lightreading.com /opticalip/counting-cost-how-chip-shortages-are-affecting-telecom-companies/d/d-id/769289

The ongoing global chip shortage is affecting industries ranging from automobiles to video games. And the telecom industry has not been left out.

"I'm a little skittish," AT&T CEO John Stankey said of the shortages. "I mean, we're seeing dynamics that are occurring in the global supply chain where unexpected things are popping up. And it is possible that we could see certain element shortages that start to crop up as everybody is racing to put stuff up on [cell] towers in May. And that's why I want to be a little bit cautious."

Other executives though said they have not yet seen any effects at all.

"We're seeing no supply issues and we're forecasting no supply issues on either network gear or smartphones," said T-Mobile CEO Mike Sievert.

Meanwhile, vendors are fighting to make sure they have the supplies they need to continue to meet demand.

"There were shortages of supply and we obviously chased it, and you just basically put more money on the table and you get the necessary products you need," said Viavi CEO Oleg Khaykin, according to a Seeking Alpha transcript of his comments. "We were able to meet all our customer demands and not miss any of our deliveries."

Apple executives too said they struggled to meet record demand. "We did not have a material supply shortage," said Apple CEO Tim Cook of the company's most recent, blockbuster quarter. Seeking Alpha provided a transcript of his comments. "And so how are we able to do that? You wind up collapsing all of your buffers and offsets. And that happens all the way through the supply chain. And so that enables you to go a bit higher than what we were expecting to sell when we went into the quarter 90 days ago."

However, Apple doesn't believe it can pull the same trick during its current quarter. The company warned it expects to lose between $3 billion and $4 billion due to the shortages in its quarter that ends in June.

Apple isn't alone.

Here are the companies in the telecom industry that reported financial effects from the situation, and exactly what they said about those effects.

Table 1: Telecom and the global chipset shortage

CompanyWhat they said
AppleExpects to lose between $3 billion and $4 billion in revenues in its current quarter.
CeragonExpects a "negative impact on the timeliness" of its second quarter deliveries, and a "push of revenues" until it's resolved.
InfineraLost $15 million to $20 million in revenues in the first quarter, and expects to lose $20 million to $25 million in the second quarter.
National InstrumentsReported that bookings grew 19% year-over-year, but that revenue grew just 9% over the same period, and blamed the difference on a buildup in its backlog due to the shortages.
NeophotonicsLost millions of dollars in revenues, but didn't provide a specific figure beyond the range of "low- to mid-single-digits."
QualcommLost a "very significant number" in revenues, but did not provide specifics.
SamsungExpects revenue to decrease in the current quarter, but did not provide details.
Source: Company reports, Seeking Alpha

Of course, shortages in components might not ultimately affect a vendor's bottom line. The analysts at Counterpoint Research noted that some companies might decide to pass the hit on down the line.

"Semiconductor shortages have affected the overall supply landscape and increased the lead times of chipset solutions for major vendors. However, we see these vendors looking to diversify their foundry strategy to alleviate chipset shortages in the second half of this year," explained Tarun Pathak, a research director at the firm, in a statement. "These shortages might push specific component prices up by 5-10% and OEMs [original equipment manufacturers] will look to absorb these cost increases by being creative with the bill of materials (BoM) and in some cases might even pass the added costs to the consumers."

Related posts:


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From: FUBHO5/17/2021 5:15:09 AM
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Chips are down until 2023, confirms IBM president

Catherine Sbeglia

www.rcrwireless.com /20210514/business/chips-are-down-until-2023-confirms-ibm-president 5/14/2021

IBM president: ‘The solution to the [chip]shortage involves exploring alternative ways to meet consumer demand’
Towards the end of April, Intel and TSMC the indicated that the global shortage of semiconductors might continue until 2023. This week, IMB President Jim Whitehurst reportedly confirmed this timeline, telling BBC News it would take time for the industry to add the necessary capacity to ease the current chip shortage.

“There’s just a big lag between from when a technology is developed and when [a fabrication plant]goes into construction and when chips come out,” Whitehurst told the news outlet. “So frankly, we are looking at couple of years … before we get enough incremental capacity online to alleviate all aspects of the chip shortage.”

He added that the solution to the shortage involves exploring alternative ways to meet consumer demand, such as extending the life of certain types of computing technologies and accelerating investment in semiconductor fabrication plants.

IBM is not alone in focusing on fabrication plant investments. Intel, for instance, announced plans to invest $20 billion to build two new chip factories in Arizona and, under the leadership of new CEO Pat Gelsinger, is all together overhauling its manufacturing strategy, while Samsung plans to build a $17 billion chip fab either in its home country or one of three U.S. cities, Austin, Phoenix or somewhere in Western New York.

Further, Taiwan-based TSMC has raised capex guidance to $100 billion over the next three years in an effort to increase its production capacity. On a recent earnings call, TSMC’s CEO C. C. Wei commented that the new fabrication facility won’t be available until 2023.

“And so this year and next year, I still expect the capacity tightening will continue…2023, I hope that we can offer more capacity to support our customers. And at that time, we start to see the supply chains tightening will release a little bit,” Wei said.

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From: FUBHO5/19/2021 9:53:23 AM
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Infinera Introduces New Suite of XR Optics-powered Coherent Pluggable Solutions


Infinera Corporation
5/19/2021

SAN JOSE, Calif., May 19, 2021 (GLOBE NEWSWIRE) -- Infinera (NASDAQ: INFN) announced today that it has expanded its portfolio of open optical networking solutions with a suite of coherent optical pluggables designed to seamlessly address point-to-point and point-to-multipoint transport applications from the network edge to the core. Leveraging innovative XR optics technology, Infinera’s new suite of vertically integrated ICE-XR pluggables will offer network operators the performance, scale, and efficiency critical to the delivery of differentiated 5G, enhanced broadband, and next-generation cloud and business services. ICE-XR pluggables will support a range of transport rates, including 100G, 400G, and 800G, and utilize industry-standard form factors such as QSFP-28, QSFP-DD, and CFP2 to enable ease of deployment in a wide variety of router and transport devices.

“We have been engaged with 100+ network operators globally and the feedback that we have received has surpassed anything I have seen in my 35+ years of experience in successfully bringing game-changing technologies to market,” said Dave Welch, Founder and Chief Innovation Officer at Infinera. “Leveraging the innovative capabilities of XR optics, ICE-XR will enable Infinera to create a completely new market with functionality that is uniquely positioned to address the point-to-multipoint traffic demands at the rapidly growing network edge and provide TCO savings of as much as 70%. Additionally, with Infinera’s deep vertical integration, ICE-XR will enable us to address the rapidly growing market for point-to-point pluggable coherent applications with a differentiated and cost-reduced solution.”

ICE-XR builds on Infinera’s history of delivering innovative, highly differentiated, and vertically integrated coherent optical engines. ICE-XR can be seamlessly software configured between point-to-point and point-to-multipoint operations. When used in point-to-point applications, ICE-XR can enable network operators to benefit from seamless generational upgrades, enhanced performance in capacity and reach, and the ability to utilize pay-as-you-grow service activation. In multipoint applications, ICE-XR can enable network operators to reduce the total number of transceivers in their networks by 50% or more and simplify their network architectures by eliminating electrical aggregation points and driving down capital expense and operational complexity.

XR optics is an open technology initiative with the support of network operators, equipment manufacturers, and subsystem manufacturers.

Initial ICE-XR pluggables are scheduled for release in 2022.

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To: FUBHO who wrote (4328)5/19/2021 9:55:20 AM
From: FUBHO
   of 4343
 
Infinera 2021 Investor Day

May 19, 2021 08:00 a.m. PDT

investors.infinera.com

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To: FUBHO who wrote (4329)5/20/2021 7:21:58 AM
From: FUBHO
   of 4343
 
That zoom call was very informative. I wish they would have recorded it. The analysts seemed skeptical of the possibility of success, but Infinera's answers sounded great. They have over 100 companies already on board and the top two US service providers. The market seems to want the XR product, which is most important thing.

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From: FUBHO5/25/2021 5:24:55 PM
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HOTnet upgrades Hokkaido fiber network via Infinera

The open optical networking features of the Infinera systems enabled HOTnet to deploy them more easily over its existing optical infrastructure, the two companies stated.


Stephen Hardy
May 24th, 2021
lightwaveonline.com



Infinera (NASDAQ: INFN) and Hokkaido Telecommunications Network Co., Ltd. (HOTnet) say that the latter has deployed several elements of the former’s optical transport equipment portfolio. The open optical networking features of the Infinera systems enabled HOTnet to deploy them more easily over its existing optical infrastructure, the two companies stated.

HOTnet provides data center interconnect, private cloud, video streaming, broadband internet access, and high-definition digital broadcast services across the Japanese island of Hokkaido via its metro and long-haulf fiber network infrastructure. To upgrade that infrastructure, HOTnet has deployed Infinera’s GX Series Compact Modular Platform, 7100 Series Packet-Optical Transport Platform, and mTera Series Universal Transport Platform. In combination, the new optical transport systems will offer increased capacity and network reliability as well as the ability to aggregate and groom diverse end-user traffic types from metro sites across its long-haul optical backbone.

“Increasing the capacity and scalability of our fiber-optic infrastructure is essential to contributing to the economic development of the Hokkaido region, providing residents with access to high-quality network connectivity,” said Tomohiro Nakata, director and general manager of the Engineering Department at HOTnet. “The deployment of Infinera’s open optical solutions over our existing network with other vendors allowed us to capitalize on the benefits of an open optical network infrastructure, enabling us to cost-effectively scale capacity as needed in real time to meet customer demands. In addition, cross connect switching on the ODU layer within mTera enables us to provide several applications that require low latency.”

“Open optical networking is a great way for network operators to seamlessly integrate the latest solutions into their network,” added Nick Walden, senior vice president, worldwide sales at Infinera. “Infinera’s open optical solutions will enable HOTnet to offer new and differentiated services over their existing optical infrastructure, helping to ensure their customers receive the highest level of service.”

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