Monday, October 11, 2021

MIPI Alliance doubles performance of automotive SerDes to 32 Gbps

The MIPI Alliance completed development work on A-PHY v1.1, the next version of the automotive serializer-deserializer (SerDes) physical-layer interface. 

Version 1.1 will double the maximum available downlink data rate from 16 Gbps to 32 Gbps and include other enhancements to help automotive OEMs and their suppliers implement high-performance image sensors and displays in next-generation vehicles. The specification is undergoing member review, with official adoption expected within the next 90 days.

"A-PHY continues to evolve to meet the ever-increasing demand for high-performance, end-to-end automotive connectivity solutions with high reliability, resiliency and interoperability," said Joel Huloux, chairman of MIPI Alliance. "With unprecedented bandwidth and a growing number of implementation options, A-PHY is positioned to power the development of the next generation of safer, more connected and autonomous vehicles."

MIPI A-PHY is the first industry-standard, long-reach, asymmetric SerDes interface to provide high-performance links between automotive image sensors and displays and their associated electronic control units (ECUs). It was developed to simplify the integration of greater numbers of onboard sensors and displays for applications such as advanced driver-assistance systems (ADAS), digital cockpits, in-vehicle infotainment (IVI) and autonomous driving systems (ADS).

  • A-PHY offers a reach of up to 15 meters, unprecedented reliability with an ultra-low packet error rate of 10-19, high noise immunity and ultra-low latency. It also forms the foundation of MIPI Automotive SerDes Solutions (MASS), an end-to-end framework for connecting cameras, sensors and displays with built-in functional safety, security and data protection.
  • A-PHY v1.1 doubles the total downlink data rate from 16 to 32 Gbps by adding support for Star Quad (STQ) shielded dual differential pair cables that provide dual differential pairs of conductors within a single shielded jacket. This enables two A-PHY ports over a single cable, saving cost, weight and complexity compared with using two separate coaxial or shielded twisted pair cables.
  • Version 1.1 will also add optional PAM4 encoding for A-PHY downlink gears G1 and G2, with data rates of 2 Gbps and 4 Gbps, respectively. PAM4 encoding features lower modulation bandwidth for sub-1 GHz operation, allowing manufacturers to more easily migrate to A-PHY while using either legacy cables on current platforms or lower-cost cables on new platforms.
  • The new version will also add a faster uplink gear with an available data rate of up to 200 Mbps, twice the rate of the existing 100 Mbps uplink gear, providing more bandwidth for command and control of automotive peripherals. A-PHY v1.1 will be fully interoperable with A-PHY v1.0, and devices using both specifications will be able to coexist on the same network.

https://www.mipi.org/mipi-alliance-completes-development-a-phy-v1-1-doubling-data-rate-adding-to-automotive-serdes-interface

Optica: Cities are the Key to the Climate Solution

 The Global Environmental Measurement and Monitoring (GEMM) Initiative, an international project of Optica (formerly OSA) and the American Geophysical Union (AGU), is inviting city leaders, policymakers, scientists and the business community to discover how cost-effective technologies for monitoring greenhouse gas (GHG) and air pollution emissions in urban environments can measure and predict the impact of climate policy and planning decisions.

Recent deployments of low-cost, high-density GHG sensors in several cities have yielded initial datasets demonstrating the utility of mapping GHG and air pollution levels in real time. Analyses of the COVID-19 emission reductions show that determining the emission contributions from various source sectors with detailed mapping and timing across the full diurnal cycle is possible and can provide invaluable information on governmental policies affecting GHG emission levels.

https://new-og.is.strath.ac.uk/workwithus/globalenvironmentalmeasurementmonitoring/citiesarekeytotheclimatesolution/

Thursday, October 7, 2021

NEC to build 24-fiber-pair transatlantic cable for Facebook

NEC has been contracted by Facebook to build an ultra-high performance transatlantic subsea fiber-optic cable connecting the USA and Europe. The project will use NEC’s newly developed 24 fiber pair cable and repeater, enabling the system to deliver a maximum transmission capacity of a half Petabit per second, the highest to date for a long-distance repeatered optical subsea cable system.


Facebook confirmed its first-ever transatlantic, 24-fiber-pair subsea cable system will connect Europe to the United States, buiding on its recent news about 2Africa Pearls, the subsea cable connecting Africa, Asia, and Europe.

Facebook also announced a second generation of its Bombyx robot, which climbs and then install fiber over medium-voltage power lines. The updated design is lighter, faster, and more agile. 

In addition, Facebook's Terragraph radios are now being used to deliver high-speed internet to more than 6,500 homes in Anchorage, Alaska, and deployment has started in Perth, Australia. Facebook licenses Terragraph for free to OEMs who have collectively shipped more than 30,000 Terragraph units to more than 100 service providers and system integrators around the world. 


NEC targets subsea cables to 24 fiber pairs and beyond

NEC and its subsidiary OCC Corporation completed full qualification of subsea repeaters and optical cable containing up to 20 fiber pairs (40 fibers). This represents a 25% improvement in fiber count over 16 fiber pair systems previously built by NEC.

NEC said it achieved this milestone with only minor modifications to its proven repeater and cable designs. This was done by optimizing key repeater components, and by proving that its existing cable design could easily accommodate more fibers. The 20 fiber pair repeaters continue to use quadruple pump sharing technology, first introduced by NEC in 2010, for high optical and electrical efficiency.


OCC’s 20 fiber pair cable can be manufactured using a wide range of existing optical fibers, according to the needs of each new cable system. Furthermore, OCC has demonstrated to its customers that they can visually identify individual fibers using a combination of ring marking and conventional fiber coloring. This allows the potential number of fibers in a cable to be greatly expanded. Significantly, in OCC cable, the fiber’s transmission performance is completely unaffected, either by the fiber coloring or cabling processes.

“As global capacity demand continues to soar, NEC is committed to helping our customers scale up their networks in a cost-effective way,” said Takaaki Ogata, Executive Technical Manager of NEC’s Submarine Network Division. “Further significant increases in the fiber pair count of NEC’s wet plant are coming soon,” he added.

Mass production of the newly-qualified subsea repeaters and optical cable has already started.

2Africa will be longest subsea cable system in the world

The 2Africa cable system will add an extension to the Arabian Gulf, India, and Pakistan, bringing its total length to over 45,000 kilometers, making it the longest subsea cable system ever deployed.  

The 2Africa consortium includes China Mobile International, Facebook, MTN GlobalConnect, Orange, stc, Telecom Egypt, Vodafone and WIOCC.

Now connecting three continents, Africa, Europe and Asia terrestrially through Egypt, 2Africa creates unique connectivity by adding vital landing locations in Oman (Barka), UAE (Abu Dhabi and Kalba), Qatar (Doha), Bahrain (Manama), Kuwait (Kuwait), Iraq (Al-Faw), Pakistan (Karachi), India (Mumbai), and a fourth landing in Saudi Arabia (Al Khobar). The new 2Africa branch joins recently announced extensions to the Canary Islands, the Seychelles, Comoros Islands, Angola, and a new landing to south-east Nigeria.

As with other 2Africa cable landings, capacity will be available in PEARLS landings at carrier-neutral facilities or open-access cable landing stations on a fair and equitable basis, encouraging and supporting the development of a healthy internet ecosystem. 

Alcatel Submarine Networks (ASN) will deploy the new system utilizing new technologies such as SDM that allow the deployment of up to 16 fiber pairs.



2Africa subsea cable boasts design capacity up to 180 Tbps

2Africa, a new subsea cable to serve the African continent and Middle East region, promises to deliver more than the total combined capacity of all subsea cables serving Africa today, with a design capacity of up to 180Tbps on key parts of the system.

Consortium partners include China Mobile International, Facebook, MTN GlobalConnect, Orange, stc, Telecom Egypt, Vodafone and WIOCC.

Alcatel Submarine Networks (ASN) has been selected to build the fully-funded cable. The project will leverage SDM1 (space division multiplexing) technology from ASN, allowing deployment of up to 16 fiber pairs instead of the eight fiber pairs supported by older technologies. The cable will incorporate optical switching technology to enable flexible management of bandwidth. Cable burial depth has also been increased by 50% compared to older systems, and cable routing will avoid locations of known subsea disturbance, all helping to ensure the highest levels of availability.

The 2Africa subsea cable will span 37,000km long, interconnect Europe (eastward via Egypt), the Middle East (via Saudi Arabia), and 21 landings in 16 countries in Africa. The system is expected to go live in 2023/4. Each of the cable landing sites will offer carrier-neutral data centers or open-access cable landing stations on a fair and equitable basis.

In addition, the 2Africa parties and Airtel have signed an agreement with Telecom Egypt to provide a completely new crossing linking the Red Sea and the Mediterranean, the first in over a decade. This includes new cable landing stations and deployment of next-generation fiber on two new, diverse terrestrial routes parallel to the Suez Canal from Ras Ghareb to Port Said, and a new subsea link that will provide a third path between Ras Ghareb and Suez. 

BT and Toshiba to build quantum-secured metro network across London

BT and Toshiba are to build a quantum-secured metro network linking sites in London’s Docklands, the City and the M4 Corridor.  The two companies’ initial focus will be to provide trials for enterprise customers who are carrying sensitive traffic (such as database backups) between sites, and to explore potential future offerings such as encrypted links and “quantum keys-as-a-service."  A timeline has not been disclosed.

BT will provide data services secured using Quantum Key Distribution (QKD) and Post-Quantum Cryptography (PQC) over Openreach’s Optical Spectrum Access Filter Connect (OSA FC) solution for private fibre networks. The QKD links will be provided using a quantum network that includes both core and access components, and will be integrated into BT’s existing network management operations. 

Toshiba will provide quantum key distribution hardware and key management software. The company launched commercial products for QKD, manufactured at its Cambridge site, in the latter half of 2020. Toshiba says it has achieved the highest key rates (1,000’s of keys per second) and longest range of any commercially available fibre QKD system.

While BT and Toshiba have previously installed a point-to-point quantum-secure link between two commercial sites, deploying a full quantum-secured metro network environment with multiple endpoints requires new approaches to integration and management. 

Building on the BT and Toshiba point-to-point solution for the Bristol-based NCC (National Composites Centre) and Centre for Modelling and Simulation (CFMS), this new network will extend the solution to serve multiple customers across the London metropolitan area.  

Howard Watson, CTO of BT, said: “BT and Toshiba have established a global lead in the development of quantum-secure networks. We’re excited to be taking this collaboration to the next level by building the world’s first commercially operational quantum-secured metro network in London. Secure, robust and trusted data transfer is increasingly crucial to our customers across the globe, so we’re proud of the role our Quantum R&D programme is playing in making the world’s networks safer as we enter the dawn of a new age of quantum computing.”

Taro Shimada, Corporate Senior Vice President and Chief Digital Officer at Toshiba Corporation, said: “Our partnership with BT will allow us to offer organisations quantum-secured network services which protect their data from retrospective attacks with a quantum computer. We are delighted to work with BT, with its long heritage of delivering secure, trusted networks. This network paves the way for commercial QKD services in the UK and eventually beyond.”


ADVA FSP 3000 powers UK’s first quantum network

ADVA's FSP 3000 platform is powering a metro transport system in the city of Cambridge that is being used for the UK's first quantum network. The project, which is conducted by the UK National Quantum Technologies Programme, super-encrypts data using quantum key distribution (QKD) for complete and long-term cryptographic data security. ADVA said the openness of its ADVA FSP 3000 platform, which can accept keys from third-party systems utilizing...

Toshiba Research, BT and ADVA Test ‘Quantum Leap’ Encryption

Toshiba Research Europe, BT, ADVA Optical Networking and the National Physical Laboratory (NPL), the UK’s National Measurement Institute, have tested Quantum Key Distribution (QKD) technology over a live fibre network. BT said the idea behind the trial is to leverage the principles of quantum mechanics in transmitting encryption key information. Any attempt to intercept the key can be identified, as it introduces anomalies which can be detected....


Nokia supplies DCI for the ESpanix Internet Exchange in Madrid

ESpanix, the largest neutral internet exchange provider in Spain, has deployed a modular optical data center interconnect (DCI) solution from Nokiato connect three data centers in the Madrid metro area.

The DCI uses dual optical links between data centers for redundancy and offers an initial capacity of 4 Tbps between data centers. The solution is based on the Nokia 1830 Photonic Service Interconnect – Modular (PSI-M), a compact, modular DCI-optimized platform with pay-as-you grow scalability. The 1830 PSI-M uses Nokia’s programmable PSE-3 coherent DSP modules to maximize capacity and performance for increasing video and cloud traffic demands. 

ESpanix has deployed the Nokia 1830 PSI-M units to support multiple client-side interfaces at speeds up to 400G to meet growing traffic needs, with each unit supporting dual line-side interfaces and multiple 400G wavelengths to provide high-capacity connectivity between the data centers that host its internet peering platforms. 

Cristobal Lopez CaƱas, Managing Director of the Association of ESpanix Carrier Networks Providers, said: “Our strategy is to anticipate internet traffic growth and maximize the performance of our network to meet our members’ expectations for reliable and affordable internet exchange services – today and into the future.”

Manuel Ortiz Fernandez, Senior Vice President of EMEA Webscale business at Nokia, said: “During the pandemic, ESpanix experienced a significant increase in traffic, which tripled in a few months to over 1.2 Tbps. With demand for gaming, teleworking, cloud services and online entertainment set to continue, Nokia is pleased to have helped ESpanix rapidly increase its network capacity 10 times to meet the current needs of its customers."

http://www.nokia.com

Equinix builds 5G edge-to-cloud sandbox with Nokia

Equinix has established a 5G and Edge Technology Development Center at its Infomart facility in Dallas to provide a production-ready interconnection sandbox environment from the radio network to the cloud. The facility includes a fully operational, non-standalone 5G network from Nokia to test and validate various 5G services and use cases. Equinix says its new 5G and Edge Technology Development Center will bring together mobile network operators...


Nokia's first deployment of Digital Operations software on AWS globally

Lightstorm, India’s first carrier-neutral network infrastructure platform, will deploy Nokia's Digital Operations software to automate service fulfilment and service assurance processes, enabling the company to create new revenue streams by offering Network-as-a-Service (NaaS) solutions to their enterprise customers.

The deployment represents the first publically-announced implementation of Nokia's Digital Operations software on Amazon Web Services (AWS) globally. Specifically, Nokia’s Digital Operations software is being deployed on AWS by Cloud Kinetics, a Singapore-based AWS Premier Consulting Partner and AWS Managed Service provider for AWS globally. 

Amajit Gupta, Chief Executive Officer, at Lightstorm, said: "Lightstorm is building a resilient and future-ready telecom network designed to support the ever-growing demand for data and low-latency applications in India. We are confident that Nokia's Digital Operations software on AWS will help us realize our vision of building a software-defined programmable and automated network. We look forward to working with Nokia in our journey to provide a world-class digital experience through our platform."

Vinish Bawa, Head of Emerging Markets, India at Nokia, said: “This deployment builds on Nokia’s relationship with AWS, which supports the development and deployment of telecom-specific cloud-native solutions for communication service providers. With Nokia’s Digital Operations software and the reliability and scalability of AWS, Lightstorm is positioning itself as a next-generation service provider capable of delivering NaaS services rapidly and efficiently.”

https://www.nokia.com/about-us/news/releases/2021/10/07/lightstorm-opts-for-nokias-digital-operations-software-for-faster-service-rollout/

 

FCC ready to fund $164 million to RDOF winners


The FCC is ready to authorize $163,895,636 to 42 providers in the second round of funding for new broadband deployments through the Rural Digital Opportunity Fund.  In this funding wave, 42 broadband providers will bring fiber-to-the-home gigabit broadband to approximately 65,000 locations in 21 states over the next 10 years. 

The FCC also announced that 85 winning bidders have chosen not to pursue buildout in 5,089 census blocks in response to letters the FCC sent asking applicants to review their bids in areas where there was evidence of existing service or questions of potential waste. 

“More help is on the way to households without broadband,” said FCC Acting Chairwoman Jessica Rosenworcel.  “This is an important program for getting more Americans connected to high-speed internet, and we are continuing careful oversight of this process to ensure that providers meet their obligations to deploy in areas that need it.”

In July, the Commission sent letters to 197 winning bidders offering providers an opportunity to withdraw their funding requests from places where there was evidence of service or where questions of waste have been raised.  In response to these letters, numerous winning bidders have conducted new due diligence on the areas in question, and many have decided not to pursue support in the identified areas.


Pluribus nets $20 million to advance its distributed cloud networking

Pluribus Networks announced $20 million in new funding for its solutions for distributed cloud networking and SDN automation.

Pluribus said it will use the financing to bolster R&D for multiple new product initiatives along with sales and marketing resources that will further accelerate the company’s penetration into the distributed cloud market, while supporting expansion into adjacent sectors.

“With such pronounced momentum of cloud infrastructure towards distributed data center architectures, Pluribus is uniquely positioned to address a number of multi-site data centers, edge computing and metro use cases by providing networks that are highly distributed and perform at scale. The recent thorough due diligence and investment from Morgan Stanley Expansion Capital, along with the strong support of our existing investors, is an affirmation of our technology, vision and market position,” said Kumar Srikantan, Pluribus Networks, president and chief executive officer.

The new funding round was led by investment funds managed by Morgan Stanley Expansion Capital. This adds to Pluribus’ existing portfolio of top-tier investors, including Ericsson, New Enterprise Associates (NEA), Temasek, Menlo Ventures, Jerry Yang’s AME Cloud Ventures, Data Collective Venture Capital and Mohr Davidow. Prior to this financing round, Pluribus had previously raised $125 million in funding

https://www.pluribusnetworks.com/

Lightwave Logic announces $33M for electro-optic polymers

Lightwave Logic announced that Lincoln Park Capital Fund purchased $3 million of common stock at closing, which was sold at $9.16/share. Under the purchase agreement, Lightwave Logic will have the right, but not the obligation, to sell up to an additional $30.0 million of its common stock to Lincoln Park over a 36-month period.  Lightwave Logic will control the timing and amount of any sales to Lincoln Park with no upper limits to the price Lincoln Park may pay to purchase such common stock. The purchase agreement may be terminated by Lightwave Logic at any time, in its sole discretion, without any additional cost or penalty.

Jim Marcelli, President and Chief Operating Officer of Lightwave Logic, commented, "While we are comfortable with our current cash position of approximately $15 million and burn rate, this financing provides additional flexibility for us as we move forward toward commercialization of our products.

Lightwave Logic is developing a platform leveraging its proprietary engineered electro-optic (EO) polymers to transmit data at higher speeds with less power. 

http://www.lightwavelogic.com

Lightwave Logic and Polariton announce record polymer modulator

Lightwave Logic has achieved world-record performance for a polymer modulator, as demonstrated in an optical transmission experiment by ETH Zurich, using its proprietary, advanced "Perkinamine" chromophores and Polariton Technologies' newest plasmonic EO modulator, a silicon-photonics-based plasmonic racetrack modulator offering energy-efficient, low-loss, and high-speed modulation in a compact footprint.

Polariton's plasmonic modulator transmitted 220 Gbps OOK and 408 Gbps 8PAM. Transmission of an optical signal was conducted over 100 m using a low-voltage electrical drive of 0.6Vp, an on-chip loss of 1 dB, and an optical 3 dB bandwidth of beyond 110 GHz. 

The groundbreaking results were presented as a post-deadline paper at the prestigious European Conference on Optical Communications (ECOC).

"Our mission at Lightwave Logic is to continually push the frontiers of high-speed performance for electro-optic polymers, shaping the 'impossible' into reality and a new normal for the industry," said Dr. Michael Lebby, Chief Executive Officer of Lightwave Logic. "Through our collaboration with Polariton, we have achieved a new world-record for a racetrack plasmonic modulator device structure. The acceptance of a post-deadline peer reviewed paper at ECOC 2021 provides third party validation of this incredible result.

Wednesday, October 6, 2021

Samsung Foundry targets 3nm in 2022, 2nm in 2025

Samsung Foundry is scheduled to start producing its customers' first 3nm-based chip designs in the first half of 2022, while its second generation of 3nm is expected in 2023.

During its 5th annual Samsung Foundry Forum (SFF) 2021 underway this week, Samsung Electronics unveiled plans for continuous process technology migration to 3- and 2-nm based on the company’s Gate-All-Around (GAA) transistor structure.

Samsung said its first 3nm GAA process node utilizing Multi-Bridge-Channel FET (MBCFETTM) will allow up to 35 percent decrease in area, 30 percent higher performance or 50 percent lower power consumption compared to the 5nm process. In addition to power, performance, and area (PPA) improvements, as its process maturity has increased, 3nm’s logic yield is approaching a similar level to the 4nm process, which is currently in mass production.

The 2nm process node with MBCFET is in the early stages of development with mass production in 2025.

“We will increase our overall production capacity and lead the most advanced technologies while taking silicon scaling a step further and continuing technological innovation by application,” said Dr. Siyoung Choi, President and Head of Foundry Business at Samsung Electronics. "Amid further digitalization prompted by the COVID-19 pandemic, our customers and partners will discover the limitless potential of silicon implementation for delivering the right technology at the right time."

Additionally, Samsung is advancing its 14nm process in order to support 3.3V high voltage or flash-type embedded MRAM (eMRAM) which enables increased write speed and density. It will be a great option for applications such as micro controller unit (MCU), IoT and wearables. Samsung’s 8nm radio frequency (RF) platform is expected to expand the company’s leadership in the 5G semiconductor market from sub-6GHz to mmWave applications.

http://news.samsung.com

POET's Interposer selected for 100G CWDM4 and LR4 engines

POET Technologies has secured a commitment from a leading network systems company for a unique multi-engine design for 100G CWDM4 and 100G LR4 Optical Engines based on the POET Optical Interposer.  The combined value of the NRE and the purchase order for initial units exceeds US$1.2 million.

The POET Optical Interposer enables the integration of electronic and photonic devices into a single multi-chip module using advanced wafer-level semiconductor manufacturing techniques and packaging methods. The company says its platform eliminates costly components and labor-intensive assembly, alignment, burn-in and testing methods employed in conventional photonics. 

“We have been engaged with this customer for several months on a breakthrough design to incorporate multiple optical engines in a single industry standard transceiver module, something that only a POET Optical Interposer-based engine can enable,” noted Vivek Rajgarhia, President & General Manager of POET Technologies Inc. “The LR4 product is directed at the client side of major telecom networks, using rigorous standards for data communication between a transport network backbone to data centers and customer locations globally. Our customer is already selling into the well-established telecom equipment market, and with the POET Optical Engines, will be able to offer a solution to its customers that delivers superior performance at a price that cannot be matched today by competing solutions."

http://www.poet-technologies.com


AT&T to leverage Frontier’s Ethernet and fiber infrastructure

AT&T announced a deal with Frontier Communications to bring fiber-optic connectivity to large enterprise customers outside AT&T’s current footprint. The two companies signed multi-year strategic agreements that will also support deployment of AT&T’s 5G mobility network.

Frontier is pursuing a Build Gigabit America fiber expansion plan that will pass 10 million locations by the end of 2025. Frontier expects to make fiber available to 600,000 new locations in 2021, resulting in approximately 4 million fiber locations passed by the end of the year. 

AT&T said the agreement will enable it to quickly reach additional locations by utilizing Frontier’s fiber network. Together, the two companies will enable high-speed connectivity to large enterprise customers within Frontier’s 25-state footprint.


Specifically, AT&T will be able to utilize Frontier’s fiber network to help reach enterprise customers in Frontier’s service territories reaching 25 states. AT&T will also use Frontier’s network to strengthen nationwide deployment of its 5G network. In addition, AT&T will tap Frontier’s Ethernet network to boost connectivity between cell towers and the core network.

https://about.att.com/story/2021/att_frontier_deal.html

Frontier accelerates fiber buildout

 Frontier Communications has set a new objective to reach 10 million total fiber locations by the end of 2025. Frontier made significant progress toward this objective in the second quarter of 2021, building fiber to approximately 157,000 new locations. Frontier now expects to reach 600,000 new locations in 2021, resulting in approximately 4 million fiber locations passed by the end of the year.

Nick Jeffery, President and Chief Executive Officer of Frontier, said “Demand for high-speed broadband is growing rapidly, and fiber is the best product to meet the needs of consumers and businesses. Frontier is already doing what customers want and cable can’t – delivering symmetrical download and upload speeds with far lower latency than our competition. Early next year, we will start delivering 2 gigabit per second services, further stretching our performance lead to where only fiber can compete. We have hard work ahead of us, but momentum is increasing as we rally the Frontier team around our mission to Build Gigabit America.”


The company provided the following updates:

  • Frontier’s currently is able to deliver symmetrical 1 Gbps download and upload speeds;
  • The company plans to launch a symmetrical 2 Gbps offering in the first quarter of 2022 that will unlock next-generation digital experiences for customers;
  • Frontier plans to deploy fiber to reach 10 million locations by 2025; and
  • Frontier has set a new target of $250 million run rate savings by 2023 from simplifying its operations and improve the customer experience.

In addition, Frontier reported consolidated Q2 revenue of $1.62 billion, a 7.9% decline from consolidated revenue reported in the second quarter of 2020, due to declining consumer copper subscribers and wholesale revenue, and the impact of fresh start accounting. 

Frontier’s overall data and internet services revenue of $839 million decreased slightly in the second quarter of 2021 primarily due to declining copper subscribers. fiber broadband revenue was $268 million, a 13.6% increase over the second quarter of 2020, due to subscriber gains and higher ARPU. Consumer fiber net adds were approximately 12,000 in the quarter, the eighth consecutive quarter of positive consumer fiber net adds, resulting in broadband customer growth of 3.3% relative to the second quarter of 2020.

Second quarter 2021 operating income was $298 million. Net income was $4.58 billion due to approximately $4.2 billion of reorganization gains in the quarter, primarily related to the extinguishment of debt.

Capital expenditures increased to $385 million in the quarter from $225 million in the second quarter of 2020, as fiber expansion initiatives accelerated.

https://investor.frontier.com/

https://s1.q4cdn.com/144417568/files/doc_financials/2021/q2/FYBR-2021-Investor-Day-Presentation.pdf

Frontier emerges from Chapter 11 and sets sights on fiber expansion

Frontier Communications completed its financial restructuring process and emerged from Chapter 11. Through the bankruptcy proceedings, Frontier has reduced its debt by approximately $11 billion and annual interest expense by approximately $1 billion. The company says it is now well-positioned to accelerate its transformation to become a leading telecommunications technology company in the United States through investment in innovation, fiber...


Vertical Systems: Gigabit services driving U.S. retail Carrier Ethernet

Gigabit services are the largest and fastest growing source of U.S. retail Carrier Ethernet revenue, according to Vertical Systems Group’s latest ENS (Emerging Networks Service). 

The Ethernet services delivered using 1 Gbps and higher speed ports now contribute more than half (54%) of U.S. Ethernet revenue, and comprise just over one quarter (26%) of ports installed at customer sites.

Solid revenue growth is projected through 2025 for gigabit port capacities, in contrast to revenue erosion for lower speed Ethernet connectivity. 

Vertical’s analysis includes detailed projections for six services across five speed segments. The speed segments are 10+ Gbps, 1 Gbps, 100 Mbps, 10 Mbps, and Sub-10 Mbps. Service segments covered include DIA (Dedicated Internet Access), Ethernet Access to IP/MPLS, EPL (Ethernet Private Lines), EVPL (Ethernet Virtual Private Lines), Metro LAN and WAN VPLS (Wide Area Network Virtual Private LAN Service).

Ethernet Research Highlights

  • Total U.S. Ethernet revenue dipped as a result of COVID-related disruptions and price compression, however the number of Ethernet ports installed at customer sites continued to expand.
  • 1 Gbps is the top speed segment based on Ethernet revenue through 2025.
  • 100 Mbps remains the largest Ethernet speed segment based on customer port installations.
  • EPL is the top Ethernet service segment based on revenue through 2022.
  • DIA has the highest projected CAGRs through 2025 for both ports and revenue. Demand for DIA is boosted by requirements for secure, dedicated connectivity to cloud services and data centers, as well as access links for SD-WAN underlays.
  • Bandwidth utilization for U.S. Ethernet customer ports is climbing at double digit rates. By 2025, gigabit speed services will contribute an estimated 97% of total Ethernet bandwidth.
  • Requirements for gigabit Ethernet services are spurring new fiber buildouts. All of the Ethernet Service Providers ranked on Vertical’s Mid-2021 U.S. Carrier Ethernet LEADERBOARD also hold a rank position for fiber provider leadership on the latest U.S. Fiber Lit Buildings LEADERBOARD.
  • Ethernet price compression continues across every service and speed combination as billed to customers (i.e., average ‘street price’ net of discounts).
  • Challenges to Ethernet market expansion include SD-WAN, wavelength services and dark fiber.

https://www.verticalsystems.com/2021/10/04/statflash-gigabit-ethernet-2021/

Nokia and MediaTek achieve 3.2 Gbps with FDD/TDD aggregation

Nokia and MediaTek achieved 3.2Gbps peak downlink throughput by aggregating 5G Standalone (5G SA) spectrum using 3 Components Carrier (3CC) aggregation, effectively combining 210MHz of FDD and TDD spectrum.

Nokia supplied its latest AirScale equipment including its AirScale 5G SA architecture powered by its ReefShark System-on-Chip (SoC) technology as well as its cloud-native 5G core. MediaTek provided its new M80 5G modem which combines mmWave and sub-6 GHz capabilities onto a  single chip as well as the user equipment testing platform.


Frequency division duplex (FDD) in 600MHz (n71) is a lower frequency band that provides a wide coverage area, improving cell edge performance. Time-division duplex (TDD) in 2600MHz (n41) has higher bandwidth and capacity. The combination of these spectrum bands supports a range of 5G deployment scenarios including indoor as well enhanced outdoor coverage. The high-band sub-6Ghz spectrum bands support high-capacity and extreme mobile broadband capabilities.

JS Pan, General Manager, Wireless Communication System, and Partnerships at MediaTek, said: “This test demonstrates the importance of carrier aggregation in enabling mobile operators around the world to deliver best-in-class speed and capacity to their subscribers. The combination of Nokia’s AirScale portfolio and our technology boosts the possibilities of spectrum assets and 5G networks. We look forward to continuing to partner with Nokia to advance the 5G ecosystem.”

Arista ships a Wi-Fi 6E access point

Arista Networks has begun taking orders for a new Wi-Fi 6E access point as part of its cognitive campus edge portfolio.

The C-360 wireless platform for next generation campus edge infrastructures is Arista’s cognitive unified edge solution with advanced AI/ML capabilities for understanding which devices are on the wired and wireless network, what they're doing, and whether they're properly segmented. 

Key specs for the C-360

  • Full-featured Wi-Fi 6E, 12 Stream AP
  • Access radios: 4x4:4 6/5GHz Radio + 4x4:4 5GHz Radio + 4x4:4 2.4 GHz Radio
  • 2x2 tri-band multifunctional radio for network assurance, RRM, security and troubleshooting
  • 2x 10 Gigabit Ethernet PoE ports (MACsec capable)
  • Integrated IoT support (BLE/Zigbee)
  • Distributed Data and Control plane
  • IZero-touch deployment through automatic cloud activation and configuration
  • AI/ML driven diagnostics and troubleshooting
  • Network Assurance with Client Connectivity tests
  • Next generation 6 GHz Wireless Intrusion Prevention System (WIPS)

https://www.arista.com/en/company/news/press-release/13241-pr-20211006

Syniverse confirms long running breach of its global SMS network

In an SEC filing, Syniverse, which provides SMS connectivity services for nearly all mobile carriers, confirmed that a cyber breach discovered in May 2021 had been underway since May 2016.

Syniverse said an individual or organization gained unauthorized access to databases within its network on several occasions, and that login information allowing access to or from its Electronic Data Transfer (“EDT”) environment was compromised for approximately 235 of its customers. All EDT customers have been notified and have had their credentials reset or inactivated, even if their credentials were not impacted by the incident. All customers whose credentials were impacted have been notified of that circumstance.

 In its filing, Syniverse also noted that AT&T Mobility generated 11.4% and 13.5% of its total revenues for the six months ended May 31, 2021 and the eleven months ended November 30, 2020, respectively. A significant amount of Syniverse’s remaining revenues were generated by a small number of additional customers, including Twilio. For the six months ended May 31, 2021, Syniverse’s top 10 carrier customers accounted for approximately 45% of its carrier revenue, and its top 10 enterprise customers accounted for approximately 53% of its enterprise revenue.

https://www.sec.gov/Archives/edgar/data/1839175/000119312521284329/d234831dprem14a.htm

Nokia: network automation delivers 65% OPEX cost avoidance

Operators can expect up to a 65% cost avoidance after implementing IP network automation according to Nokia based on a study performed by research firm Analysys Mason.

The study focused on network automation implemented for the operator’s service fulfilment, network lifecycle management, and network and service assurance processes with the Nokia NSP, a domain controller for multivendor IP, optical and microwave networks.

Analysys Mason interviewed a group of global operators on their network automation strategies and results, collecting more than 60 data points. Analysys Mason then extrapolated the quantified benefits that can be expected from automating IP networks.  Analysys Mason found cost avoidance at the domain controller is the result of multiple factors:

  • Process automation reduces the labor time requirement for manual workloads by up to 68%.
  • Consequently, the time needed to roll out new services is reduced by up to 88%.
  • Less manual tasks also means less human errors and higher predictability. The use of a standardized scenarios reduces the frequency of order fallout and issues that require manual correction. Overall, the time spent to process errors is reduced by up to 85%.
  • Automating alarm correlation and root cause analysis offers a significant improvement to the mean time to repair (MTTR) – up to 71%.

Larry Goldman, Chief Analyst and Project Director, Analysys Mason, said: “Our study shows clear benefits at the domain layer, and we highly recommend operators automate network management processes for their IP services. Network automation will be critical to enable future network slicing-based business models. Operators should also look for a network automation platform such as the Nokia NSP to reap the benefits of automation and ensure the efficient and automated management and control of network slice-based services.”

https://www.nokia.com/about-us/news/releases/2021/10/05/nokia-study-finds-operators-can-avoid-65-of-operational-costs-with-ip-network-automation/

Cadence debuts 3D-IC for multi-chiplet and advanced packaging

Cadence Design Systems released its Integrity 3D-IC platform integrating 3D chip design planning, implementation and system analysis.

Cadence says its platform provides system planning, integrated electrothermal, static timing analysis (STA) and physical verification flows, enabling faster, high-quality 3D design closure. It also incorporates 3D exploration flows, which take 2D design netlists to create multiple 3D stacking scenarios based on user input, automatically selecting the optimal, final 3D stacked configuration. 

Features and benefits:

  • Common cockpit and database: Lets SoC and package design teams co-optimize the system concurrently, allowing system-level feedback to be incorporated efficiently.
  • Complete planning system: Incorporates a 3D-IC stack planning system for all types of 3D designs, enabling customers to manage and implement native 3D stacking.
  • Seamless implementation tool integration: Provides ease of use through direct script-based integration with the Cadence Innovus Implementation System for high-capacity digital designs with 3D die partitioning, optimization and timing flows.
  • Integrated system-level analysis capabilities: Enables 3D-IC design through early electrothermal and cross-die STA, which allows early system-level feedback for system-driven PPA.
  • Co-design with the Virtuoso Design Environment and Allegro packaging technologies: Allows engineers to seamlessly move design data from Cadence analog and packaging environments to different parts of the system through the hierarchical database, enabling faster design closure and improved productivity.

“Cadence has historically offered customers strong 3D-IC packaging solutions through its leading digital, analog and package implementation product lines,” said Dr. Chin-Chi Teng, senior vice president and general manager in the Digital & Signoff Group at Cadence. “With recent developments in advanced packaging technologies, we saw a need to further build upon our successful 3D-IC foundation, providing a more tightly integrated platform that ties our implementation technology with system-level planning and analysis. As the industry continues to move toward different configurations of 3D stacked dies, the new Integrity 3D-IC platform lets customers achieve system-driven PPA, reduced design complexity and faster time to market.”

http://www.cadence.com/go/3DIC


Henshall steps down as CEO of Citrix

 David J. Henshall stepped down as President and CEO of Citrix Systems and as a member of the company’s board.

Citrix named Bob Calderoni, Chair of the Citrix Board of Directors as interim CEO and President, effective immediately.

“I would like to thank David for his many contributions to Citrix,” said Bob Calderoni. “David played a key role in accelerating our cloud transition and has driven significant improvements in our products, with over a dozen SaaS services actively supporting more than 11 million subscribers.

“David has also been instrumental in helping the Company and our employees navigate the pandemic, and successfully positioned Citrix to help customers around the world and across industries maintain business operations with minimal disruption. The entire Board thanks him for his contributions over nearly 20 years.”

In addition, based on preliminary unaudited financial information, Citrix said it expects to report revenue at the midpoint to the high end of its previously announced guidance range of $765 million to $775 million for the third quarter ended September 30, 2021. Citrix will report full financial results for the third quarter on Thursday, November 4, 2021, before market open.




VodafoneZiggo picks RedHat Openstack

VodafoneZiggo will deploy a hybrid cloud platform based on Red Hat OpenShift to unify its application infrastructure in the Netherlands, including its new standalone 5G core. The carrier has selected Red Hat OpenShift as its foundation for cloud-native applications across both the network and the business, with 5G Core as its first deployment. After a successful proof of concept, VodafoneZiggo enlisted Red Hat Consulting to support the production roll out of Red Hat OpenShift and to provide guidance for embracing agile development models like DevSecOps as well as moving to a more open, collaborative culture. 


VodafoneZiggo already had a common platform in place for its 4G mobile core and several business applications, built on Red Hat OpenStack Platform. 

“Through a flexible, open strategy, Red Hat strives to help service providers be more central to the digital value chain as they navigate changing industry and consumer dynamics. Red Hat helps drive open innovation around real-world needs in the telecommunications industry, bringing many of these innovations in cloud-native networking to Red Hat OpenShift. We are proud to provide VodafoneZiggo with a foundation to support a wide range of 5G use cases whilst helping minimize operational complexities and costs, ultimately powering diverse new services for people and businesses,” states Darrell Jordan-Smith, senior vice president, Industries and Global Accounts, Red Hat.