Thursday, October 15, 2020

2020 Edge and Beyond series

 As part of our Next Gen Infrastructure series, we are kicking off a new set of short videos on Edge & Beyond network technologies from leaders in this space, including Kaloom, Accedian, Telecom Infra Project, Ericsson Networks, Juniper Networks, The Linux Foundation, Open Networking Foundation (ONF) and many others. 

The site also offers a free 2020 Edge and Beyond Report with analysis of the reality on the ground as well as recommendations on how cloud providers, enterprises, carriers, and other ecosystem members should position themselves to take advantage of the cloud’s next evolution. 

Please visit https://nextgeninfra.io/edge/



Perspective: Growth occurs at the cloud edge

by Hitendra “Sonny” Soni, senior vice president worldwide sales and marketing, Kaloom

Elvis Presley sang the song “If I can dream” in ‘68, inspired by the turmoil a growing nation was going through. In today’s pandemic reality, connectivity has become more important than ever, but innovation needs to take place at multiple levels to get us where we need to be.

When our startup was founded, the assumptions that SDN and NFV would deliver programmability, automation, drive down costs and disrupt vendor lock-in had not yet materialized despite years of effort from the networking community. 

While SDN promised the Net Ops engineer’s dream of a truly programmable network, it initially enabled just a limited amount of additional software control and flexibility. Without programmability, the hardware could only perform the functions it was created with and networking would continue to lag behind the rapid advances made in other cloud technologies such as storage, compute and application development. 

Gartner comments about SDN’s “Plateau of Productivity” on the analyst firm’s famous hype-cycle curve has led to multiple pundit headlines such as “SDN is dead, long live SDN” and my personal favorite “SDN has left the building.” However, these are not just about naming nuances. They represent the true pitfalls of SDN as it was originally intended – specifically taking so long to mature, being difficult to operationalize and not delivering on lowering networking’s costs.  

Whatever you were doing, or wanted to do, in software you couldn’t change what the non-programmable chip/hardware was capable of. This meant that the much-anticipated rapid innovation pace of software development and open source collaboration that were supposed to accelerate networking capabilities were still hamstrung by a years-long hardware product cycle. If I could dream of a truly cloud-native programmable fabric, here are five characteristics that cloud-native edge solutions would look like. 

1. Open Source 

The real vision of SDN and NFV is built on community-based, open-source standards such as those from the IETF, ONF, The Broadband Forum, The Linux Foundation, and many others.

Recent years have seen an entire ecosystem of truly open-source, collaborative communities geared towards solving the challenges created by SDN’s initial vision. In fact, there are so many “.orgs” working on this that it can be confusing for service providers to decide which one to use to address each of its various needs. Today, many of these have joined, merged, or collaborated with the IEEE, Open Networking Foundation (ONF), Apache, Linux and – in the case of Kubernetes – its Cloud Native Computing Foundation (CNCF), among others. 

2. Live Truly on the Edge

New 5G-enabled apps require extreme low latency which demands a distributed edge architecture that puts applications close to their data source and end users. We can’t have autonomous vehicles or other mission-critical manufacturing apps experiencing loss of signal, network interruptions or increased latency. The delicacy of their connection to the network must be automatically prioritized. Workloads need to be managed and decisions made at edge-level precision which requires an end-to-end latency below 10 milliseconds. Much of our public cloud infrastructure today is not yet set up for this. 

For example, the latency from New-York to Amazon Web Services or Microsoft Azure in Northern - Virginia is greater than 20 milliseconds. Simply not good enough. The image below, which is taken from The Linux Foundation’s State of the Edge (SOTE) 2020 report, demonstrates the importance of low latency in supporting next-gen applications.

 3. Make Real-Business ‘Cents

At the moment, the 5G business case is simply not justified, and carriers will not deploy true nationwide 5G because there is no demand for it yet and there needs to be an opportunity to monetize. For example, service providers’ revenues from smartphone users running 3G/4G were about $50 per month. However, connected cars will only generate about $1 or $2 per month, and installing 5G requires extreme amounts of upfront investments, not only in antennas but also in the backend servers, storage, and networking switches required to support these apps. The reality is that 5G will requires a 10x reduced total cost of ownership for the infrastructure deployments to be profitable.  

To succeed any new technology must deliver significant economic disruption. One example of this is network slicing, or partitioning network architectures into virtual data centers while using the same shared physical infrastructure. With 5G-enabled secure, end to end, fully isolated network slicing, it’s conceivable that different service providers – for example MVNOs – could share the same physical network resources while maintaining different SLAs and offering differentiated services. They could also share a half- or full rack, depending on how many servers their apps require. This could enable initial 5G service rollouts while minimizing costs, and risks, via shared infrastructure.

4. Be Green

If there is anything this pandemic has taught us, it is that efficiency is king. We all stopped and realized just how much we needed to get by and how much was wasted. As the global manufacturing economy came to an abrupt halt in early 2020, we turned our focus on critical infrastructure. In that light, many local central offices (COs) are nearly maxed-out in terms of available space, power and cooling, leaving little room to support additional rack units (RUs). 

In fact, large regional cloud facilities were not built for the new distributed edge paradigm and service providers’ legacy Central Office (CO) architectures are even more ill-suited for the shift. Containing an odd mishmash of old and new equipment from each decade going back at least 50 years, these facilities are also typically near the limit of their space, power and cooling requirements.

This major buildup to 5G-supported edge infrastructure will have an extremely negative impact on the environment in terms of energy consumption. According to the Linux Foundation’s State of the Edge 2020 report, by 2028 it will consume 102,000 megawatts of power and over $700 billion in cumulative CAPEX will be spent within the next decade on edge IT infrastructure and data center facilities.  We need technology that can dramatically and rapidly reduce the power required to provide these new 5G services and apps to consumers and enterprises. This image, also from the SOTE2020 report, shows the massive need for more power to support 5G and its next-gen apps. 


5. Built on Collaboration

The “edge” is complicated and in many cases cloud players and telcos have yet to fully comprehend how to manage distributed edge locations and the next-generation of applications they will run. In order to truly succeed this dream takes a village to build, where carriers, network operators and cloud-native solution providers work together. Because if we dream it, we can build it. We truly believe in our calling and we may yet get to that promised land. Ok, that is the last Elvis pundit for this post. Thank you very much. 


Hitendra “Sonny” Soni is the Senior Vice President of Worldwide Sales and Marketing at Kaloom. With over 25 years of experience in sales, business development and marketing in the data center and cloud networking, converged infrastructures and management solutions, Sonny is a passionate entrepreneur, who has spent his entire career bringing innovative technology to the market.


Telefónica secures 5G backhaul with Juniper

Telefónica Spain has selected Juniper Networks' Security Gateway (SecGW) SRX5800 platform to secure the mobile backhaul of its 5G network.

The companies said Telefonica picked Juniper’s Security Gateway (SecGW) SRX5800 because of performance, scalability and service integration. vSRX and cSRX are also available, allowing the solution to extend seamlessly across the Telco Cloud infrastructure.

Juniper’s SRX Series can also be used to support additional services, including Carrier-Grade Network Address Translation (CGNAT) that helps solving the problem of shortage of public IPv4 addresses, Stateful Firewall, Intrusion Prevention System (IPS), Denial of Service (DoS), Application Security, VPN (IPsec), Unified Threat Management (UTM), Quality of Service (QoS) and Large-scale Multitenancy.

Telefonica will use the third generation Services Processing Card (SPC3) with higher throughput and encryption capabilities to meet the high bandwidth requirements for large scale 5G deployments, as well as fourth generation of Input Output Cards (IOC4), supporting up to 480 Gbps and offering multiple connectivity options from 10GbE to 100GbE

Raj Yavatkar, Chief Technology Officer of Juniper Networks, said “In order to better combat and contain security threats in a modern mobile network, service providers like Telefónica are working to ensure security is embedded throughout the network. Juniper’s Security Gateway can help deliver peace-of-mind, as well as regulatory compliance for growing 5G networks, while ensuring network performance is maintained”.

AT&T and Ericsson team on Private Networks over CBRS

 AT&T and Ericsson are teaming up to offer private networking solutions for enterprises using CBRS shared spectrum.

The AT&T Private Cellular Networks service will use Ericsson infrastructure for a localized cellular core and access network. These networks are purpose-built for specific use cases in industrial environments like factories and warehouses, as well as remote locations like mines. Ericsson’s Industry Connect platform also provides a path to 5G. 

The new service complements AT&T’s on-premises edge portfolio, which includes AT&T Multi-Access Edge Computing (MEC).

“It’s always been about options for our customers, especially as they are innovating faster than ever,” said Robert Boyanovsky, VP Enterprise Mobility, AT&T Business. “We’ve been expanding our networking capabilities, and this is a new way for businesses to explore what they can do with private cellular networks – including on-premises edge computing and connecting more IoT devices.”

“Working with AT&T to integrate Ericsson Industry Connect into AT&T Private Cellular Networks allows both companies to further strengthen our collaboration. We’re leveraging our innovation platform to accelerate the digital transformation of industries and provide cost-efficient private network solutions,” said Jeanette Irekvist, VP of Business Solutions & Emerging Business in Global Customer Unit AT&T for Ericsson. “As the industry and ecosystem evolve, we see a need for a wide range of solutions that can address diverse operational, business and commercial requirements.” 

ONF advances its Certified SDN Associate program

The Open Networking Foundation (ONF) announced a major update to its ONF Certified SDN Associate (OCSA) program, which is designed to familiarize and certify engineers with the key components of disaggregated SDN networks, from white box switching to network operating systems, northbound and southbound interfaces, P4 and next-gen SDN interfaces, open source platforms, etc. 

OCSA-2.0 reflects the rapid progress that continues to be made across the SDN industry. OCSA-2.0 updates the content and will replace the original OSCA exam to ensure that certified individuals have a strong foundation and fundamental knowledge of current and relevant networking tools, technologies and trends.  

ONF collaborates with a group of authorized training providers to offer skills training and testing with online and in-person options available worldwide.  To support those studying for the new OCSA-2.0 exam, ONF is also making new free resources available, in particular Larry Peterson’s new book: SDN, a systems approach. The book is organized around the new SDN stack, with the goal of presenting a top-to-bottom tour of SDN without leaving any significant gaps that the reader might suspect can only be filled with magic or proprietary code. Readers can complete hands-on programming exercises included at the end of the book to prove that the software stack is both accessible, robust and complete.

In addition, the ONF launched its new ONF Marketplace featuring products that have completed testing and achieved certification as part of ONF’s Continuous Certification Program. ONF’s open source platforms that are currently part of this program include Aether, Stratum, SEBA and VOLTHA.

https://www.opennetworking.org/uncategorized/onf-announces-major-update-to-skills-certification-program/



OFC rescheduled to June 2021 in San Francisco

 OFC 2021, the premier event in telecom and data center optics, will now take place 6 – 10, June 2021, at the Moscone Center, San Francisco, California, USA. The exhibition will be held 8 – 10, June 2021. The event, which was originally scheduled for the end of March, will pursue a "blended" in-person and virtual format to reach its audience.

“Since the 2020 conference and exhibition occurred, OFC’s co-sponsors, Steering Committee and Program Chairs have been meeting regularly to ascertain the likely impact of the current pandemic on the event,” said OFC 2021 Steering Committee Chair, Seb Savory, IEEE/Photonics Society, and University of Cambridge, UK. “After careful consideration, having consulted various stakeholders, it became clear that the best solution at this point in time, was to shift the timing of OFC, from March to June. By moving the event to these new dates, we not only increase the likelihood that we will be able meet together in person and so able to enjoy both the usual onsite programming and exhibits, but it also better aligns the timing of OFC with other major conferences that have shifted their timing in response to the pandemic.”

https://www.ofcconference.org/en-us/home/news-and-press/press-releases/ofc-2021,-the-premier-annual-event-for-telecom,-op/

Nokia uses Qualcomm chips for 5G indoor base stations

Nokia's Smart Node portfolio of All-in-One base stations for 5G indoor use will be powered by Qualcomm chipsets. The new 5G Smart Node complements Nokia’s portfolio of 5G Small Cells such as the AirScale Micro Remote Radio Head and AirScale Indoor Radio, which are commercially deployed by many operator networks globally to boost 5G capacity and coverage. It is expected to be available from Q1 2021.

Nokia 5G Smart Node, based on the Qualcomm 5G RAN platform, is a low-power, flexible mount product that enables operators to address 5G network densification and indoor coverage requirements. Easy and quick to install, 5G Smart Nodes are a cost-effective way to extend the availability of 5G across multiple locations and provide a compelling option for in-home, small office and enterprise coverage.

Nokia notes that 80 percent of mobile sessions are initiated indoors. 

Durga Malladi, senior vice president and general manager, 4G/5G, Qualcomm Technologies, Inc., said, “We are delighted to be joining forces with Nokia to bring our industry-leading 5G RAN innovations to a wider array of use-cases and settings. The flexibility and low-price points of 5G Smart Node products resulting from our close engagement with the team at Nokia will help accelerate the adoption of 5G in the residential and small office markets.”

Innovative Optical and Wireless Network Global Forum builds membership

The Innovative Optical and Wireless Network Global Forum (IOWN GF) announced 20 new member companies and successfully held its first all member online meeting with over 300 participants from September 14-18, 2020.

IOWN GF’s objective is to accelerate innovation and adoption of a new communication infrastructure to meet our future data and computing requirements through the development of new technologies, frameworks, specifications and reference design in areas such as Photonics R&D, Distributed Connected Computing and Use Cases and Best Practices. IOWN GF will bring together all photonics network technologies including silicon photonics, edge computing, dynamic computing scaling and wireless distributed computing.

Joining IOWN GF as Sponsor Members are Delta Electronics Inc., Ericsson AB, Furukawa Electric Co., Ltd., Mitsubishi Electric Corporation, Oracle Corporation Japan, Red Hat, and Toyota Motor Corporation. New General Members are ANRITSU Corporation, Deloitte Tohmatsu LLC, Dentsu Inc., Infinera, ITOCHU Techno-Solutions Corporation, Keysight Technologies, KYOWA EXEO Corporation, Mitsubishi Corporation, NVIDIA Corporation, SENKO Advanced Components, Inc., Shin-Etsu Chemical Co., Ltd., Sumitomo Electric Industries, Ltd., and Yazaki Corporation.

“IOWN GF welcomes our newly joined members. We continue to grow rapidly as more companies join and embrace the vision of a new all photonics communications infrastructure. In a very short period of time, we have more than tripled the size of the organization to over 30 leading global companies,” said Katsuhiko Kawazoe, Ph.D., president and chairperson of the board, IOWN Global Forum, Inc. “We are pleased to announce that IOWN GF’s first all member meeting was held in September and was very successful. Member meetings allow members to collaborate and focus on the work of IOWN GF to support important IOWN GF goals.”

IOWN GF’s member meetings feature group and joint sessions of the Technology and Use Case Working Groups. Working group sessions at this member meeting included:

  • Open All Photonics Network (APN)
  • Cyber-Physical Systems Use Cases and Service Platform
  • AI-Integrated Interactive Entertainment and Communication Use Cases and Service Platform
  • Data-Centric Communication and Computing (DCC) Infrastructure

https://www.iowngf.org

Innovative Optical and Wireless Network Forum launched by NTT

NTT, Intel and Sony are joining forces to create a new Innovative Optical and Wireless Network (IOWN) Global Forum, which aims to accelerate the adoption of new communications infrastructure. The goal is to will bring together an all-photonic network including silicon photonics, edge computing, and distributed connected computing, along with wireless access.. IOWN will develop new technologies, frameworks, specifications and reference designs, in...

Intro to NTT's Innovation Optical & Wireless Network

Networking infrastructure is sure to evolve quickly during the 2020s. Kazuhiro Gomi, CEO of NTT Research, introduces the Innovative Optical & Wireless Network (IOWN), a new vision for an all-photonic core network enhanced by quantum technology and breakthroughs in privacy and security. To download the NTT Technology Report for Smart World https://www.ntt.co.jp/RD/e/techtrend/pdf/NTT_TRFSW_S_E.pdf For more great insights from top thought...


KPN picks Ericsson for 5G core


 KPN has awarded a five year contract to Ericsson to deploy dual-mode 5G Core software with full support services, including an accompanying systems integration program with third-line support services.

The secure cloud-native dual-mode Ericsson 5G Core will allow KPN to meet increasing data demands of customers in existing consumer markets, as well as pursue new 5G innovation opportunities in emerging enterprise segments supported by enhanced network slicing capabilities. 

Arun Bansal, President of Europe and Latin America, Ericsson, says: ”We are pleased to expand our 100-year partnership with KPN through our technology-leading 5G Core solutions. We will work closely with KPN to ensure that consumers and enterprises in the Netherlands can benefit from the emerging opportunities of 5G as it embraces digitalization. Ericsson’s cloud-native dual-mode 5G Core provides the cutting-edge, container-based, microservice architecture that will help KPN to both develop new business models as well as move onto the next level of network operational efficiency.”



T

Wednesday, October 14, 2020

Nokia migrates its on-premise IT infrastructure to Google Cloud

 Nokia and Google Cloud entered into a five-year strategic collaboration under which Nokia will migrate its on-premise IT infrastructure onto Google Cloud. Specifically, Nokia will migrate its data centers and servers around the world, as well as various software applications, onto Google Cloud infrastructure. Nokia will also use a suite of Google Cloud products and professional services.  Nokia plans to exit its IT data centers on a rapid schedule. In addition, Nokia’s infrastructure and applications will run in the public cloud or in a Software-as-a-Service model going forward.

Nokia said the deal reflects its operational shift to a cloud-first IT strategy.

Rob Enslin, President at Google Cloud, said: “We are excited to help Nokia revamp its IT infrastructure with our backbone network and our approach to data security, using advanced software-defined networking. We look forward to providing the full menu of our capabilities to help Nokia deliver on its cloud-first strategy and reach its performance requirements.”

Ravi Parmasad, VP Global IT Infrastructure at Nokia, said: “Nokia is on a digital transformation path that is about fundamentally changing how we operate and do business. This is crucial for how our employees collaborate so that we continue to raise the bar on meeting the needs of our customers. 

Fujitsu expands family of 400G pluggable coherent transceivers

Fujitsu Optical Components Limited (FOC) released a 400G ZR+ transceiver that enables coherent WDM transmission greater than 120km in the same form factors (QSFP56-DD and OSFP) as its 400G ZR transceiver. 

FOC has started sample shipments of 400G ZR transceivers, expecting high volume commercial deployment of these 400G coherent products to begin in 2021.

The OpenZR+ MSA aims to expand the transmission distance by using higher performance OFEC (Open Forward Error Correction) from the OpenROADM standard, support multi-rate Ethernet, and enable the selection of the optimum transmission distance and capacity for user needs by supporting adjustable 100G, 200G, 300G, and 400G line side transport links. Separately, the Open ROADM MSA is moving forward with standardization focused on carrier applications and the specifications of flexible coherent pluggable transceivers that support additional specifications not in 400ZR, such as high optical output power, multi-rate, multiplexing function, and additional protocols such as OTN. 

FOC's 400G ZR+ transceiver is available in the same compact QSFP56 -DD and OSFP form factors as the 400ZR. In addition, the use of OFEC, which has higher performance than the CFEC used in 400ZR, allows for a longer transmission reach and ensures the desired interoperability. 

NTT Electronics and Acacia Communications have successfully completed module-level interoperability testing between DSPs in 400ZR and OpenZR+ operatiing modes,using modules supplied by FOC and Acacia. The line interface is configurable from 100GE to 400GE, enabling a wide range of transmission distances. The client interface supports 100GE to 400GE for efficient multiplexing, as shown below in a 4x100G to 400G muxponder application.

FOC’s 400G coherent pluggable transceivers use a next-generation coherent platform based on 7nm CMOS process coherent DSP (Digital Signal Processor), silicon photonics integrated optical devices, and high-density packaging technology. This enables a compact size, low power consumption and low cost per bit rate.

https://www.fujitsu.com/jp/group/foc/en/resources/news/press-releases/2020/20201009.html

FCC qualifies bidders for $16B Rural Digital Opportunity Fund

 The FCC has qualified 386 applicants to bid in the upcoming Rural Digital Opportunity Fund Phase I auction. 


Qualified bidders will compete to receive up to $16 billion over ten years to provide broadband to wholly unserved areas, with priority given to bids for higher speeds (up to 1 Gbps) and lower latency.

“With today’s announcement, we are taking one of the last steps before ringing the opening bell for the Rural Digital Opportunity Fund, our biggest and boldest step yet to bridge the digital divide for over 10 million unserved consumers across rural America,” said FCC Chairman Ajit Pai.  “The unprecedented interest in this auction is due in large part to key decisions by the FCC, including providing substantial funding and promoting technological neutrality toward potential bidding participants, as well as our staff’s extensive work to spread awareness of the program and ensure the broadest participation in a competitive auction that will deliver real benefits to rural Americans across the country.” 


IDC: Worldwide IT and business services revenue hit by pandemic

Due to the pandemic, worldwide IT and business services revenue declined 1.9% year over year (in constant currency) during the first half of 2020 (1H20), according to the International Data Corporation (IDC) Worldwide Semiannual Services Tracker. IDC estimates services revenue fell below $500 billion (in constant currency) in 1H20. Taking into account the strengthening dollar, the actual decline was 3.7% yoy.

Some key insights from IDC:

  • IDC forecasts the market to continue to decline throughout the year, however, the near-term outlook is less pessimistic than a few months ago. The June market forecast update projected the market to decline 2.8% for 2020. The current forecast tempers that to just a 2.3% decline. 
  • The forecast growth rate for 2021 has also been increased by 500 basis points, from 1.4% to 1.9%, reflecting optimism for a quicker and stronger recovery.
  • IDC's view on the supply side remains intact. Most services providers have helped their clients' employees transition to working from home without major hiccups. As most providers expect to continue remote working throughout the year and even well into 2021, productivity and potential employee burnout remain a top challenge and concern for leadership. IDC believes that the short-term financial impact will be limited.
  • The demand-side shock was indeed severe and immediate. Most large global vendors, including top Indian services providers, saw their second quarter reported revenue growth reduced by at least a few percentage points from pre-COVID-19 levels.
  • Some vendors are reporting strong bookings in the second quarter and more active pipelines despite declining revenues. Sales teams are adopting quickly to virtual B2B selling and taking advantage the expanded "mind-share" of senior business leaders (more time or freed up due to no travelling/commuting and more open-minded to new ideas and new ways of doing things, unlocked by the crisis). This has already contributed to large deal making in the third quarter. Most vendors believe that in the long run the crisis is a net-positive with the COVID-19 crisis tipping organizations and consumers over to the digital world.
  • From a regional perspective, IDC's outlook for the US services market is slightly more pessimistic, but improved for several major international markets, including Europe and China. 
  • In the Americas, the services market is forecast to contract 2.7% in 2020, a slight improvement from the 2.3% contraction in the June update. 
  • The forecast for Europe received significant upward adjustments in this forecast update. While the Euro area GDP is still projected to shrink by more than 8% this year, it is less severe than previously expected.

https://www.idc.com/getdoc.jsp?containerId=prUS46934520

Spark New Zealand launches 5G with Nokia

Spark New Zealand launched 5G services in the Auckland Viaduct area using Nokia’s AirScale radio portfolio. 

Spark New Zealand and Nokia have a long-established relationship, crossing multiple domains, including IP, optical and wireless. Nokia and Spark have collaborated extensively on 5G technology, with Nokia supporting Spark’s 5G networks across New Zealand. The service rollout in Auckland adds to Nokia’s solid 5G momentum in the region, while it allows Spark to offer additional services in high traffic areas.

New Zealand blocks Huawei from 5G Infrastructure

The government of New Zealand will block Huawei from participating in 5G infrastructure.

Spark New Zealand disclosed that the Director-General of the Government Communications Security Bureau (GCSB) has notified the company of the decision based on national security concerns.

Spark was planning on deploying Huawei equipment in its 5G RAN rollout. Spark said is disappointed by the decision but remains on track to launch 5G services by mid-2020.

Adamo picks Ekinops for optical transport in Spain

Adamo has selected Ekinops' FlexRate optical transport solution as part of a €250 million infrastructure investment which will deliver fiber optic services to homes and businesses in less densely populated areas across Spain. 

Adamo is currently deploying the Ekinops 200G FlexRate, a high-capacity optical transport platform which provides native 100 Gbps services. In combination with the aggregation of multiple 10GbE clients together on a single high-speed 200 Gbps link, it significantly lowers the cost-per-bit and operational expenditure, in addition to providing  400G and 600G compliance to accommodate future network growth. Ekinops' Celestis NMS (Network Management System) is also installed to monitor the network infrastructure to prevent outages and minimize service disruption.

"Adamo's mission is to provide greater internet connectivity to Spain's rural areas and smaller cities which are not well served by other operators," says Martin Czermin, CEO, Adamo. "Central to this mission is extending our backbone network and this cannot happen without a trusted supplier. Working with Ekinops is helping us to provide competitive and future-proofed high-speed optical fiber services to the market at the lowest cost per bit, with better than the required reliability."   

"Adamo's aim to provide high-quality internet and telecom services outside of key cities is admirable, and especially poignant in today's world where connectivity to work and loved ones is crucial," says Frank Dedobbeleer, Group Vice President Sales EMEA & APAC at Ekinops. "This seven figure implementation demonstrates how Ekinops can work with service providers to strengthen their optical fiber network with a robust, efficient solution which is able to overcome complex requirements such as Adamo's. We look forward to providing continued support as the company works towards its business goals."


China Telecom completes 5G SA call with Ericsson Spectrum Sharing

China Telecom (Sichuan) completed China’s first 5G Standalone (SA 5G) Ericsson Spectrum Sharing data call on a commercial network. The milestone was achieved recently on China Telecom’s 2.1GHz commercial 5G network in Deyang City, Sichuan Province.

Ericsson said the demo  shows that Ericsson Spectrum Sharing can be deployed on a dual mode 5G Core-enabling Standalone 5G network. It provides another option for communications service providers such as China Telecom to speed up the roll-out of 5G services. This means China Telecom can roll out FDD New Radio 5G SA networks as part of its wider 5G commercial deployment in the country.

Per Narvinger, Head of Product Area Networks, Ericsson, says: “This achievement shows how communications service providers can use the advantages of the fast and cost-efficient 5G coverage enabled by Ericsson Spectrum Sharing to deploy 5G Standalone. This will create business opportunities for our customers and deliver superior user experiences for 5G subscribers. This is a key milestone for bringing 5G to everyone.”



Tuesday, October 13, 2020

Padtec debuts 800 Gbps and 1.2 Tbps transponders

Padtec introduced its TM800G and TM1200G transponders for short, medium and long distances in a compact, rack mountable form for both telecom and data center applications. The muxponders enable service providers to combine multiple 100Gbps client signals into a single network signal.

Padtec said its new LightPad i6400G platform’s transponders combine a high data transmission rate with a lower cost per transmitted bit and are suited for alien wavelength applications. 

“The development of this product is in line with the company’s commitment to constantly invest in the evolution of its product line, providing the market with innovative solutions and state-of-the-art technology in optical systems”, says Manuel Andrade, Padtec North America’s CEO.

“Another of the technical innovations of this generation of transponders is the more flexible network interfaces that allow better adaptation of optical channels to meet the increasing demands for network performance and expansion”, says Manuel.

The new unit measures 1RU high and 300 mm deep, enabling rack mounting in both datacenters and telecom locations. 

https://www.padtec.com.br/en/padtec-introduces-its-new-generation-of-800-gbs-and-1-2-tbps-transponders/



Next G Alliance looks to 6G

 A new Next G Alliance, organized by ATIS, has been formed to advance North American mobile technology leadership in 6G and beyond over the next decade. 

Founding members include AT&T, Bell Canada, Ciena, Ericsson, Facebook, InterDigital, JMA Wireless, Microsoft, Nokia, Qualcomm Technologies, Samsung, TELUS, Telnyx, T-Mobile, UScellular and Verizon.  

The Next G Alliance seeks "to encompass the full lifecycle of research and development, manufacturing, standardization and market readiness." 

The group says it will initially focus on three strategic actions:

  • Develop a 6G national roadmap that addresses the changing competitive landscape and positions North America as the global leader in R&D, standardization, manufacturing and adoption of Next G technologies.
  • Align the North American technology industry on a core set of priorities that will steer leadership for 6G and beyond to influence government policies and funding.
  • Identify and define the early steps and strategies that will facilitate and lead to rapid commercialization of Next G technologies across new markets and business sectors and promote widescale adoption, both domestically and globally.

“As countries around the globe progress ambitious 6G research and development initiatives, it is critical that North American industry steps forward to develop a collaborative roadmap to advance its position as a global leader over the next decade,” said ATIS President and CEO Susan Miller. “The work of the Next G Alliance delivers just that – from research to commercialization – and it is setting the foundation for a vibrant marketplace for North American innovation in future generations of mobile technology.”

https://nextgalliance.org

Samsung’s 6G White Paper

Samsung published a whitepaper outlining its vision for 6G, including technical and societal megatrends, new services, requirements, candidate technologies and an expected timeline of standardization. Samsung is predicting that the completion of the 6G standard and its earliest commercialization date could be as early as 2028, while mass commercialization may occur around 2030. Both humans and machines will be the main users of 6G, and 6G will be...

NTT DOCOMO aims for 6G in 2030

NTT DOCOMO published a white paper outlining its ambition to launch 6G commercial services by 2030. The white paper summarizes the related technical concepts and the expected diverse use cases of evolving 5G and new 6G communication technologies, as well as the technology components and performance targets. DOCOMO has 6G research and development programs underway. In 2018, the company conducted successful radio wave propagation experiments at...

Keysight joins 6G Flagship Program

Keysight Technologies has joined the multi-party 6G Flagship Program, an initiative supported by the Academy of Finland and led by the University of Oulu, Finland. The parties envision that next generation beyond 5G  will leverage spectrum above millimeter waves called terahertz waves, from 300 GHz to 3 THz, enabling data rates of up to one terabit per second and ultra-low latencies. Keysight said its technical expertise and solutions across...

German researchers investigate THz frequencies for 6G

Researchers at Rohde & Schwarz, the Fraunhofer Institute for Telecommunications, Heinrich Hertz Institute, HHI and the Fraunhofer Institute for Applied Solid State Physics IAF are testing the terahertz (THz) frequency band for possible use in the 6th generation wireless mobile communication (6G). The collaboration has resulted in a wireless transmit and receive system operating between 270 and 320 GHz, with further frequency extensions for potential...



Apple: 5G just got real

Apple unveiled its new line-up of iPhones, which add 5G connectivity, along with a faster A14 Bionic chip with 11.8 billion transistors built on 5nm silicon, tougher screen glass, better cameras, and a new design.  

Apple has conducted 5G testing with 100 carriers in 30 regions, with peak download speeds of up to 3.5 Gbps in ideal conditions.

Apple claims the new iPhones will cover more 5G bands than any other smartphone on the market. These include:

  • 5G NR (Bands n1, n2, n3, n5, n7, n8, n12, n20, n25, n28, n38, n40, n41, n66, n71, n77, n78, n79)
  • 5G NR mmWave (Bands n260, n261)

The new iPhones can access Verizon's mmWave and have achieved over 4.0 Gbps peak download speeds in ideal conditions and with uploads rated at up to 200 Mbps in ideal conditions. 

Apple is also supporting a new Smart Data Mode. When the iPhone does not need 5G, it automatically drops back to LTE.

Connectivity also includes: 

  • Gigabit LTE with 4x4 MIMO and LAA4
  • Wi‑Fi 6 (802.11ax) with 2x2 MIMO
  • Bluetooth 5.0 wireless technology
  • Ultra Wideband chip for spatial awareness5
  • NFC with reader mode

Verizon launches 5G using Dynamic Spectrum Sharing

 Verizon also announced its launch of 5G Nationwide service using Dynamic Spectrum Sharing (DSS), which allows 5G service to run simultaneously with 4G LTE on the same spectrum band. covering more than 200 million customers. The Verizon 5G Nationwide service, which runs on lower spectrum bands than its 5G Ultra Wideband service, now boasts 200 million population coverage footprint. 

"We were first in the world to 5G and we are continuing to drive 5G forward. Our job, our passion, is to push the boundaries of what’s possible, to bring the ecosystem together and to create experiences consumers and enterprises never even knew they needed or wanted," stated Hans Vestberg, Verizon CEO.

The Verizon 5G Ultra Wideband service is now available in 55 cities, 43 stadiums and arenas, and seven airports. On its mmWave spectrum Verizon is achieving download speeds of up to 4 Gbps by using carrier aggregation to combine eight separate channels of mmWave spectrum.