Saturday, July 4, 2020

Rocket Lab launch fails 4 minutes into flight

Rocket Lab 13th "Electron" mission experienced a catastrophic anomaly four minutes into flight, resulting in the loss of customer payload. The mission, ‘Pics Or It Didn’t Happen,’ was launched from New Zealand’s Māhia Peninsula.

The primary payload was Canon Electronics Inc.’s CE-SAT-IB, which was procured by satellite rideshare and mission management provider Spaceflight Inc. Canon Electronics was seeking to demonstrate Earth-imaging technology with high-resolution and wide-angle cameras, as well as test its microsatellite for mass production.
R
ocket Lab, which, currently has more than eight Electron rockets in production, said it hopes to be ready for a rapid return to flight as soon as investigations are complete and any required corrective actions are in place.

“We are deeply sorry to our customers Spaceflight Inc., Canon Electronics Inc., Planet, and In-Space Missions for the loss of their payloads. We know many people poured their hearts and souls into those spacecraft. Today's anomaly is a reminder that space launch can be unforgiving, but we will identify the issue, rectify it, and be safely back on the pad as soon as possible,” said Peter Beck, Rocket Lab founder and CEO. “The launch team operated with professionalism and expertise to implement systems and procedures that ensured the anomaly was managed safely. I’m proud of the way they have responded to a tough day. We’re working together as a team to comb through the data, learn from today, and prepare for our next mission.”


Wednesday, July 1, 2020

O-RAN delivers its Bronze release with 23 new or updated specs

The O-RAN Alliance has launched its second open source software release featuring 23 new or updated specifications.

The O-RAN "Bronze" release also includes an initial set of O-RAN use cases and cloud native deployment support options.


Highlights of O-RAN Bronze:

  • an initial release of an A1 policy manager and an A1 controller that implements the Non-Real-Time Radio Intelligent Controller (Non-RT RIC) architecture.
  • the Near-Real-Time RIC updated to current O-RAN E2 and A1 specifications with 5 sample xAPPs.
  • initial O-CU and O-DU Low/High code contributions that support a FAPI framework and integration between the O-DU and RIC with E2 functionality and subscription support.
  • a Traffic Steering and Quality Prediction use case leveraging an E2 interface data ingest pipeline to demonstrate the functionality of RAN traffic steering with an E2 interface KPI monitoring capability.
  • OAM use cases that exercise Health Check call flows including the Near-RT RIC and its O1 and A1 interfaces.

“The new use cases, the Bronze software release, and the new O-RAN ALLIANCE members are indications that this global forum is working exactly as intended, reaching across borders to drive innovation and build consensus,” said Andre Fuetsch, Chairman of the O-RAN ALLIANCE and Chief Technology Officer – Network Services, at AT&T. “As this coalition evolves, we look forward to seeing how it continues to broaden access to 5G and other new access technologies.”

“Over the past 6 months, O-RAN working groups and the O-RAN Software Community have extensively engaged to achieve tight alignment between the specifications and the Bronze release open source code,” said Chih-Lin I, the Co-Chair of O-RAN Technical Steering Committee. “Specific progress related to both the Non-RT-RIC and the Near-RT-RIC frameworks and associated key interfaces deserves special mention for its importance in enabling AI/ML capabilities in RAN. The O-RAN virtual showcase further demonstrates the growing momentum towards global adoption and deployment of O-RAN solutions.”

“Ericsson is actively engaged in shaping the future of the O-RAN initiative by enabling Non-RT RIC (Non-Real-Time RAN Intelligent Controller) and A1 interface to support fine-grained intelligent steering of the RAN,” said Per Beming, Head of Standards and Industry Initiative in Ericsson. “During OSC Bronze release, Ericsson continued as the key contributor to Non-RT RIC project by improving support for intent based intelligent RAN optimization using A1 interface. This specific capability allows operators to leverage both RAN and non-RAN data to enrich end user experience.”

https://www.o-ran.org/software

OIF launches Optical Module Management Interface Survey

The OIF is conducting a survey to determine how the Common Management Interface Specification is viewed by the industry and the level of industry alignment on and support for further standardization of optical module management. The subject of module management encompasses physical interfaces, communication protocols and management applications layers.

The survey is intended to gather industry opinion regarding evolution of optical module management and the increasing consensus that the intrinsic restrictions of throughput and data organization will not scale well into the future.

“The OIF 400ZR specification covers interoperability on the network fiber and also at the host by defining the electrical interface and software management interface,” said Jeffery J. Maki, distinguished engineer II, Juniper Networks and OIF Physical Layer User Group Working Group Chair. “All of this is done to drive a true multi-sourcing opportunity for the module. Beyond 400ZR, support of the software management interface is an area OIF would like to continue to address and seeks, through the use of a survey, to gauge industry interest and the potential solution approach.”

The survey is available now and open to all who can act as a stakeholder and represent their company’s viewpoint – module vendors, system vendors, and network operators. Multiple responses per company are also allowed. Responses will be collated anonymously and then evaluated by a dedicated survey evaluation team.

OIF will hold a public webinar on Thursday, July 30, 2020 at 7am PDT to announce the results of the survey. Visit the survey webpage to download the survey and for information on the survey deadline, where to submit answers and how to register for the webinar.

https://www.oiforum.com/technical-work/optical-module-management-interface-survey/

OIF's Coherent Common Management Interface Spec supports 400ZR

OIF has completed the Coherent Common Management Interface Specification (C-CMIS) Implementation Agreement (IA), which serves as an extension to the CMIS (QSFP-DD/OSFP/COBO) management specification, specifically targeting DCO modules.

“The C-CMIS IA is an important part of the developing 400ZR ecosystem,” said Ian Betty, Ciena and OIF Board Member. “It defines additional management registers, and monitors, together with new functionality, mechanisms, or behaviors, as needed.”

The C-CMIS IA provides register definition for coherent modules in pages and parameters that were previously reserved. Users that have previously implemented software to manage optical modules using CMIS will be able to quickly add support for these coherent pages and parameters. This release, which augments the existing CMIS specification which focused on addressing direct detect client optics, is targeted at the 400ZR application.

The technology and complexity of coherent modules requires additional monitoring parameters for use in field applications. This additional monitoring is primarily focused on Forward Error Correction (FEC) monitoring and optical/analog monitoring including items like Chromatic Dispersion, Differential Group Delay and Electrical Signal to Noise Ratio (eSNR). The C-CMIS IA provides specifications to monitor the standard parameters in a normative manner while taking advantage of the flexibility of the CMIS specification to monitor any additional proprietary parameters.

“The current IA is focused on supporting the OIF 400ZR IA, which supports a single data path with eight-lane host electrical interface for a 400GBASE-R PCS signal and a single-lane 400G coherent media interface (with a new signal format called 400ZR),” explained Betty. “However, we expect future versions to include more complex Metro modules and may even extend these management features to other form factors.”

DISH takes over Boost Mobile and its 9.3 million subscribers

T-Mobile US completed its previously announced divestiture of Sprint’s prepaid wireless business to DISH Network Corporation, fulfilling a commitment that T-Mobile and Sprint made to the Department of Justice and to the Federal Communications Commission as part of their merger process.'

DISH paid $1.4 billion for the acquisition of Boost Mobile and its 9.3 million customers.

DISH said it will continue to invest in the Boost Mobile brand. John Swieringa, who serves as group president, retail wireless and COO, DISH, will lead Boost Mobile.

Additionally, the divested prepaid customers and new DISH wireless customers will have full access to the new T-Mobile network in a phased approach through a mobile virtual network operator (MVNO) arrangement, as well as through an infrastructure mobile network operator (MNO) arrangement enabling roaming in certain areas until DISH’s 5G network is built out. In connection with the closing of the DISH transaction, T-Mobile, Sprint and DISH entered into certain other ancillary agreements, including a spectrum purchase agreement.

“We just checked an important milestone. In closing our deal with DISH to divest Sprint’s prepaid brand, T-Mobile followed through on fulfilling one of the most significant commitments we made as part of this merger process. We are excited to keep making big steps forward and, as promised, continue to work toward delivering the transformative nationwide 5G network that is only possible with the New T-Mobile’s combined capacity AND breadth to consumers across the U.S.,” said CEO Mike Sievert.

"Boost is uniquely positioned to disrupt this industry. Our passionate team, from employees to retail associates to local business owners, is ready to compete," said John Swieringa. "We'll bring new, exciting products and offers to customers that better meet their needs and fit their budgets. Starting tomorrow, Boost will launch the first of our new offers with the revival of $hrink-It! — rewarding customers with 'the longer you stay, the less you pay.'"

European Commission adopts rules for small cell deployments

The European Commission adopted a new regulation for the deployment of small cell access points, exempting small antennas from any individual town planning permit or other individual prior permits.

The new regulation specifies the physical and technical characteristics of small cells for 5G networks. It aims to help simplify and accelerate 5G network installations, which should be facilitated through a permit-exempt deployment regime, while ensuring that national authorities keep oversight. Permits may still be required for deployment on buildings or sites protected in accordance with national law or where necessary for public safety reasons.

The definition of small cell in the implementing regulation sets tight limits in terms of size and power of those installations.

The European Commission said its definition adheres to strict EU RF exposure limits, which, for the general public, are 50 times lower than what international scientific evidence would suggest as having any potential effect on health.

https://ec.europa.eu/digital-single-market/en/news/commission-adopts-implementing-regulation-pave-way-high-capacity-5g-network-infrastructure

CTIA appoints AT&T's David Christopher as chair

CTIA announced David Christopher, Executive Vice President and General Manager – AT&T Mobility, as its new Board Chairman effective immediately.

Christopher, who previously served as CTIA Vice Chairman, replaces outgoing Chairman Ken Meyers, who earlier announced his retirement as U.S. Cellular President and CEO.  Slayton Stewart, CEO of Carolina West Wireless, will assume the role of Vice Chairman.

“David’s proven leadership and vision will help the U.S. wireless industry build the emerging 5G economy.  We are very lucky to have him as Chairman at this critical juncture,” said CTIA President and CEO Meredith Attwell Baker. “I look forward to working closely with David, Slayton and the rest of the CTIA Board to ensure Americans continue to benefit from world-leading wireless networks. I also want to thank Ken for over 30 years leading our industry and his wisdom and friendship in serving as CTIA Chairman the past two years.”

KVH leverages photonic integrated chip for inertial measurement

KVH Industries, which specializes in high-performance sensors and integrated inertial systems for military applications, introduced a new inertial measurement unit (IMU) that levergages its own photonic integrated chip (PIC) technology.

KVH’s PIC Inside technology features an integrated planar optical chip that replaces individual fiber optic components to simplify production while maintaining or improving accuracy and performance. The company says its PIC Inside product is designed to deliver 20 times higher accuracy than less expensive MEMS inertial measurement units, uses modular designs for ease of integration, and has outstanding repeatability unit-to-unit.

One of the first customers has integrated the P-1775 IMU with PIC Inside into their next-generation rocket launch vehicle.

“I applaud the tremendous effort by our incredible engineers in developing this groundbreaking technology and I am thrilled that we have begun to incorporate PIC Inside technology into our existing products, a process that we expect to continue throughout the year,” says Martin Kits van Heyningen, KVH CEO.

Last year, KVH announced that it had delivered its first product prototypes containing PIC technology to leading automotive customers and presented the science behind the technology to an audience of engineers at a leading inertial sensor conference, describing the extensive development, testing, and benefits of the new technology.

http://www.kvh.com

Ciena appoints Hassan Ahmed to Board

Ciena has appointed Hassan M. Ahmed, Ph.D., to its Board of Directors.

Dr. Ahmed most recently served as Chairman of the Board and Chief Executive Officer of Affirmed Networks, which was acquired by Microsoft in April 2020. Before founding Affirmed Networks in 2010, he was a senior advisor at Charles River Ventures. From 1998 to 2008, Dr. Ahmed served as Chairman and Chief Executive Officer of Sonus Networks. Prior to that time, Dr. Ahmed served in various executive roles at Ascend Communications, Cascade Communications and Analog Devices. He also served as President and founder of WaveAccess, a pioneer in high-speed wireless network products. Dr. Ahmed was Associate Professor of Electrical, Computer and Systems Engineering and Associate Professor of Finance at Boston University. He is the author of more than 50 professional publications and holds a BSEE and MSAE from Carleton University and a Ph.D. in electrical engineering from Stanford University.

Tuesday, June 30, 2020

Facebook to build its next data center in DeKalb, Illinois

Facebook unveiled plans to build a data center in DeKalb, Illinois, approximately 55 miles west of downtown Chicago.

The 907,000-square-foot, LEED Gold facility will be powered entirely by renewable energy. Facebook estimates its investment in the facility at $800 million.

Mortenson Construction was selected as the general contractor.

The DeKalb facility will be its 12th in the United States.

“There are many variables that enter into the decision process for data center locations, and DeKalb provided many compelling reasons for Facebook to bring our newest data center to Illinois,” said Rachel Peterson, Vice President of Data Center Strategy for Facebook.

https://www.facebook.com/watch/DeKalbDataCenter/

Zayo adds U.S. wavelength routes

Zayo announced four new long-haul optical wavelength routes in the U.S:

  • Miami to New Orleans features a high-capacity DWDM network, an architecture used to increase bandwidth. This route, which provides a diverse route out of Miami, provides an option for Latin American carriers that require backhaul from cable landing stations in the area. With completion expected in the third calendar quarter, the route will expand Zayo’s growing presence in Florida. The company is currently constructing 2,300 miles of high-fiber count network in Tampa and Orlando.
  • Dallas to Atlanta to Washington DC and Ashburn, Virginia is scheduled to be completed soon. Driven by demand from customers that need coast-to-coast capacity, this is a new C+L Band Flex Grid DWDM network. The technology enables much better use of available spectrum, providing more capacity than traditional C-band only systems.
  • Chicago to Toronto will create a diverse route from the Chicago Mercantile Exchange to the Toronto Stock Exchange, even faster than Zayo’s existing market leading route. The high-capacity Flex Grid DWDM network will connect Lansing and Grand Rapids to Zayo’s North American Waves Network.
  • Seattle to the Bay Area has been driven by strong customer demand for a high capacity network between these two important West Coast markets. The C+L Band Flex Grid DWDM network connects to the cable landing stations in Portland / Hillsboro, providing trans-Pacific carriers with backhaul. The route also connects to key data centers located in Oregon and California.


“These strategic routes will provide dedicated, high-capacity connectivity to meet the bandwidth needs of customers in commercial, financial and tech sectors,” said Annette Murphy, executive vice president of Lit Solutions. “Our owned infrastructure and range of flexible solutions position Zayo to be the provider of choice for wavelengths.”

https://investors.zayo.com/news-and-events/press-releases/press-release-details/2020/Zayo-Expands-Wavelength-Networks-Between-Strategic-Markets/default.aspx


Telma Madagascar switches on 5G

Telma Madagascar activated its 5G commercial network in multiple cities across the nation.

Telma activated the 5G network on 3.6-3.7 GHz mid-band using the latest radio access and transport products from the Ericsson Radio System portfolio. Two key 5G use cases for the Madagascar market are enhanced mobile broadband (eMBB) and Fixed Wireless Access (FWA).

Patrick Pisal Hamida, CEO, Telma Madagascar, says: “5G will transform how we use and adopt technology and will have a huge impact on businesses and society in Madagascar. It will bring high speed, ultra-low latency and highly secure connectivity to a massive number of devices and is a technology that will unlock a vast array of new use cases through Telma’s next-generation network. We are very proud to be among the first countries in the world to roll out this technology. It’s a new step ahead for Madagascar as one of the leading ICT countries in the Indian Ocean and Africa.” 

Fadi Pharaon, President of Ericsson Middle East and Africa, says: “Today’s announcement marks an important milestone in our long-standing partnership with Telma, as we launch the first 5G network in Madagascar. 5G will accelerate the digital transformation of all society sectors as well as industries in the country, enabling new opportunities and applications in areas such as healthcare, education, energy services and agriculture. We look forward to driving joint innovations with Telma, bringing our industry-leading technology in support of Madagascar’s connectivity vision and our commitment to Africa.”

Ericsson debuts AIR (antenna-integrated radio) for mid-band 5G

Ericsson introduced two new antenna-integrated radio (AIR) solutions to help communications service providers to deploy mid-band 5G networks faster and on a wider scale without adding to their site footprint.

The new Hybrid AIR and Interleaved AIR additions to the Ericsson Radio System portfolio address physical space restrictions at some base station sites.

Per Narvinger, Head of Product Area Networks, Ericsson, says: “It’s a footprint issue. At some network sites, size literally is everything. Communications service providers globally often have limited possibilities to increase the space occupied by network equipment. They need solutions that fit in existing sites and still provide great performance. With the Hybrid AIR and Interleaved AIR solutions, we can help our customers to quickly deliver the benefits of 5G Massive MIMO to more end users. This launch also shows the effectiveness of fully integrated Kathrein Mobile Communication products in our Ericsson Radio System.”

The new Hybrid AIR and Interleaved AIR combine antenna-integrated radios and multiband passive antenna technology in one enclosure. Ericsson calculates that an upgrade to Hybrid AIR or Interleaved AIR with Massive MIMO can result in up to seven times greater mobile broadband capacity than currently available from existing multiband antennas. The capacity gains come from improved Frequency Division Duplex (FDD) spectral efficiencies, new FDD bands and added Massive MIMO mid-bands. The new AIR solutions also boost 4G capacity.

Swisscom and the Vodafone Group have been working with Ericsson on these solutions.

Daniel Staub, Head of Mobile at Swisscom, says: “At Swisscom, we have rolled out 5G technology nationwide as the first provider in Europe. We reached 90 per cent population coverage at the end of 2019 already. Close collaboration with Ericsson and deploying the Hybrid AIR helped us to reach that goal. We are now delivering wide mid-band capacity, while reusing established sites and minimizing additional footprint. We continue to work and innovate to bring the best end-user experience to our 5G subscribers.”

IP Infusion releases Virtual SD-Edge for Cloud-based Secure Routing

IP Infusion announced the general availability of its Virtual SD-Edge router in the Azure Marketplace and as a VM image for private cloud or x86 based virtual environments. It will soon be on Amazon Web Services (AWS).

The Virtual SD-Edge router securely extends WAN connectivity into hybrid cloud environments for Enterprises and MSPs. It supports enterprise class networking features such as routing, VPN, firewall, NAT and QoS in a comprehensive package. Virtual SD-Edge provides carrier class routing and enables multiple use cases, including cloud migration, branch to cloud as well as multi-site, multi-cloud connectivity.

IP Infusion said its Virtual SD-Edge is based on DANOS-Vyatta edition (DVe), which is widely deployed across multiple, white box use cases in AT&T’s production network as well as other service provider networks. DVe is built on DANOS, the first open source, carrier-targeted network operating system (NOS) project hosted by the Linux Foundation, and offers industry-leading control plane features and a more complete data plane integration for switching silicon. DANOS is available on GitHub to facilitate evaluations and Proof of Concepts of disaggregation for VNFs and applications.

“To reduce costs and become more agile, large and small businesses are rapidly migrating to the cloud and require enterprise-class cloud connectivity. Our Virtual SD-Edge is optimized for streamlined packet processing and virtualized resource utilization,” said Atsushi Ogata, President and CEO, IP Infusion. “The combination of a compact footprint, ability to drive 10 Gbps+ throughput per Physical Core and advanced control plane enable a broad range of virtual and cloud networking use cases.”

http://www.IPInfusion.com/VirtualSD-Edge
https://www.danosproject.org



IP Infusion's new Open SD-Edge enables uCPE based on DANOS

IP Infusion introduced its Open SD-Edge platform for universal Customer Premise Equipment (uCPE) based on DANOS-Vyatta edition software, which is widely deployed at scale for multiple, white box use cases in AT&T’s production network.

DANOS is a carrier-targeted network operating system (NOS) project hosted by the Linux Foundation. By pre-integrating with the FRR (FRRouting) and DPDK (Data Plane Development Kit) projects, DANOS facilitates evaluations and Proof of Concepts for VNFs and applications.

IP Infusion said its Open SD-Edge platform supports a range of uCPE use cases and delivers a platform for operational simplicity, agile deployment of virtualized services and lower CAPEX, leading to reduced total cost of ownership. It includes white box hardware, DANOS-Vyatta edition, and hosts third-party Virtualized Network Functions (VNFs) for SD-WAN, routing, VPN, and firewall support for VNFs on a general-purpose appliance. This eliminates the need for stacks of proprietary equipment and software that require specialized IT skills to install, configure, and maintain.

“As a leader in disaggregated networking, IP Infusion’s Open SD-Edge platform allows our customers a streamlined path to migrate to Software-Defined services, simplify network infrastructure and management, while future-proofing their networks as their business needs evolve,” said Atsushi Ogata, President and CEO, IP Infusion. “Today’s agile businesses require support at lightning speeds. With industry standard hardware infused with open source software, and virtualized technology, our customers can realize unprecedented agility and automation at a lowest cost per bit.”

Under an agreement with AT&T, IP Infusion is the value-added integrator of DANOS-Vyatta edition and has the rights to sell DANOS-Vyatta edition as a commercial solution and provide ongoing support for carrier customers who need additional integration expertise. It also allows provides the flexibility for users to choose from multiple hardware vendors.

DANOS-Vyatta edition now covers cell site router (CSR) and uCPE applications in a common platform for both wide area and local area networking. The three new Open SD-Edge use cases planned for delivery in 2020 are:

  • Virtual SD-Edge – General availability in Q2’20 - available in virtual form-factor to securely extend VPN to the public or private cloud and deliver scalable WAN, Security and CG-NAT functions.
  • Branch SD-Edge – General availability in Q3’20 - available in a white-box or virtual form-factor for securely interconnecting branch offices and migrating workloads to the cloud.
  • Universal SD-Edge – General availability in Q4’20 - cloud managed uCPE for enterprise/branch connectivity including security, SD-WAN and WAN optimization use cases, with the flexibility to add VNF services from third parties.

The Cloud Services Router and uCPE solutions are now available for demonstration in the Azure cloud marketplace and as a VNF (VM) for server environments.

http://www.IPInfusion.com/uCPE

DISH picks Fujitsu for 5G radio units and Altiostar for virtualized RAN

DISH confirmed a large purchase of 5G radio units (RUs) from Fujitsu and a multi-year agreement with Altiostar to deliver a cloud-native Open vRAN software solution.

DISH, which is committed to use O-RAN architecture in its 5G network, will be utilizing Fujitsu's Low Band Tri-Band RU and Mid Band Dual-Band RU, both industry firsts for O-RAN radios, across the company's spectrum portfolio. In addition to radio units, Fujitsu will provide support through its integrated supply chain to deliver best-in-class radio and antenna integration. Additionally, Fujitsu will manage DU/RU hardware validation between vendors, including Altiostar and Mavenir, which are delivering cloud-native 5G radio software to DISH.

In addition, Altiostar's software solution, DISH will be able to dynamically scale its network depending on the type of applications and services being deployed. The openness, modularity, agility and scalability provided by Altiostar will enable DISH to quickly deploy new 5G services for consumers and businesses.

"By using open architecture to build the first standalone 5G network in the U.S., we are able to work with the best vendors from across the supply chain to effectively serve multiple segments, including consumers, enterprises and emerging 5G vertical markets," said Marc Rouanne, DISH Executive Vice President and Chief Network Officer. 

"As the leading radio access network manufacturer in Japan, Fujitsu is honored to bring our wireless expertise to DISH and the North American market," said Shingo Mizuno, EVP, Vice Head of System Platform Business at Fujitsu Limited. "Our proven radio technology, backed by O-RAN principles of openness and intelligence, equal a best-in-class solution for DISH, enabling them to deliver a superior experience to their customers."

"Altiostar is excited to partner with DISH and execute on their vision to build the first cloud-native, O-RAN 5G network in the U.S.," said Ashraf Dahod, CEO of Altiostar Networks. "As a U.S. company, we are proud to contribute our leading open vRAN technology innovation to DISH, and work with the fast growing O-RAN ecosystem to accelerate 5G leadership in the U.S."

DISH to deploy Mavenir for Cloud-native Open RAN

Mavenir confirmed that it has been awarded a multi-year agreement by DISH Network to supply its cloud-native OpenRAN software. Financial terms were not disclosed.

“The open and intelligent architecture of our greenfield network will give us the ability to source a diverse technology ecosystem, including U.S.-based solution providers,” said Marc Rouanne, DISH’s Chief Network Officer. “Mavenir will help us lay the foundation for an innovative software-defined network with the flexibility, intelligence and scalability to deliver applications that will redefine the U.S. wireless industry.”

“We are honored to be partnering with DISH Network and being recognized for our innovation and leadership in developing and delivering innovative solutions,” said Pardeep Kohli, President and CEO of Mavenir. “Working with DISH, we will be supporting the deployment of the world’s largest cloud-native OpenRAN 5G network.”

FCC designates Huawei and ZTE as National Security Threats

The FCC officially designated Huawei and ZTE, as well as their parents, affiliates, and subsidiaries, as national security threats.

As a result of the designation, money from the FCC’s $8.3 billion a year Universal Service Fund may no longer be used to purchase, obtain, maintain, improve, modify, or otherwise support any equipment or services produced or provided by either company. 

“With today’s Orders, and based on the overwhelming weight of evidence, the Bureau has designated Huawei and ZTE as national security risks to America’s communications networks—and to our 5G future,” said FCC Chairman Ajit Pai.  “Both companies have close ties to the Chinese Communist Party and China’s military apparatus, and both companies are broadly subject to Chinese law obligating them to cooperate with the country’s intelligence services.  The Bureau also took into account the findings and actions of Congress, the Executive Branch, the intelligence community, our allies, and communications service providers in other countries.  We cannot and will not allow the Chinese Communist Party to exploit network vulnerabilities and compromise our critical communications infrastructure.  Today’s action will also protect the FCC’s Universal Service Fund—money that comes from fees paid by American consumers and businesses on their phone bills—from being used to underwrite these suppliers, which threaten our national security.”


  • In November 2019, the FCC unanimously adopted a ban on the use of universal service support to purchase, obtain, or maintain any equipment or services produced or provided by companies posing a national security threat to the integrity of communications networks or the communications supply chain.  


Rural Cloud Initiative looks to Edge opportunities

The Rural Cloud Initiative (RCI), which is a coalition of network and edge innovation partners backed by Trilogy Networks, is aiming to deploy a unified, distributed cloud covering an area of 1.5 million square miles of rural America.

Trilogy Networks and other RCI partners have built a Digital Transformation Showcase at the New Continuum West Chicago NAP data center in Chicago to demonstrate Internet offload, rich media streaming, AI-based network capacity planning, and AI-based video analytics.

RCI has also launched the first phase of its "Farm of the Future" series at Hurst Greenery in Westboro, MO. Here the idea is to use distributed cloud edge capabilities to facilitate and unlock the value of precision agriculture.

“The proliferation of smart technology has sparked America’s fourth Industrial Revolution, with a massive impact on the opportunity to drive enhanced productivity and increased security. The rural market is rife with IoT devices critical to industries like agriculture and the digital oilfield,” said George Woodward, CEO of Trilogy Networks. “Supporting this transformation will require the deployment of connected devices at the network edge that will enable new business models for both network operators and rural industries. While others are talking about it - Trilogy and our RCI partners are proving that both the technology and business value of edge solutions is provable, scalable and repeatable across a number of use cases and vertical applications.”

“Automating energy, water and yield management with such transformative technologies are critical for family farms to protect future agriculture production,” said Blake Hurst, owner of Hurst Greenery, as well as President of the Missouri Farm Bureau and Vice-Chair of the FCC Precision Connectivity Working Group. “As this network scales it will be able to address the needs of the 2,300 farms in this coverage area.”

http://www.ruralcloud.com

Monday, June 29, 2020

EllaLink's transatlantic cable to deploy acoustic sensor tech

EllaLink, which is building a four-pair subsea cable between Portugal and Brazil, will deploy smart sensor on its cable to provide the scientific community with real-time, accurate and relevant data on seabed conditions. This will make EllaLink the first commercial subsea telecom cable system to integrate SMART cable concepts.

The EllaLink GeoLab infrastructure, which will be provided by EllaLink in cooperation with EMACOM, will leverage distributed acoustic sensing (DAS) technology in the Madeira branch of the subsea cable system. It will collect data along the route which will be optically transmitted back to the shore, independently and without impacting either telecoms traffic or the design life of the cable.

EllaLink is collaborating with GÉANT and the Portuguese NREN, FCT, both members of the BELLA Consortium, who will use EllaLink cable to support R&E collaborations between Europe and Latin America.

Philippe Dumont, CEO of EllaLink said “In a time of continued environmental change, critical information about the planet can be ascertained from the seabed. Submarine telecoms cables are best placed to monitor seabed conditions at all time and make such data available to scientists on-land. We are proud to lead the way into a new era of submarine cable systems supporting such scientific progress.”

Erik Huizer, CEO of GÉANT commented “GÉANT provides users with highly reliable, unconstrained access to computing, analysis, storage, applications and other resources, to ensure that Europe remains at the forefront of research.  EllaLink will provide direct connectivity between the research and education communities of Europe and Latin America, thanks to the work of the BELLA Consortium of which GÉANT is a member. GÉANT therefore welcomes the development of a dark fibre research infrastructure that can support DAS and other technologies, without disturbing telecommunications traffic, as a further engagement from EllaLink for the R&E community.”

https://ella.link/category/press-releases/

New Atlantic Data Center Hub planned in Portugal

The EllaLink Group and aicep Global Parques – Gestão de Áreas Empresariais e Serviços, unveiled plans for a new "Sines Tech – Innovation & Data Center Hub" in Portugal.

The new campus is to be built in the Portuguese port city of Sines, in proximity to the landing station for the new Ellalink subsea cable to Latin America.

Diego Matas, Chief Operating Officer of EllaLink, added “I am delighted to announce our collaboration with Global Parks in promoting Sines as a new Atlantic hub addressing the demand for diverse data center connectivity and an alternative cable landing site in Portugal. EllaLink evaluated multiple landing locations during the project development phase and Sines was the optimum fit. Sines Tech will provide an environmentally friendly integrated subsea and terrestrial solution for all our customers and partners alike, supporting EllaLink’s open access and carrier neutral philosophy.”

https://ella.link/2019/10/23/global-parks-and-ellalink-partner-to-launch-sines-tech-hub-a-next-generation-innovation-and-data-center-hub-in-portugal/

EllaLink and Telxius collaborate on Brazil-Portugal subsea cable

The EllaLink Group and Telxius signed a collaboration agreement for international subsea capacity and terrestrial connectivity in Latin America, including cable landing facilities in Fortaleza, Brazil.

The complementary infrastructure owned by EllaLink and Telxius will enable European traffic to reach Rio de Janeiro, São Paulo and other key cities in Brazil and across Latin America.

EllaLink is an open state-of-the-art 4 fiber pair submarine cable system currently under construction. It will provide the first direct fiber route between Europe and Latin America.  The

Rafael Arranz, Chief Operating Officer of Telxius for its Cable Business, said: “We are proud to closely work with EllaLink on this project, which will further advance communications between Europe and Latin America. This collaboration will leverage on the extensive Telxius’ subsea cable network and its terrestrial extensions across Latin America. In particular, Telxius’ Fortaleza cable landing station interconnects subsea cables stretching towards three continents: America (Central and North), Africa and Europe (with EllaLink). Telxius’ BRUSA, with its 138 Tbps, is currently the highest capacity and lowest latency subsea cable connecting the Americas, potentially extending EllaLink’s reach and ability to serve their customers even further.”

Diego Matas, Chief Operating Officer of EllaLink, added: “I am delighted to announce our collaboration with Telxius which supports EllaLink’s primary objective of providing advanced products and services on a carrier neutral and open access basis. The Telxius facility in Fortaleza provides the ideal landing solution for a next generation subsea system like EllaLink, while strengthening Telxius’ transatlantic route diversity.”

https://telxius.com/en/ellalink-and-telxius-collaborate-to-bring-next-generation-connectivity-to-latin-america-and-europe/

EllaLink begins Marine Route Survey for Brazil-Portugal cable

Alcatel Submarine Networks has finalized the Cable Route Study and mobilized the marine survey vessel for the EllaLink submarine cable system. A marine route survey will be conducted over the coming months.

EllaLink will be a state-of-the-art 4 fiber pair submarine cable system linking Europe and Latin America with up to 72 Tbps of capacity. The low latency EllaLink route avoids the congestion of the North Atlantic.

EllaLink plans to be Ready for Service by the end of 2020.

https://ella.link/2019/05/06/ellalink-announces-commencement-of-marine-route-survey-activities/

Taiwan awards EUR 400m 5G contract to Nokia

Taiwan Mobile (TWM) selected Nokia to be its sole vendor for 5G RAN, Core and IP Multimedia Subsystem (IMS).

Under the exclusive three-year deal, which was valued at EUR 400 million, Nokia will deliver:

  • 5G RAN portfolio, including Noka’s AirScale Radio Access products, enabling market-leading 5G experiences with ultra-low latency, connectivity and capacity
  • Multiple Nokia Software products spanning cloud and security services, as well as network optimization and management. These include Nokia’s CloudBand Infrastructure Software, NetAct Network Management, EdenNet Self-Organizing Networks, and more
  • Nokia’s Cloud Packet Core portfolio, with signaling and network functions such as Access and Mobility Management, Network Slice Selection, Policy Control, etc.

Nokia said its 5G Core portfolio will provide TWM with a solid foundation to run at scale within dynamic cloud environments, with a sharp focus on scalability, automation and performance to quickly deliver new digital services that leverage the full capabilities 5G has to offer. 5G standalone core network functions selected by TWM include Unified Data Management, Signalling and network functions provided by Nokia’s Cloud Packet Core portfolio, including the Access and Mobility Management Function, User Plane Function, Session Management Function, Network Function Repository Function and the Network Slice Selection Function and Policy Control Function. Nokia is providing its Traffica analytics solution for 5GC. Network Exposure function is also included for future 5G application innovation and business mode evolution.

Taiwan Mobile was awarded 60MHz in the 3.5GHz band and 200MHz in the 28GHz band in the country’s spectrum auction in January.

Jamie Lin, President at Taiwan Mobile said: “We are pleased to join forces with Nokia again in the 5G era. After the successful launch of 5G, both sides will continue to advance deployment and provide the best coverage and connectivity experiences in the market. More importantly, the two companies will work together to promote our "Super 5G Strategy," which integrates multiple vertical applications including smart e-commerce, smart stadium, smart healthcare and smart manufacturing. This approach is designed to build a thriving ecosystem that will create new possibilities for every user and enterprise in the 5G era!”


Kyoto Semi intros InGaAs photodiode for 400G

Kyoto Semiconductor Co. introduced a high-speed, InGaAs photodiode to support 400Gbps transmission systems that use PAM4.

KP-H KPDEH12L-CC1C main features:

  • High-speed -- The size of the carrier on which the PD is mounted, and the width and length of the high frequency electrode pattern placed on the carrier are optimized using an electromagnetic simulation (Note 2). As a result, we have achieved the world’s top class 400Gbps and 40GHz as a frequency band with an integrated transimpedance amplifier. The KP-H photodiode has passed Telcordia GR-468-Core, which is the standard reliability test for communication equipment.
  • Easy implementation -- the photodiode is mounted on a carrier that is optimally designed to achieve high frequency. A condenser lens is integrated on the backside of the photodiode (Note 3), allowing the incoming light to collect in the light absorption area, and makes it easy to align the optical fiber with PD. The PD chip is mounted on a carrier twice as big as the chip itself.

Mass production is expected to begin in November 2020.

https://www.kyosemi.co.jp/en/lp/kpdeh12l-cc1c

Government of India to block 59 mobile apps from China

India's Ministry of Information Technology has decided to block 59 apps on grounds that they are "engaged in activities which is prejudicial to sovereignty and integrity of India, defence of India, security of state and public order."

Over the last few years, India has emerged as a leading innovator when it comes to technological advancements and a primary market in the digital space.

The Ministry said it was acting on concerns relating to data security and safeguarding the privacy of Indian citizens. The ban will cover both mobile and non-mobile Internet enabled devices.




https://pib.gov.in/PressReleseDetailm.aspx?PRID=1635206