Friday, October 25, 2019

Microsoft wins $10 billion cloud contract with U.S. Department of Defense

The U.S. Department of Defense awarded an enterprise general-purpose cloud contract valued at up to $10 billion to Microsoft. 

The DoD said the contract will address critical and urgent unmet warfighter requirements for modern cloud infrastructure at all three classification levels delivered out to the tactical edge. The contracting process began two years ago and considered four different offerors.

The Pentagon said it is committed to a strategy of a multi-vendor, multi-cloud environment.

“The National Defense Strategy dictates that we must improve the speed and effectiveness with which we develop and deploy modernized technical capabilities to our women and men in uniform,” DOD Chief Information Officer Dana Deasy said. “The DOD Digital Modernization Strategy was created to support this imperative. This award is an important step in execution of the Digital Modernization Strategy.”

Thursday, October 24, 2019

Blueprint column: Stop the intruders at the door!

by Prayson Pate, CTO, Edge Cloud, ADVA

Security is one of the biggest concerns about cloud computing. And securing the cloud means stopping intruders at the door by securing its onramp – the edge. How can edge cloud can be securely deployed, automatically, at scale, over public internet?

The bad news is that it’s impossible to be 100% secure, especially when you bring internet threats into the mix.

The good news is that we can make it so difficult for intruders that they move on to easier targets. And we can ensure that we contain and limit the damage if they do get in.

To achieve that requires an automated and layered approach. Automation ensures that policies are up to date, passwords and keys are rotated, and patches and updates are applied. Layering means that breaching one barrier does not give the intruder the keys to the kingdom. Finally, security must be designed in – not tacked on as an afterthought.

Let’s take a closer look at what edge cloud is, and how we can build and deliver it, securely and at scale.

Defining and building the edge cloud

Before we continue with the security discussion, let’s talk about what we mean by edge cloud.

Edge cloud is the delivery of cloud resources (compute, networking, and storage) to the perimeter of the network and the usage of those resources for both standard compute loads (micro-cloud) as well as for communications infrastructure (uCPE, SD-WAN, MEC, etc.), as shown below.
For maximum utility, we must build edge cloud in a manner consistent with public cloud. For many applications that means using standard open source components such as Linux, KVM and OpenStack, and supporting both virtual machines and containers.

One of the knocks against OpenStack is its heavy footprint. A standard data center deployment for OpenStack includes one or more servers for the OpenStack controller, with OpenStack agents running on each of the managed nodes.

It’s possible to optimize this model for edge cloud by slimming down the OpenStack controller and running it the same node as the managed resources. In this model, all the cloud resources – compute, storage, networking and control – reside in the same physical device. In other words, it’s a “cloud in a box.” This is a great model for edge cloud, and gives us the benefits of a standard cloud model in a small footprint.

Security out of the box

Security at an edge cloud starts when the hosting device or server is installed and initialized. We believe that the best way to accomplish this is with secure zero-touch provisioning (ZTP) of the device over public IP.

The process starts when an unconfigured server is delivered to an end user. Separately, the service provider sends a digital key to the end user. The end user powers up the server and enters the digital key. The edge cloud software builds a secure tunnel from the customer site to the ZTP server, and delivers the security key to identify and authenticate the edge cloud deployment. This step is essential to prevent unauthorized access if the hosting server is delivered to the wrong location. At that point, the site-specific configuration can be applied using the secure tunnel.

The secure tunnel doesn’t go away once the ZTP process completes. The management and orchestration (MANO) software uses the management channel for ongoing control and monitoring of the edge cloud. This approach provides security even when the connectivity is over public IP.

Security on the edge cloud

One possible drawback to the distributed compute resources and interface in an edge cloud model is an increased attack surface for hackers. We must defend edge cloud nodes with layered security at the device, including:
• Application layer – software-based encryption of data plane traffic at Layers 2, 3, or 4 as part of platform, with the addition of third-party firewall/UTM as a part of the service chain
• Management layer – two-factor authentication at customer site with encryption of management and user tunnels
• Virtualization layer – safeguard against VM escape (protecting one VM from another, and prevention of rogue management system connectivity to hypervisor) and VNF attestation via checksum validation
• Network layer – Modern encryption along with Layer 2 and Layer 3 protocols and micro-segmentation to separate management traffic from user traffic, and to protect both

Security of the management software

Effective automation of edge cloud deployments requires sophisticated MANO software, including the ZTP machinery. All of this software must be able to communicate with the managed edge cloud nodes, and do so securely. This means the use of modern security gateways to both protect the MANO software, as well as to provide the secure management tunnels for connectivity.

But that’s not enough. The MANO software should support scalable deployments and tenancy. Scalability should be built using modern techniques so that tools like load balancers can be used to support scaleout. Tenancy is a useful tool to separate customers or regions and to contain security breaches.

Security is an ongoing process

Hackers aren’t standing still, and neither can we. We must perform ongoing security scans of the software to ensure that vulnerabilities are not introduced. We must also monitor the open source distributions and apply patches as needed. A complete model would include:
Automated source code verification by tools such as Protecode and Black Duck
Automated functional verification by tools such as Nessus and OpenSCAP
Monitoring of vulnerability within open source components such as Linux and OpenStack
Following recommendations from the OpenStack Security Group (OSSG) to identify security vulnerabilities and required patches
Application of patches and updates as needed

Build out the cloud, but secure it

The move to the cloud means embracing multi-cloud models, and that should include edge cloud deployments for optimization of application deployment. But ensuring security at those distributed edge cloud nodes means applying a security in an automated and layered approach. There are tools and methods to realize this approach, but it takes discipline and dedication to do so.

Cisco: IT must align networking to business strategy

IT teams need to pivot from being consumed with maintaining the status quo to becoming an enabler of new business innovation, according to a survey conducted by Cisco of over 2000 IT leaders and network strategists.

"IT teams today are running complex mission critical networks that are increasingly capable of providing rich data. But using that data to improve the operations, security, or business impact of the network requires new tools. That's why IT teams are embracing intent-based networking, AI and machine learning — because the business demands it," said Scott Harrell, SVP and GM, Cisco Enterprise Networking.


Some highlights from Cisco's Global Networking Trends Report and Survey:

IT leaders expect new wireless technologies, IoT and AI-enabled operations, threat detection and remediation to have the biggest impact on their network strategy and design over the next five years.

The top priority for global IT leaders and network strategists is to maximize the business value of IT and more closely align to business needs.

  • Almost 40 percent of IT leaders named maximizing IT’s business value as their number one priority, higher than simplifying operations, optimizing employee productivity and minimizing security events.
  • In order to achieve this, leaders and strategists believe investing in AI technologies is crucial. Almost 50 percent of network strategists believe increasing the use of analytics and AI will help enable the ideal network.

Intent-based networking is coming, allowing organizations to build on their software-defined networking foundations.

  • 41 percent of those surveyed claim to have at least one instance of SDN in at least one of their network domains.
  • Only 4 percent of respondents believe their networks have moved beyond software-defined and are intent-based today. However, 35 percent believe their networks will be fully intent-based in two years’ time.
  • When asked to indicate where on Cisco’s Digital Network Readiness Model their networks currently operate, only 28 percent indicated they’ve reached a service-driven or intent-based network. However, when asked where their networks will be in two years, 78 respondents believed they would move beyond software-defined towards service-driven and intent-based networks.  

Intel intros Tremont microarchitecture

Intel unveiled Tremont, its next-generation, low-power x86 microarchitecture promising significant IPC (instructions per cycle) gains gen-over-gen compared with Intel’s prior low-power x86 architectures.

Tremont is aimed at compact, low-power packages and innovative form factors for client devices, creative applications for the internet of things (IoT), data center products, etc.

Tremont is integrated within a wider set of silicon IPs in Lakefield, which will power innovative devices like the recently announced dual-screen Microsoft Surface Neo. Iy includes several advancements in ISA (instruction set architecture), microarchitecture, security and power management. Specifically, Tremont’s unique 6-wide (2x3-wide clustered) out-of-order decoder in the front end allows for a more efficient feed to the wider back end, which is fundamental for performance.

The announcement was made at this week's Linley Fall Processor Conference 2019 in Silicon Valley.

https://newsroom.intel.com/wp-content/uploads/sites/11/2019/10/introducing-intel-tremont-microarchiture.pdf

Nokia cites pricing pressure in early 5G deals, profitability challenges

Nokia reported Q3 net sales of EUR 5.686 billion, up 4% over the same period last year. On a constant currency basis, net sales increased 1%. Reported diluted EPS in Q3 2019 was EUR 0.01, compared to negative EUR 0.02 in Q3 2018, primarily driven by continued progress related to Nokia’s cost savings program.

Rajeev Suri, president and CEO of Nokia, stated: "Many of our businesses are performing well and we expect Q4 to be strong, with a robust operating margin and an increase in net cash of approximately EUR 1.2 billion. At the same time, some of the risks that we flagged previously related to the initial phase of 5G are now materializing. In particular, our Q3 gross margin was impacted by product mix; a high cost level associated with our first generation 5G products; profitability challenges in China; pricing pressure in early 5G deals; and uncertainty related to the announced operator merger in North America.



"I am confident that our strategy remains the right one. We continue to focus on leadership in high-performance end-to-end networks with Communication Service Providers; strong growth in enterprise; strengthening our software business; and diversification of licensing into IoT and consumer electronics."

https://www.nokia.com/about-us/news/releases/2019/10/24/nokia-corporation-financial-report-for-q3-and-january-september-2019/

AWS generated Q3 sales of $9 billion, 35% growth

Amazon Web Services generated Q3 revenue of $8.995 billion, up 35% compared to last year.

Trailing 12 months (TTM) revenue was $32.5 billion.

  • During the quarter, AWS announced the general availability of G4 instances, a new graphics processing unit (GPU)-powered Amazon Elastic Compute Cloud (Amazon EC2) instance designed to help accelerate machine learning inference and graphics-intensive workloads, both of which are computationally demanding tasks that benefit from additional GPU acceleration. 
  • AWS also announced the opening of the AWS Middle East (Bahrain) Region. Developers, startups, and enterprises, as well as government, education, and non-profit organizations, can now run their applications and serve end-users from data centers located in the Middle East. AWS now spans 69 Availability Zones within 22 geographic regions around the world, and has announced plans for ten more Availability Zones and three more AWS Regions in Indonesia, Italy, and South Africa.
  • AWS announced a 44% reduction in storage prices for Amazon Elastic File System (Amazon EFS) Infrequent Access (IA) storage class, one of the largest percentage price reductions in AWS history. Amazon EFS is a low-cost, simple to use, fully managed, and cloud-native NFS file system for Linux-based workloads that can be used with AWS services and on-premises resources. Amazon EFS IA is a storage class for Amazon EFS that is designed for files accessed less frequently, enabling customers to reduce storage costs compared to the Amazon EFS Standard storage class. AWS has reduced prices six times thus far in 2019, and this marks the 75th price reduction since its inception.

Juniper posts revenue of $1.1 billion - cloud and enterprise sales rising

Juniper Networks reported Q3 2019 net revenues of $1.133.1 billion, a decrease of 4% year-over-year, and an increase of 3% sequentially. GAAP operating margin was 12.2%, a decrease from 13.6% a year earlier and an increase from 7.5% in the preceding quarter.

GAAP net income was $99.3 million, a decrease of 56% year-over-year, and an increase of 115% sequentially, resulting in diluted earnings per share of $0.29.

Non-GAAP net income was $166.6 million, a decrease of 13% year-over-year, and an increase of 19% sequentially, resulting in non-GAAP diluted earnings per share of $0.48.

“We believe we are executing well in a dynamic environment," said Rami Rahim, Juniper’s, Chief Executive Officer. “While we are encouraged to see improved momentum with our Cloud customers, Service Provider spending remains challenged and we experienced weaker than expected Enterprise orders in the September quarter. Despite this backdrop, we still expect to deliver modest year-over-year growth during the December quarter and remain optimistic regarding our long-term growth prospects.”

Some highlights (yoy comparisons):

  • Cloud increased 6% and Enterprise increased 8%, while
  • Service Provider declined 17%. The lower than mid-point revenue result was due to greater than anticipated Service Provider weakness.
  • On a sequential basis, Enterprise increased 10%, Service Provider increased 1% and Cloud was down 5%.
  • Routing decreased 18% year-over-year and 2% sequentially. Switching increased 9% year-over-year and 12% sequentially. 
  • Security increased 22% year-over-year and 16% sequentially. Our Services business increased 1% year-over-year and was flat sequentially.
  • Software revenue increased 13% year-over-year and was approximately 10% of total revenue.
  • Of the top 10 customers for the quarter, three were Cloud, six were Service Provider, and one was an Enterprise

Holland's SURF research net evaluates ECI's 1.2Tbps optical transport blade

SURF, the Dutch National Research and Education Network, is testing ECI's Apollo TM1200 1.2T dual channel, programmable blade.

The trial runs over a 1650km link connecting SURF’s main facility in Amsterdam with CERN’s communication center in Geneva.

ECI said the trial demonstrated Apollo’s ability to support live traffic of 300 Gbps per wavelength over predominantly old (G.655) fibers, traversing 22 intermediate nodes without any signal regeneration or RAMAN amplification. Link capacity was increased by roughly 150% by optimizing line-rate modulation.

SURF’s optical backbone, SURFnet 8, was upgraded a couple of years ago to address the astonishing rate of growth in the demand for bandwidth. The search for a new vendor encompassed nine candidates, from which ECI was selected. Based on the Apollo family, SURF continues rebuilding its optical backbone for the future, achieving super-high performance, economic scalability, ease of operations, and a seamless migration from the previous infrastructure. The latter exemplifies an Open Line System (OLS) by carrying both ECI and alien lambdas.

“The TM1200 adds yet another layer of flexibility and programmability to our optical capabilities. With the TM1200 we can now optimize modulation schemes in line with our requirements and the distances transmitted, ensuring optimal use of our fiber capacity,” said Rob Smets, Network Architect at SURF. “We were pleased to discover we could improve link capacity and efficiency by approximately 150% just by replacing the card, even on our ‘old’ (G.655) fibers. With ECI’s help and our continuously updated network capabilities, we will continue to provide our millions of users with the levels of performance and service to which they’ve become accustomed.”

“We understand that today’s operators are under pressure to squeeze the most out of their network infrastructures. Optical backbones will forever be required to support, and exceed, simple low cost per bit transport,” said Christian Erbe, VP Sales EMEA at ECI. “However, there are increasing requirements for openness, programmability and interworking with the packet layer. ECI has a very strong relationship with national research and education networks (NREN) worldwide, and we are proud of our long-lasting partnership with SURF.”

https://www.ecitele.com/productcat/apollo/.
http://www.surf.nl/en/surfnet

ECI intros 1.2T Dual Channel Blade for its Apollo DWDM transport

ECI introduced its TM1200, a 1.2T blade (dual 600G channel) for its Apollo DWDM transport systems, enabling programmable, adaptive optical networking.

ECI said its new TM1200 blade delivers unmatched spectral efficiency and elasticity through software controllable continuous modulation. Whereas traditional line-side modulation was only programmable in large increments – such as 100G, 200G or 400G – often relying on different line cards, the new TM1200 delivers software-controlled continuous modulation in 50 Gbps increments up to 600 Gbps line rate, rather than supporting specific modulation schemes. This maximizes capacity in a granular manner to best match client needs and variable channel conditions.

Additional benefits:

  • Optimal return on fiber investment: By operating at the edge of the Shannon limit, the TM1200 squeezes the maximum capacity from each channel on a fiber, delaying the need to add new fiber and optical networking infrastructure.
  • Enables a highly adaptive and flexible optical layer: Working in conjunction with ECI's colorless, directionless, contentionless, flexible spectrum ROADMs, and client services aware SDN control, the TM1200 can continuously optimize client traffic to fiber capacity.
  • Dynamic restoration: Excess capacity can be allocated dynamically to fully or partially restore client services that are disrupted by fiber or equipment failures elsewhere in the network.
  • Power efficiency: At a 600 Gbps line rate, the ECI TM1200 has a 10-fold improvement in power efficiency compared to other solutions, consuming less than 0.18W per Gbps, fully populated.

MWC Los Angeles attracted 22,000 visitors

This week's 2019 MWC Los Angeles event at the Los Angeles Convention Center (LACC) attracted nearly 22,000 attendees from more than 100 countries.

The event, which was hosted by GSMA in partnership with CTIA, reported that over 60% of attendees held senior-level positions, including nearly 2,000 CEOs.

The theme of MWC Los Angeles was "Intelligent Connectivity".

“It’s exciting to see MWC Los Angeles’ identity taking form as a leading event in the region,” said John Hoffman, CEO, GSMA Ltd. “This year’s theme has again marked the importance of 5G; we are on the verge of the critical phase of unlocking infinite possibilities in connecting everyone and everything to a better future.”

MWC 2020 will return to Los Angeles and will take place in the LACC from October 28 - 30

O2 activates 5G across London and Slough with Nokia

O2 activated its 5G network in London and Slough.

Nokia serves as the sole RAN provider to O2 across London.

Nokia said it is working with O2 to execute its intelligence-led rollout strategy, which prioritizes connecting transport hubs, key business areas, and entertainment and sports venues to ensure superior customer experience for local and international visitors.

Brendan O’Reilly, O2’s Chief Technology Officer, said: “As we roll out 5G, our intelligence-led strategy is driven by data and insight to identify where customers will benefit from 5G the most – Nokia is helping us to deliver that in one of the most high-density subscriber areas in the world. The transformational power of 5G yields huge potential for businesses and consumers alike, allowing them to get a head start on competitors.”

Tommi Uitto, President of Mobile Networks at Nokia, said: “Nokia and O2 are bringing 5G to the UK capital, delivering the world’s most iconic venues to devices globally. Nokia has exactly the right technology for this, given our leadership in small cells and, more broadly, end-to-end 5G. It’s great to build on our long-standing relationship with O2 to deliver a superior experience for businesses and consumers alike."

The launch of O2’s live network in the UK marks Nokia’s 15th live 5G network worldwide.

Wednesday, October 23, 2019

Next-Gen Network Automation - Advancing through Software



To advance network automation, organizations need to move from manual, human-centric command line interfaces (CLIs) to machine-driven automation. Chris Wade, Co-founder and CTO of Itential, talks about the critical issues associated with network automation and why it’s time to treat the network as code. By taking a software-centric approach, organizations can integrate across multiple domains for end-to-end network automation.

https://nginfrastructure.com/network-automation/

Aruba's switching now spans campus, branch and data center

Aruba, which is a division of HPE, announced a significant expansion of its enterprise switching portfolio to include campus, branch and data center products - all running a single, cloud-native network operating system.


Specifically, Aruba is rolling out a new CX 6300 Series fixed configuration and CX 6400 Series modular access, aggregation and core switches, and delivering new capabilities in the latest advancements of its AOS-CX operating system. The capabilities include a Network Analytics Engine (NAE), which utilizes embedded analytics and automation to simplify management, accelerate troubleshooting of application performance issues and remediate common network problems.

Significantly, all of the new Aruba switching platforms are powered by a new, 7th generation version of its own switching ASIC.

“AI-powered automation must be at the heart of a modern, edge-to-cloud architecture and, in order to be truly useful, it requires an intelligent infrastructure as the foundation,” said Keerti Melkote, president and founder at Aruba, a Hewlett Packard Enterprise company. “We believe that AI is the key to analyzing data, providing actionable insights, and automation at scale to optimize network operators’ ability to quickly troubleshoot, remediate and proactively resolve some of IT’s most pressing challenges. Our vision for the future is a cloud-native architecture that delivers true business agility and new digital experiences, and today’s introduction is an important step in that direction.”

Announcement highlights:

  • The Aruba CX 6300 Series is a family of stackable switches that offers flexible growth via a 10-member virtual switching framework (VSF) and provides built-in 10/25/50 gigabit uplinks.
  • The Aruba CX 6400 Series modular switches offer both a 5-slot chassis and a 10-slot chassis with a non-blocking fabric that scales from Gigabit POE access to 100G core, allowing customers to standardize on one platform across the enterprise, including hybrid use cases.
  • AOS-CX 10.4: The new version of AOS-CX introduces rich access features to the OS while extending CX differentiators to the access layer of the network. These include Aruba Dynamic Segmentation to provide secure, unified policy across wired and wireless down to every user and IoT device, Ethernet VPN (EVPN) over VxLAN for simplified and secure connectivity from enterprises to data centers, and Virtual Switching Extension (VSX) live upgrades for no downtime during maintenance cycles.
  • Aruba NetEdit 2.0 with Network Analytics Engine (NAE): The significantly enhanced version of Aruba’s NetEdit software now integrates with Aruba’s NAE. This advancement enables centralized visualization of network health leveraging NAE distributed analytics across every switch in the network to reduce troubleshooting cycles from days to minutes. New automation capabilities simplify common tasks such as implementing configuration changes or initial system set-up which can now be completed via the CX Mobile app.
  •  List pricing for the Aruba CX 6300 and CX 6400 Series starts at $5,899 USD and $13,499 USD respectively.

https://www.arubanetworks.com/products/networking/switches/

Telenor Norway to deploy Cisco for 5G NSA core

Telenor Norway has selected Cisco for its 5G non-standalone (NSA) mobile core network.

Cisco has provided core technology to Telenor Norway's 3G and 4G networks since 2010.

“5G NSA is an important step on the road to a fully operational, standalone 5G network that will allow Telenor to enable real-time applications across verticals such as telemedicine, transportation and commercial/industrial, with low latency,” said Jonathan Davidson, senior vice president and general manager, Service Provider Business, Cisco. “Our long-standing partnership validates our unique ability to provide innovative networking solutions that scale to support and benefit Telenor's customers in the 5G era.”

Samsung unveils Exynos 990 processor of 5G Exynos modem

Samsung Electronics unveiled its new Exynos 990 premium mobile processor and 5G Exynos Modem 5123, both of which will be fabricated in 7-nanometer (nm) process technology using extreme ultra-violet (EUV) to provide unprecedented performance and accelerated product development options for mobile manufacturers.

“Milestones in technological advancements are imminent all around us. Mobile 5G technology is opening new avenues for communication and connection, while AI is poised to become an everyday tool for people worldwide,” noted Inyup Kang, president of System LSI Business at Samsung Electronics. “Samsung’s Exynos 990 and Exynos Modem 5123 are perfectly adapted for high-volume 5G and AI applications, and are designed to help the world’s most ambitious enterprises, large and small, achieve their goals of bringing new capabilities to their markets.”

The Exynos 990 features an embedded Arm Mali-G77 GPU, the first premium GPU based on the new Valhall architecture, which improves graphic performance or power efficiency by up to 20 percent. This comes in addition to an overall 20-percent performance boost from an extremely powerful and flexible tri-cluster CPU structure that consists of two powerful custom cores, two high-performance Cortex-A76 cores and four power-efficient Cortex-A55 cores.

The Exynos 990 also features a top-class dual-core neural processing unit (NPU) and improved digital signal processor (DSP) that can perform over ten-trillion operations (TOPs) per second. The NPU enables localized AI in a smartphone or other mobile platform, allowing data to be processed on-device, rather than going through a network and a server, for added efficiency and security. This can also help enhance AI features such as facial recognition and scene detection for richer mobile experiences.

The new 5G Exynos Modem 5123 is one of the first 5G modem chips manufactured using a 7nm EUV process. It supports virtually all networks, from 5G’s sub-6GHz and mmWave spectrums to 2G GSM/CDMA, 3G WCDMA, TD-SCDMA, HSPA and 4G LTE, with outstanding downlink speed across the board. In 5G, with up to 8-carrier aggregation (8CA), the modem delivers a maximum downlink speed of up to 5.1 Gbps in sub-6-gigahertz (GHz) and 7.35Gbps in mmWave, or up to 3.0Gbps in 4G networks by supporting higher-order 1024 Quadrature Amplitude Modulation (QAM).

The Exynos 990 and Exynos Modem 5123 are expected to begin mass production by the end of this year.

http://www.samsung.com/exynos

Verizon and Corning collaborate on 5G in buildings

Corning and Intel announced a partnership focused on 5G in buildings.

The work will leverage Corning’s wireless connectivity portfolio and Intel technologies, including second-generation Intel Xeon Scalable processors, Intel FlexRAN 5G and 4G Reference Software, Intel FPGA Programmable Acceleration Card N3000, and 10/25/40Gb Intel Ethernet 700 Series Network Adapters to support 5G innovation as deployments proliferate around the world.

“5G will enable dramatic advances in the way people work and companies create value,” said Michelle Engarto, vice president, Wireless Product Line Management, Corning Optical Communications. “Capturing the benefits will require flexible and scalable infrastructure that can evolve and adapt as fast as software-based applications.  Fiber offers effectively unlimited bandwidth and is protocol agnostic. Virtualization converts a traditional hardware challenge into a software-based solution. By combining fiber and virtualization, Corning and Intel will demonstrate the ultimate in flexibility and scalability for in-building 5G infrastructure.”

The new enterprise platform will be commercially available in 2020.

In addition, Verizon has installed 5G Ultra Wideband service in Corning’s fiber optic cable manufacturing facility in Hickory, NC. The companies are also working together to co-innovate new 5G-enabled solutions that can potentially revolutionize the way goods and services are produced.

“5G will usher in the Fourth Industrial Revolution enabling massive steps forward in robotics and automation that will transform supply chain management and create smarter and more efficient factories,” said Tami Erwin, executive vice president and CEO of Verizon Business Group. “We’re thrilled to collaborate with Corning to explore how 5G will ultimately reshape the way the manufacturing industry operates.”

Corning intros Optical Network Evolution SD-LAN

Corning introduced its Optical Network Evolution SD-LAN solution for in-building local area networks.

The Corning SD-LAN decouples hardware and software layers, creating a flexible platform for deploying traditional Ethernet or passive optical LAN using the same hardware at the edge.

Corning said it developed the solution to enable future-ready connectivity inside buildings with the ability to converge multiple technologies over a single, simplified infrastructure that supports LAN, WiFi, cellular, audiovisual, security, building automation, and more over the lifetime of the building with little to no new cabling. Key benefits include freeing up closets, eliminating or emptying cable trays, and reducing disruption from future network additions.

Corning acquires SpiderCloud, supplier of in-building wireless


Corning announced that it has acquired SpiderCloud Wireless based in Milpitas, California, a supplier of in-building wireless solutions, on undisclosed terms.

SpiderCloud is a developer of scalable small-cell network platforms designed to deliver enhanced coverage and capacity for the delivery of wireless services inside buildings. Small cells are deployed by mobile operators and enterprises to improve network efficiency and end-user services.

Corning stated that the acquisition of SpiderCloud's advanced solutions and established position as a provider to key wireless customers is expected to create new market access opportunities. As a part of Corning, SpiderCloud will become part of the Optical Communications segment and align with its target of increasing annual sales from $3 billion in 2016 to $5 billion by 2020.

Regarding the acquisition, Clark S. Kinlin, EVP, Corning Optical Communications, said, "Wireless connectivity has become more a necessity than an amenity, and mobile operators and enterprise customers are seeking cost-effective solutions to enhance service for users inside buildings… with the acquisition of SpiderCloud Wireless, the combined product solutions will help drive optical convergence and enable fibre-deep architectures within the enterprise LAN".



  • SpiderCloud recently announced commercial availability of its Frequency Agile small cell, the SCRN-220, for its enterprise RAN (E-RAN) platform. The new SCRN-220 is an enterprise-grade LTE small cell that can be software configured for the major U.S. bands, including 2 (1900), 25 (1900), 4 (1700), 66 (2100), 12 (700) and 13 (700), with channel widths of 5, 10, 15 and 20 MHz.

  • The SCRN-220 is based on SpiderCloud's E-RAN architecture that includes a Services Node controlling up to 100 self-organising LTE small cells, capable of delivering coverage and capacity in indoor locations as large as 1.5 million sq feet. The product can support up to 64 active LTE users and offers 150 Mbit/s peak downlink rate.

  • SpiderCloud also recently expanded its E-RAN system with support for LTE-U, leveraging the Qualcomm FSM small cell platform and the SpiderCloud scalable small cell systems. It noted that the new system was one of the first enterprise scale small cell system to receive FCC authorisation to deliver LTE-U capacity in unlicensed spectrum, and also supported software upgrade to LTE-LAA.

  • In June, Corning Optical Communications launched a multiuse platform combining multi-fibre and single-fibre connection points and targeting carriers, operators and municipalities wishing to deploy fibre-deep access networks. Capable of supporting a mix of network architectures on the same fibre backbone, the multiuse platform is designed to enable LTE connectivity and future 5G networks.

Microsoft Azure sales grew 59% yoy in Q3

Microsoft reported quarterly revenue of $33.1 billion, up 14% yoy, and net income of $10.7 billion, up 21%.

“The world’s leading companies are choosing our cloud to build their digital capability,” said Satya Nadella, chief executive officer of Microsoft. “We are accelerating our innovation across the entire tech stack to deliver new value for customers and investing in large and growing markets with expansive opportunity.”


Some highlights

Revenue in Productivity and Business Processes was $11.1 billion and increased 13% (up 15% in constant currency), with the following business highlights:

  • Office Commercial products and cloud services revenue increased 13% (up 15% in constant currency) driven by Office 365 Commercial revenue growth of 25% (up 28% in constant currency)
  • Office Consumer products and cloud services revenue increased 5% (up 6% in constant currency) with continued growth in Office 365 Consumer subscribers to 35.6 million
  • LinkedIn revenue increased 25% (up 26% in constant currency)
  • Dynamics products and cloud services revenue increased 14% (up 16% in constant currency) driven by Dynamics 365 revenue growth of 41% (up 44% in constant currency)

Revenue in Intelligent Cloud was $10.8 billion and increased 27% (up 29% in constant currency), with the following business highlights:

  • Server products and cloud services revenue increased 30% (up 33% in constant currency) driven by Azure revenue growth of 59% (up 63% in constant currency)
  • Enterprise Services revenue increased 7% (up 8% in constant currency)

Revenue in More Personal Computing was $11.1 billion and increased 4% (up 5% in constant currency), with the following business highlights:

  • Windows OEM revenue increased 9% (up 9% in constant currency)
  • Windows Commercial products and cloud services revenue increased 26% (up 29% in constant currency)
  • Search advertising revenue excluding traffic acquisition costs increased 11% (up 13% in constant currency)
  • Xbox content and services revenue was relatively unchanged (up 1% in constant currency)
  • Surface revenue decreased 4% (down 2% in constant currency)

ADVA posts revenues of EUR 144.3 million, up 14% yoy

ADVA reported quarterly revenues of EUR 144.3 million, up 14.4% year-over-year, and pro forma operating income of EUR 7.4 million (5.1% of revenues).

Revenues for Q3 2019 were in the upper range of the guidance corridor the company provided on July 25, 2019, of between EUR 135 million and EUR 145 million.

“In the third quarter of the fiscal year, our revenues continued to develop very positively, and we are satisfied with the overall order entry,” commented Uli Dopfer, CFO, ADVA. “Both of our two key metrics were at the upper end of our guidance range, and year-over-year we increased revenues significantly by 14.4%. Somewhat challenging, on the other hand, are the negative effects of US trade policy on our business. As such, we’ve taken several measures to counteract the impact of this trade conflict. These include the relocation of production from China, proactive material purchasing and rapid transfer of pre-engineered subsystems, as well as tightening the control of operational costs. These measures are partly associated with one-time costs but will sustainably support us in terms of the positive development of our profitability.”

“We’ve made significant progress across all of our strategic product groups in Q3. As a result, customer demand for our technology continues to accelerate,” said Brian Protiva, CEO, ADVA. “Our new FSP 3000 TeraFlex™ terminal is truly industry-leading. It provides open, scalable and programmable optical transmission technology that delivers the lowest cost per bit. With these features, it's no surprise that this product is testing so strongly with our customers. Our FSP 150 packet edge solutions combined with our Ensemble software suite is also drawing strong customer reaction and is playing a pivotal role in the development of new open networking concepts such as edge computing. What’s more, our NFV software continues to grow in strength and customer wins are rapidly accelerating. And last but not least, the positive revenue development of our Oscilloquartz synchronization solutions continues to gather momentum. So much so, we expect to exceed our good 2018 results in this area in the current financial year.”

Tuesday, October 22, 2019

GSMA: 5G penetration in North America to hit 48% in 2025

Almost half of the mobile connections in North Amerca will be running on new 5G networks by 2025, according to a new GSMA study. This is being fuelled by operator spending on new networks, which is forecast to total more than $380 billion (Capex) between 2018 and 2025.

“Our new study highlights how the North America region is vying for global 5G leadership with pioneering mobile markets such as China, Japan and South Korea,” said Mats Granryd, Director General of the GSMA. “Investments in next-generation networks and services by operators has helped create an industry that is now worth a trillion dollars a year to the region’s economy, providing a platform for innovation, jobs and economic growth.”

Some highlights:

There were 321 million unique mobile subscribers in North America in 2018, representing 83 percent of the population. The number of subscribers is forecast to rise to 345 million (85 percent of the population) by 2025.
Around three quarters of the region’s mobile connections2 are running on 4G networks.
The share of 4G connections will decline over the coming years as the market moves to 5G. New 5G networks are forecast to account for 46 percent of connections by 2025.
Mobile technologies and services generated 4.2 percent of North America’s GDP in 2018, equivalent to $937 billion in economic value. This economic impact is forecast to increase to almost $1.2 trillion by 2023 (4.8% of GDP).
The region’s mobile ecosystem also supported 2.3 million jobs (directly and indirectly) and made substantial contributions to the funding of the public sector, with almost $123 billion raised through taxation last year (not including spectrum fees).
North America’s mobile sector is on track to generate $280 billion in revenue this year, a result of high levels of consumer engagement and spending on mobile services.

See also