Wednesday, May 24, 2017

Sonus and GENBAND to merge to create company with $680m annual revenue

Sonus Networks, a provider of solutions that enable secure and intelligent cloud communications, and GENBAND, a supplier of carrier and enterprise network transformation and real-time communications solutions, announced a definitive agreement under which the two companies will combine to create a major next-generation communications networking company.

Under the terms of the agreement, Sonus and GENBAND shareholders will each own approximately 50% of the combined entity. Based on the closing price of Sonus' common stock on May 22nd of $7.79 and estimated net cash at the time of closing, the transaction values the combined company at an enterprise value of approximately $745 million.

On closing, Sonus and GENBAND will combine into a newly formed holding company. Each Sonus shareholder will receive one share of common stock in the combined company for each existing Sonus share held; the new company will issue approximately 50 million shares to GENBAND's equity owners, plus $22.5 million in the form of an unsecured note. The combined company will have an estimated net cash position of $40 to $45 million.

The transaction will combine Sonus' established software-based real-time communication virtualisation, cloud-based SIP and 4G/VoLTE and security solutions with GENBAND's network modernisation, unified communications and mobility and embedded communications solutions. Together, Sonus and GENBAND will be better positioned to enable the transformation to IP and cloud-based networks for service providers and enterprise customers.

The combined company will have a global sales footprint in 27 countries, a customer base that includes may Tier 1 carriers, with 67% of combined 2016 revenue for the two companies generated in the U.S. and Canada, 18% in EMEA, 11% in APAC and 4% in CALA.

The two companies' combined revenue and EBITDA in 2016 would have been approximately $680 million and $50 million, respectively, excluding synergies. The transaction is expected to be significantly accretive to Sonus' earnings per share in 2018. The combined company expects to realise annual cost synergies of $40 to $50 million by the end of 2018.

The CEO of the combined company will be Raymond Dolan, current president and CEO of Sonus; David Walsh, current CEO and chairman of GENBAND, will oversee the Kandy business, GENBAND's cloud communications platform as a service (CPaaS). Daryl Raiford, current CFO of GENBAND, will serve as CFO of the combined company. The board of directors of the combined company will comprise five representatives designated by GENBAND and four representatives designated by Sonus.

The transaction has been unanimously approved by the boards of both companies, and is expected to close in the second half of 2017, subject to Sonus and GENBAND shareholder approval, listing of the combined company's common stock on Nasdaq and other customary closing conditions.

Calix demos 40G with NG-PON2 channel bonding

Calix announced what it claims is a fibre access technology first leveraging its AXOS software-defined access (SDA) platform with the demonstration of bonding of multiple channels or wavelengths of NG-PON2 technology over fibre.

Employing technology compatible with ITU standards, Calix has demonstrated the ability of the AXOS E9-2 Intelligent Edge System to leverage NG-PON2 channel bonding to deliver bandwidth of up to 40 Gbit/s, or 80 Gbit/s aggregate bandwidth, over a single fibre.

This capability can enable service providers that are deploying channel-bonded Calix AXOS NG-PON2 solutions with greater flexibility to address, over a single fibre with adjustable capacity, the emerging bandwidth requirements of demanding service types including: 5G mobile backhaul; high-end business services; high-density residential services, including in MDU environments; and transport and middle mile requirements.

Calix noted that the multi-wavelength capability offered by NG-PON2 technology allows service providers to accelerate network convergence and significantly increase the available bandwidth capacity. However, the ability to bond NG-PON2 wavelengths takes this capability to a new level and can enable service providers to upgrade their networks more quickly and efficiently.

Developed leveraging the Calix AXOS platform, Calix stated that the NG-PON2 channel bonding functionality emerged from a Verizon request that resulted in a live demonstration within 12 days. The speed of the development utilised the hardware abstracted Calix AXOS platform that is designed to enable rapid development of new capabilities, such as channel bonding. The AXOS platform also provides support for anyPHY and anyPON technologies, such as NG-PON2, as they emerge.

Regarding the demonstration, Vincent O’Byrne, director of access technology at Verizon, said, "… Verizon has championed channel bonding within the standards as an option to support higher capacities… I believe channel bonding holds the potential to more than double the bandwidth to individual subscribers or network locations and anticipate it could be a means of moving from 10 to 20 Gbit/s and beyond without deploying new technologies".

Altice to rollout single brand worldwide by mid-'18

Altice NV has unveiled a new unified global strategy, marking the next step in the group's strategy to strengthen its industrial and operational platform and building on its transformation into a trans-Atlantic telecoms, content and advertising company serving more than 50 million customers around the world after the acquisitions of Cablevision and Suddenlink in the U.S. last year.

As part of this transformation, Altice is announcing its new global and multi-local branding strategy, unifying its assets and brands worldwide. The move is intended to unite and strengthen Altice's businesses, which will share a common telecoms-content-advertising strategy and execution model.

The Altice name, brand and new logo will replace the current brands at each of Altice's operating companies globally, and it is expected that all commercial brands will have transitioned by the end of the second quarter of 2018.

Under the initiative, Altice's B2B brands will transition to Altice Business, while telecoms sub-brands in select areas will not change, specifically: Red in France; Moche, Uzo and Sapo in Portugal; Next TV in Israel; the media news brands; press brands of SFR Presse and Teads.

Founded in 2001 by Patrick Drahi, Altice is a convergent telecom, content, media, entertainment and advertising company. The company has a presence in 10 territories including France, Portugal, Israel, the U.S., and the Dominican Republic.

Altice USA, a top-four U.S. cable operator, is a major broadband communications and video services providers, delivering broadband, pay TV, telephony services, WiFi hotspot access, content and advertising services to approximately 4.9 million residential and business customers across 21 states, currently via the Optimum, Lightpath and Suddenlink brands.

  • In April 2017, Altice   announced that Altice USA had filed a registration statement with the U.S. SEC for a proposed initial public offering of shares of Class A common stock.

Fastly, provider of edge cloud solutions, raises $50m in Series E funding

Fastly based in San Francisco, the edge cloud platform:

a.         Founded in 2011 by Artur Bergman, current CEO of Fastly.

b.         Developer of an edge cloud platform designed to enable secure and scalable delivery of digital services.

c.         Which has raised total funding of approximately $129 million in four rounds from investors including Iconiq Capital, Amplify Partners, August Capital, O'Reilly AlphaTech Ventures OATV, Battery Ventures and IDG Ventures.

Announced it has raised $50 million in new funding in a Series E round led by Sorenson Capital, with participation from additional new investor Sapphire Ventures and existing investors Iconiq Capital, Amplify Partners, August Capital, O'Reilly AlphaTech Ventures OATV and IDG Ventures. The company stated that including this latest round it has raised a total of approximately $180 million to date.

Fastly stated that since the introduction of its edge cloud platform, the company has achieved more than 100% annualised revenue growth over the last two quarters and is approaching breakeven based on an annualised run rate of $100 million. Fastly cited customers including online destinations such as The New York Times, Airbnb, Spotify, Pinterest and Ticketmaster.

Fastly's edge cloud platform provides a suite of application delivery, video and streaming, and cloud security solutions, including the recently-announced Image Optimizer, Load Balancer and Web Application Firewall (WAF), which were launched in April this year.

In October 2016, Fastly introduced its Managed CDN solution, designed to provide businesses with custom CDN solutions that meet individual customer requirements. The Managed CDN offering combines a customer’s existing network infrastructure with Fastly's content delivery platform.

Municipality of Arvada deploys Siklu radios to enable 1 Gbit/s connectivity

Siklu, a specialist supplier of millimetre-wave radios, announced it has provided high capacity wireless links supporting up to gigabit bandwidth for the city of Arvada in Colorado within the Denver-Aurora-Lakewood metro area.

The Siklu wireless links, deployed by system integrator Netunwired, provide municipal facilities in Arvada with connectivity at up to 1 Gbit/s, and help to eliminate leased line expenses.

Siklu explained that in 2016 a range of municipal facilities including the Arvada police were serviced by a central DS3 leased circuit, split into T1 lines, providing each site with throughput of 1.5 Mbit/s. While the facilities required more bandwidth, the city IT department was unable to implement a uniform network policy or introduce a virtualised server network.

Arvada required a solution able to deliver fibre-like bandwidth, but without the up front installation costs associated with fibre deployment. Therefore the municipality approached wireless system integrator Netunwired, specifying its requirement for a full duplex gigabit service offering reliability suitable for carrying mission critical municipal services.

Netunwired proposed deploying Siklu's EtherHaul millimetre-wave (mmWave) radios and installed a mix of EtherHaul radios designed to provide 99.99% reliability and 1,000 Mbit/s full duplex throughput over the air. In addition, for two longer wireless links it added Siklu's Overbuild long range protocol, which enables mmWave connections to perform close to 100% reliability over a distance of several miles.

Siklu noted that Netunwired completed the bulk of the project within three weeks of its initiation by the city, enabling higher bandwidth connections and enhanced productivity as well as a more robust IT infrastructure.

  • Earlier in the year, Siklu announced its 70 GHz radios had been deployed to deliver gigabit throughput on Ikei Island in Okinawa, Japan, specifically enabling a high-speed link to a computer graphics school over 1.9 km of open water. The link was provided by GLBB, a major ISP in Japan.

Cisco survey finds nearly 75% of IoT projects fail to meet objectives

Cisco has released the findings of its survey evaluating Internet of Things (IoT) projects worldwide at the annual IoT World Forum (IoTWF) event in London.

Cisco noted that IDC predicts the installed base of IoT endpoints will rise from 14.9 billion at the end of 2016 to over 82 billion in 2025, but finds in its survey that 60% of IoT initiatives stall at the proof of concept (PoC) stage and only 26% of companies consider IoT initiative to have been a complete success.

For the study, designed to assess the success of, and challenges faced, in implementing IoT initiatives, Cisco surveyed 1,845 IT and business decision-makers in the U.S., UK and India in a range of industries spanning manufacturing, local government, retail/hospitality/sports, energy, transportation and health care. Respondents were from organisations engaged in implementing or that have completed IoT initiatives. Key findings of the survey are outlined below.

The human factor

Cisco finds that while IoT may seem to be about technology, human factors such as culture, organisation and leadership are critical, with three of the four top factors behind successful IoT projects linked to people and relationships. Specifically, it found that collaboration between IT and the business side was the top success factor, cited by 54% of respondents, while a technology-focused culture, based on top-down leadership and executive sponsorship, cited as key by 49% of respondents. In addition, IoT expertise was selected as key by 48% of respondents.

The survey also highlighted that organisations with the most successful IoT initiatives worked with ecosystem partners at each phase of projects, from strategic planning to data analytics after rollout.

Cisco notes that IT decision-makers are more likely to rate IoT initiatives as successful, with 35% of IT decision-makers calling IoT initiatives a 'complete success', but only 15% of business decision-makers of the same view.

Partner for success

Cisco finds that 60% of respondents stressed that IoT initiatives prove far more difficult than expected, with the top 5 challenges cited as time to completion, limited internal expertise, quality of data, integration across teams, and budget overruns. It was found that successful organisations work with the IoT ecosystem at each stage of projects.

Leveraging smart-data insights

Cisco reports that 73% of participants use data from completed IoT projects to improve their business. Globally, the top 3 benefits of IoT include improved customer satisfaction (70%), operational efficiencies (67%) and improved product/service quality (66%). In addition, improved profitability was found to be the leading unexpected benefit (39%).

Learn from the failures

Finally, Cisco finds that IoT projects also resulted in a further unexpected benefit, with 64% of respondents agreeing that experience gained from stalled or failed IoT initiatives helped to accelerate the organisation's investment in IoT.

Oscilloquartz unveils synchronisation solution for small cell deployments

Oscilloquartz, an ADVA Optical Networking company, announced the launch of the OSA 5405 SyncReach, an integrated PTP grandmaster and GNSS receiver featuring a patent-pending dual antenna and receiver and designed to support the large-scale roll out of small cells.

The new technology from Oscilloquartz is engineered to provide accurate and affordable phase synchronisation for the growing small cell market and meet the timing requirements of 4.5G and 5G connectivity. Using the OSA 5405, operators can migrate from legacy GNSS RF antennas and cables to standard copper and fibre Ethernet cabling, allowing reduced capex and opex.

Available in both indoor and outdoor variants, the new OSA 5405 is designed to be deployed in the challenging environments, including urban canyons where GPS signals fail. In addition, the OSA 5405's small size also enables it to be positioned on indoor windows to avoid multi-path signal interference from objects within the building.

The compact design and power-over-Ethernet capabilities of the OSA 5405 enable synchronisation at the edge of the mobile network, allowing a significant reduction in complexity and power requirements, as well as lower costs for installation and operation. A further key feature of the new solution is IP connectivity, enabling synchronisation as a part of Internet of Things (IoT) networks.

The OSA 5405 from Oscilloquartz provides precise GNSS-sourced synchronisation, supported by network-based SyncE and PTP backups. Additionally, in high-rise buildings it can also deliver synchronisation recovered from the GNSS smart receiver over fibre.

The solution is designed to be combined with the ADVA FSP Network Manager with Syncjack assurance to allow efficient operation. In addition, the OSA 5405 uses a dual GNSS antenna and receiver algorithm designed to mitigate interference from multi-path signals that can affect accuracy, particularly in urban canyons.

Finally, a big acquisition happens in SD-WAN

One thing Silicon Valley is known for is the frantic pace of mergers and acquisitions. Cisco's recent agreement to pay $610 million for Viptela, a start-up based in San Jose, is a big sigh of relief for the many innovators and investors who have been patiently advocating a new generation of software-defined wide area network (SD-WAN) technologies for the past five years. The deal was not unexpected and one could reasonably ask, why did it take so long?

While Viptela was not an Insieme-style Cisco spin-in, the company certainly has a Cisco pedigree. Viptela was founded in 2012 by Khalid Raza, a former Distinguished Engineer at Cisco and widely regarded as a visionary in routing protocols, and Amir Khan, who had previously led the enterprise routing business and product management for MX and M series routers at Juniper. Before Juniper, Khan served as director of product management at Cisco. It is worth noting that Raza holds patents in Border Gateway Protocol (BGP) and Open Shortest Path First (OSPF). Additional founders include Atif Khan, Venu Hemige and Ramesh Prabagaran.

Interestingly, earlier this year Viptela named Praveen Akkiraju as its new CEO, replacing Amir Khan, who continued as president and board member. Akkiraju previously was CEO of VCE for the past four years, where he led the converged infrastructure provider to the No.1 market share position. Prior to VCE, he spent more than 19 years at Cisco, including lastly as SVP and GM of Cisco's Enterprise Networking group. So clearly the Viptela team will fit in well to the Cisco culture.

In May 2016, Viptela raised $75 million in its Series C, bringing total funding to nearly $110 million. The round was led by Redline Capital with participation from new investor Northgate Capital and existing investor Sequoia Capital. Proceeds from this final funding round was intended to scale sales, marketing, technical support and R&D. At the time, the company cited deployments by more than 25 Fortune 500 enterprises as well as licensing partnerships with Tier-1 carriers Verizon and Singtel.

Even with this $610 million transaction, the venture sharks may not be fully satisfied. The price should yield a 5x or better return on their investment, but it is not the billion-plus level of mergers seen in the past, back in the days when all a start-up really had to do was prove that its unique mousetrap was being deployed by a top-tier customer such as Verizon. From the seller’s perspective, some analysts have said the last funding round implied a valuation that would put Viptela in the billion-dollar unicorn club; from the buyer's perspective, Viptela appears to be in the early stages of real, recurring customer revenue generation. There are also numerous other SD-WAN start-ups looking for a buyer, and Cisco was an equity investor in VeloCloud, a direct Viptela competitor also located in Silicon Valley.

What is driving SD-WAN

The traditional enterprise WAN market brings in approximately $45 billion per year worldwide for VPN and MPLS connectivity but has not really changed for years in terms of its service portfolio, making it ripe for innovative disruption. Hence, the venture capitalists became interested in start-ups promising a soft-defined connectivity solution that can be delivered at lower-cost than MPLS and without requiring expensive infrastructure investments up front. A lot of venture funding has flowed to these start-ups for the following good reasons:

  • Businesses have an unsatisfied need WANs at a reasonable cost.
  • The emergence of cloud services means more data is going off-premises.
  • The belief that software rules.
  • The belief that the era of fixed configuration hardware appliances.
The following is a list of pure-play SD-WAN start-ups still on the market:

1.  Aryaka (Milpitas, California)

2.  Cato Networks (Tel Aviv)

3.  CloudGenix (Santa Clara, California)

4.  Cradlepoint (Boise, Idaho)

5.  Cybera (Franklin, Tennessee)

6.  Fat Pipe (Salt Lake City)

7.  Glue Networks (Sacramento, California)

8.  Mushroom Networks (San Diego)

9.  Silver Peak (Santa Clara)

10.  Talari (San Jose)

11.  Velocloud (Mountain View, California)

12.  Versa Networks (Santa Clara)

13.  Webscale Networks (Mountain View, California

Established network hardware vendors also offer SD-WAN solutions. Even if they did not originally use the term SD-WAN, many are doing so today. Prior to the Viptela announcement, Cisco already had its iWAN network overlay solution for enterprises and service providers, and its Meraki group also offers a cloud-based WLAN management that could also be considered a software-defined network management service.

Then there is Riverbed, which is normally thought of as the original WAN optimisation company. This strategic position fits in well with SD-WAN. In 2016, Riverbed acquired Ocedo Networks, a developer of SD-WAN technologies based in Karlsruhe, Germany.  Riverbed had been using Ocedo to power its Project Tiger initiative of application-centric SD-WAN solutions designed to eliminate the need for traditional branch routers. Last month Riverbed agreed to acquire Xirrus, a leading supplier of enterprise and service provider WiFi solutions. The combination of these two newly acquired companies, along with its link optimisation technology, should make Riverbed a potent player in this space.

Many can play this game

Network aggregation technologies have been around for a long time. While independent service providers have become quite successful at aggregating access lines from multiple carriers into a software-driven WAN as a service. Global Capacity is a good example. Since 2000, this carrier based near Boston has been building virtual networks for enterprises. Its One Marketplace hub aggregates the access and pricing information for broadband telecommunications services, including MPLS VPN, Ethernet over copper and DSL. In 2014, Global Capacity acquired MegaPath’s network services business unit which include the Covad DSL assets.

A similar company is Virtela, which NTT Communications acquired in 2014. The Virtela proposition was also simple: enable the enterprise customer to build a virtual overlay network from multi-carrier MPLS, Ethernet, DSL, 3G/4G/LTE and other IP links, while benefiting from a single SLA and management portal. Virtela operates global operations and delivery centres in the U.S., India and the Philippines.

In addition, at least two major service providers (AT&T and Orange) are building their own SD-WAN solution rather than buying a solution from one of the start-ups or an established vendor. So the question of which technology provider will dominate the SD-WAN segment is still in the open.

Concluding thoughts

Now that Viptela is off the field of potential acquisition targets, will it be easier or harder for the remaining start-ups to find a suitable dance partner? In the past, whenever Cisco bought a start-up in a particular category one could expect Juniper, Ericsson or Alcatel-Lucent to do the same. But this dynamic has not been seen for several years.

One could still imagine Juniper buying up Versa Networks or HPE making a bid for Velocloud or Webscale Networks; and Ericsson might find a new focus and liking to this segment. The most likely buyers, in OND's opinion, would be the giant cloud companies, especially AWS, Microsoft and Google. These companies clearly benefit when new railroads are built to bring traffic into their domains. As cloud providers, they are already delivering the infrastructure for running the controllers used by these SD-WAN start-ups. Managing their own SD-WAN could also provide a cloud company with a competitive advantage and a new billing opportunity. Even for smaller companies looking to provide secure Office suite software to multiple branch offices, why not buy an integrated WAN connectivity directly from Microsoft? So the question is what are they waiting for?

Tuesday, May 23, 2017

AT&T enhances FlexWare NFV solution and expands availability worldwide

AT&T announced new network connectivity options and security applications for its FlexWare offering, and that it is increasing availability to cover more than 200 countries and territories worldwide.

The AT&T FlexWare platform is designed to simplify the delivery and deployment of software-based network functions for business customers. Using the service, businesses can flexibly manage their networks, reduce total costs of ownership and avoid the requirement of utilising proprietary hardware-based solutions. AT&T noted that within a year of launch, over 2,000 FlexWare devices have been sold worldwide to a variety of businesses, both large and small.

With the new enhancements, AT&T FlexWare provides the benefits of network function virtualisation (NFV) to businesses with a broader range of connection types. Specifically, FlexWare now features a range of connectivity options via both AT&T and third party service providers, with options including Ethernet, VPN (MPLS), dedicated Internet and broadband.

In addition, AT&T is adding three new virtual security options for FlexWare. Ads well as Fortinet self-managed and AT&T-managed firewall options, the company has partnered with other companies to offer new software-defined security options as follows: Palo Alto Networks Next-Generation Security Platform (either AT&T- or self-managed); Juniper Networks vSRX Virtual Firewall (self-managed); and Check Point vSEC (self-managed).

  • Separately, Ericsson announced that it is rolling out availability of AT&T FlexWare across its global corporate network to locations including the U.S., Latin America, Middle East and Europe. Ericsson noted that by virtualising its network services using FlexWare it can adapt its network to changing business needs in near real-time, while lowering its cost of network ownership.
  • In addition to the deployment of AT&T FlexWare, Ericsson stated that it is also expanding the reach of its global AT&T managed VPN solution.

China Telecom selects Huawei for all-optical backbone

Huawei announced that it won the bid as supplier for China Telecom's ROADM Network Project encompassing the middle and lower reaches of the Yangtze River area, claiming that the project represents the first intelligent ROADM WDM backbone network to be built in China.

The ROADM project is the initial phase of China Telecom's program designed to transition its optical transport network into an intelligent optical network, and also represent a key step for the CTNET2025 network transformation strategy of China Telecom.

Huawei noted that the middle and lower reaches of the Yangtze River extend across the fastest developing region in China and include the growing Internet industry. By building a ROADM network in the region, China Telecom is seeking to significantly improve the security and intelligence of its optical transport network to enhance its operational capabilities and improve broadband services in support of Internet enterprises, e-commerce and government/enterprise customers.

The project awarded to Huawei covers 21 ROADM sites in Hubei, Jiangxi, Anhui, Jiangsu, Zhejiang and Shanghai, extending along the middle and lower reaches of the Yangtze River. For the project, Huawei is supplying its CD-ROADM technology, which is designed to facilitate the provisioning of new routes on upper-layer service networks, such as routes offering capabilities such as one-hop transmission, full mesh interconnection, optimal path and latency and rapid dynamic recovery.

The project is also designed to address the low latency and high performance requirements for data centre private lines and financial customers. Huawei stated that the current phase of the project will deliver more than three hundred 100 Gbit/s electrical lines and enhanced network recovery capability.

In the all cloud era, to meet the demand for higher bandwidth and lower latency, Huawei noted that it aims to help operators create advanced CloudOptiX transport networks that can enable a simplified, efficient one-hop transmission network architecture.

ZTE claims 70% share of China Mobile's PTN procurement project

ZTE reports that it has been awarded a 70% share, making the company the largest supplier of equipment, for China Mobile's New Packet Transport Network (PTN) Procurement Project.

ZTE stated that this latest contract win follows previous awards under China Mobile's PTN Procurement program, consolidating its position as a supplier of PTN solutions. The company noted that with only two vendors on the shortlist, China Mobile awarded the vendor ranked top in the procurement with a more than 70% allocation for the project, with the second vendor awarded a share of not more than 30%.

ZTE noted that with software-defined networks (SDN) destined to become a key communications network technology in the future, as part of the procurement program China Mobile arranged SDN-based tests covering solutions including SPT controllers and centralised operation and management centres (OMC).

Based on its expertise and capabilities in the SDN field, ZTE's SPTN controller is designed to provide high performance and advanced functionality that can enable centralised intelligent control, together with high resource utilisation and flexible service scheduling, while facilitating the network evolution.

Based on the development of its transport network and technologies, China Mobile is engaged in research into 5G networks and implementing pilot trials. As part of its 5G development effort, ZTE launched its 5G Flexhaul solution at this year's Mobile World Congress (MWC), designed to enable operators to build advanced, flexible, efficient and unified 5G transport networks.

  • Recently, ZTE announced that, working with China Mobile, China Mobile Zhejiang and the China Mobile Jiaxing Branch, it has completed a commercial deployment and multi-scenario test verification of 3D-MIMO technology utilising its Pre5G Massive MIMO solution in Jiaxing.

Crehan: Early 25GbE Adoption Faster than 10GbE

The adoption of 25GbE gigabit Ethernet (GbE) is off to a much stronger start than either 10GbE or 40GbE, according to a new Server-Class Adapter & LAN on-Motherboard (LOM) Report from Crehan Research Inc.

In fact, 25GbE shipments have handily surpassed two hundred thousand ports in just a little over a year, a milestone that took 10GbE about six years to reach and 40GbE about four – see accompanying figure. Moreover, each of these successive Ethernet networking technologies has ramped faster than its predecessor in response to changing data center networking traffic demands.

“The ramp of 25GbE shipments is off to a stellar start, driven by compelling pricing and rapid, broad ecosystem alignment, as well as new data center application bandwidth requirements," said Seamus Crehan, president of Crehan Research. “Looking at the broader high-speed networking adoption arcs, we are seeing an acceleration in adoption as customers move to stay ahead of numerous network traffic demands including big data and related analytics, a rapidly growing and changing mobile internet, Network Function Virtualization (NFV), machine learning, and augmented and virtual reality."

Crehan’s report also notes that in conjunction with the stellar performance of 25GbE, both 50GbE and 100GbE are also seeing rapid growth, with each already exceeding an annualized shipment run-rate of over one hundred thousand ports. “The simultaneous strong initial ramp in three new higher-speed Ethernet networking technologies suggests that we may be at an inflection point in data center networking bandwidth demand," Crehan said. "Furthermore, it reflects additional segmentation of the Ethernet market as this market shifts away from the one-size-fits-all deployment model that used to dominate.”

Centec selects 100 Gbit/s QSFP28 active copper cable from Credo and FIT

Credo Semiconductor, a developer of mixed-signal ICs and IP for data centre and enterprise networking applications, and interconnect solutions supplier Foxconn Interconnect Technology (FIT) announced that they will demonstrate robust and error-free 100 Gbit/s QSFP28 active copper cable (ACC) connectivity solutions with reach up to 10 metres during the Computex Show in Taipei.

The new cable assembly is designed to enable server designers to transition to higher bandwidths utilising cost-effective copper connectivity as an alternative to implementing higher cost optical technology.

The companies stated that to enable lower cost high bandwidth solutions, Centec, an established provider of Ethernet switching solutions, plans to adopt ACC technology for its data centre solutions to help speed the transition to the technology in 100 Gbit/s intra-rack and inter-rack applications within the data centre.

The companies noted that with growing demand for bandwidth, maintaining copper interconnects between servers and top-of-rack switches would save significant capex in the transition from 10 to 25 Gbit/s single lane data rates. The new jointly developed 100 Gbit/s QSFP28 ACCs provide connectivity between standard QSFP ports, with a QSFP28 ACC capable of supporting 4x full-duplex lanes, with each lane transmitting at up to 25 Gbit/s in each direction, delivering aggregate bandwidth of up to 100 Gbit/s.

The ACC solution utilises Credo's mixed-signal processing technology to provide cost-effective intermediate-reach data centre interconnects that cannot be achieved with traditional passive copper cable (PCC). In addition, Credo's low power technology means that the 100 Gbit/s ACC consumes significantly less power than competing AOCs (active optical cables).

  • Earlier this year, Credo Semiconductor announced demonstrations of its low power 112 Gbit/s PAM4, 56 Gbit/s PAM4 LR and 56 Gbit/s NRZ LR SerDes technologies at DesignCon 2017. Demonstrations with Keysight and Amphenol showcased Credo's 112 Gbit/s PAM4-SR and 56 Gbit/s PAM4-LR technology, with Molex demonstrating Credo's 56 Gbit/s PAM4-LR and NRZ LR SerDes IP over copper cables and backplanes. Credo also demonstrated long-reach 28 Gbit/s technology for data centre connectivity with Leoni.

Coloclue deploys Juniper vMX virtual router for next-generation network

Juniper Networks announced that Netherlands-based Coloclue, a non-profit, independent association of network specialists, has selected the Juniper Networks vMX Virtual Router for its next-generation production network.

Juniper's vMX, a virtualised MX Series 3D universal edge router, offers a full-featured, carrier-grade virtual router that will enable Coloclue to upgrade its network environment. For the project, Coloclue will deploy the vMX on the NFX250 Network Services Platform and leverage the automation features of Junos OS as part of an effort to create a Self-Driving Network, designed to reduce time required for testing, as well as reduce costs, and allow its staff to focus on higher-value activities.

Deployment of Juniper's vMX on the NFX250 network services platform is intended to enable a high-performance, automated and operationally-efficient network that will deliver an advanced production environment for Coloclue members. Members will also be able to leverage the production network to test and troubleshoot new applications before they are rolled out.

The vMX solution offers a suite of advanced routing functions on an open platform and is designed to support network automation to allow engineers to create a real-world network environment while gaining experience with a variety of automation tools that help to reduce the resources needed to operate the network. This can allow engineers to focus on higher value testing and troubleshooting activities.

Juniper noted that partner Infradata BV, a network integrator focused on designing, implementing and managing next-generation networks, is carrying out the deployment with Coloclue.

  • Juniper recently announced that Dutch Internet connectivity provider A2B Internet had selected its vMX Virtual Routers as the first virtual network function (VNF) for its next-generation network platform. A2B Internet selected the vMX to enable improved service agility for its customers and reduced costs through simplifying its network.

Orange launches brand in Liberia following acquisition of Cellcom

France-based global telco Orange announced the launch of its brand in Liberia in West Africa, so that effective immediately, Cellcom Liberia becomes Orange Liberia, expanding the group's presence in the region.

The re-branding follows the acquisition by Orange of the Liberian operator Cellcom, which was implemented through its subsidiary Orange Côte d’Ivoire and completed in early April 2016.

Orange noted that, in line with its Essentials2020 strategic program, it is focused on building up its presence in the West Africa region as a strategic priority for the group's development, based on the anticipated significant growth potential the region offers.

Following the re-branding, Orange Liberia becomes part of a major international telecoms group. Orange noted that it will provide marketing expertise and technical capabilities to help strengthen the operator's established network and enhance customer service in Liberia.

Orange Liberia served more than 1.6 million customers as of the end of February 2017, making it the leading mobile operator in the country in terms of subscribers. Founded in 2004, the mobile operator was the first in Liberia to launch 3G (HSPA+) services in 2012, followed by the launch of 4G LTE services in 2016. Orange plans to continue to invest in the development of its network to bolster the operator's position as market leader.

Orange noted that, with a population of 4.6 million and a relatively low mobile penetration rate of 70% of the population, Liberia offers growth potential. To support this development, the Orange intends to enhance the quality of access by investing in network expansion. Specifically, it added 39 sites in 2016 and plans to add a further 65 sites in 2017 as part of efforts to accelerate broadband deployment and expand 4G penetration across the country.

In addition, the company aims to enhance Internet quality in Liberia by providing access to Orange Group's submarine and international cable networks in the region. This will provide Orange Liberia with access to two additional connection points, in Abidjan and Paris, that are expected to increase network capacity four-fold.

Orange has a present in 21 countries across Africa and the Middle East, where it serves a total of over 120 million customers. Orange Money, the company's money transfer and mobile financial services offering, is available in 17 countries with more than 31 million customers.

Monday, May 22, 2017

Windstream Launches SDNow Waves for Multivendor Optical Layer

Windstream launched a new service called SDNow Waves for Data Center Cloud applications that leverages the company’s ongoing SDN deployment strategy. The company said its agile, DevOps-style approach to automation development enables it to abstract the complexity of service delivery and offers a simplified view of the multi-vendor optical layer.

The SDNow Waves introduces optical wave services based on multi-vendor service orchestration and automated provisioning across the Windstream long-haul core network.  It is initially available at five major third-party carrier neutral data centers in Chicago, Dallas, Ashburn, Miami and Atlanta. Windstream plans to expand the service to 50 additional locations this summer.

The service is aimed at hyperscale web content and application companies in need of high capacity long-haul transport services.

“We are investing in strategic technologies that enable us to deliver flexible, on-demand services across our multi-vendor network,” said Mike Shippey, president of Windstream Wholesale. “Providing SDNow services to our customers via multi-vendor service orchestration and automated provisioning truly differentiates Windstream in the marketplace. Consumers of SDN-provisioned services will see improvement in their customer experience through the removal of human touch-points in the service fulfillment process, and improved accuracy through automated standard configurations.”

Leveraging open orchestration capabilities, Windstream utilizes its optical network as a programmable resource to accelerate the delivery of optical wavelength services.  Windstream’s

In addition, Windstream Wholesale plans to introduce additional services in 2017, integrating additional  third-party SDN controllers and enabling true intent-based service orchestration across multiple layers of the Windstream network.

Windstream Launches SD-WAN Wholesale

Windstream launched an all-new Software Defined Wide Area Network (SD-WAN) solution for the reseller community. The company said its SD-WAN solution relieves the demanding pressures on today's networks by providing agility, visibility and control, as well as performance and operational efficiencies. "This significant addition of SD-WAN to the current available portfolio of Wholesale solutions - including MEF 2.0 Certified Carrier Ethernet, MPLS...

Windstream expands metro fibre network, launches fixed wireless service in Detroit

Windstream, a provider of communications services to consumer and business customers, announced a major expansion of its metro fibre network in Detroit to provide the business community with advanced fibre and fixed-wireless infrastructure that connects more local data centres and commercial buildings with the operator's national fibre network. Windstream's latest expansion of its local metro fibre network and the launch of fixed wireless service...

AT&T introduces national LTE-M network for IoT applications

AT&T announced it has completed the deployment of its nationwide LTE-M network ahead of schedule, providing a network designed to support a new generation of Internet of Things (IoT) devices and applications.

AT&T's LTE-M network is now live across the U.S. on the operator's nationwide 4G LTE network following the completion of software upgrades, and marks a further move towards the provision of 5G and massive IoT. The new network leverages the global, 3GPP standard technology and uses licensed spectrum for carrier-grade security. AT&T stated that it plans to extend the LTE-M network across Mexico by the end of the year to create a North American footprint covering 400 million people.

LTE-M is designed to offer benefits over traditional IoT connectivity options including longer battery life (potentially up to 10 years), enhanced coverage for IoT devices underground and inside buildings, and smaller module size. LTE-M is intended to support large-scale IoT deployments such as smart city services, smart metering, asset tracking, supply chain management, security and personal wearables.

In conjunction with the launch, AT&T is introducing a new suite of rate plans for LTE-M, featuring monthly plans starting from $1.50 per month per device, with discounts available for yearly and multi-year plans and high volume commitments. LTE-M modules will be available from the supplier priced from $7.50 with the SIM card. AT&T noted that this price represents half the cost of the LTE Cat-1 module launched in 2016.

In addition, the company stated that current IoT starter kits with M14A2A modules will be software-upgradeable to LTE-M via a forthcoming firmware update.

  • In March this year, Verizon announced the commercial launch of its national 4G LTE Category M1 (or Cat M1) network covering an area of around 2.4 million square miles. At that time, Verizon stated it would offer multi-year plans for Cat M1 devices, with data plans starting from $2 per month per device.
  • Verizon noted the Cat M1 network was based on a virtualised cloud environment designed to enable rapid and agile IoT solution deployment and nationwide scaling.

Windstream Wholesale launches 5 new fibre routes

Windstream announced the launch of five new strategic fibre routes on its nationwide long-haul fibre transport network, expanding its ability to offer high bandwidth solutions for cloud connectivity between major interconnection points in Tier 1 cities, as well as Tier 2 and 3 markets, across the U.S.

Secured as part of Windstream's recent merger with EarthLink, the new routes offer customers access to greater network diversity options, improved reliability and higher bandwidth capacity for customers such as international carriers, content providers, data centre and cloud operators and ISPs.

Supporting Windstream Wholesale's portfolio of solutions that includes waves, MEF 2.0-certified Carrier Ethernet, MPLS and dedicated Internet access the newly-launched routes are as follows:

1.         Dallas to Atlanta: a low-latency, direct route linking the two markets and with add/drop capability in Birmingham, Jackson and Shreveport.

2.         Miami to Atlanta: running along the Gulf Coast via Tampa, the route complements the existing route traversing the Atlantic Coast via Jacksonville, while customers with traffic terminating in the U.S. at the Miami NAP landing station can gain diverse routing options.

3.         Raleigh to Savannah: termed the Beach Route, the route offers a further diverse, direct path along the eastern seaboard.

4.         Houston to Gulfport: referred to as the Gulf Coast Route, the route offers add/drop capability in Lake Charles, Lafayette, Baton Rouge and New Orleans.

5.         Memphis to Charlotte: a route that utilises fibre-composite overhead ground wire, providing diverse routing over a reliable infrastructure.

In addition to the new routes, Windstream noted that the merger with EarthLink also provides wholesale and enterprise customers with access to more than 445 new point of presence (PoP) locations and multiple new data centres and carrier hotels.

  • Windstream announced it had completed its merger with EarthLink Holdings in February. Under the agreement, valued at approximately $1.1 billion, EarthLink shareholders received 0.818 shares of Windstream common stock for each EarthLink share owned, resulting Windstream shareholders holding approximately 51% and EarthLink shareholders approximately 49% of the combined company.

EXFO introduces tunable CWDM OTDR module

EXFO, the network test, monitoring and analytics company, announced the launch of the FTB-740C-CWDM product, a tunable optical time domain reflectometer (OTDR) for testing all 18 ITU-defined CWDM channels using the compact FTB-1 platform and without the need to swap modules.

The new EXFO solution is designed to ensure that multiple-service operators (MSOs) and contractors have the CWDM wavelength required for characterising through multiplexers and demultiplexers (mux/demux) to provide end-to-end link characterisation and troubleshooting for commercial services, C-RAN networks and metro Ethernet deployments.

In addition, EXFO's latest OTDR is designed to scale in line with customer requirements and allows users to start with as few as eight wavelengths. From the base configuration, customers can add further CWDM wavelengths or other fibre characterisation features as required via software update in the field.

Key features of the new FTB-740C-CWDM tunable OTDR include:

1.         18 x CWDM channels covered on a single OTDR port.

2.         Support for in-service testing of active networks.

3.         Offers high-resolution and short dead zones.

4.         Facility to select favourite or imported channels list.

The OTDR is available in standard and Pro models, housed in the FTB-1v2 lightweight and compact test platform, enables field technicians to carry out dedicated optical, Ethernet and multi-service test applications.

Hi3G selects Ericsson to upgrade network to prepare for 5G in Scandinavia

Ericsson announced it has been selected by Hi3G Scandinavia, operating as 3 in Denmark and Sweden, for a project to upgrade parts of its radio and transmission network, expand 4G coverage and launch 5G technology.

Under the agreement, Ericsson will replace existing equipment with the advanced Ericsson Radio System solution, which is designed to enable Hi3G to implement higher order MIMO and massive MIMO technology to expand coverage and capacity in its network in Sweden.

Ericsson has also been selected to deploy its MINI-LINK microwave solutions, including the MINI-LINK 6363 and MINI-LINK 6352 for E-band platforms, into HiG3's microwave transmission network.

Ericsson's MINI-LINK 6600 portfolio is designed to deliver high capacity, low latency, support for large numbers of 10 Gigabit Ethernet ports and Layer 3 VPN in a compact platform. The deployment of MINI-LINK outdoor units and indoor units allows any network scenario to be supported, including multiband solutions, with high performance and low cost of ownership.

The combination of Ericsson Radio System and MINI-LINK microwave solutions will enable Hi3G to meet the demands of increasing traffic, as well as reduce latency and prepare its network for the move to 5G which is expected to result a massive increase in connected devices via the Internet of Things (IoT). Ericsson noted that the project marks a significant step towards expanding the capacity of the Hi3G network in Denmark and Sweden and it moves to 5G.