Thursday, September 6, 2018

Qualcomm and Ericsson test 5G-NR over 39 GHz

Qualcomm and Ericsson successfully completed a 3GPP Rel-15 spec compliant 5G NR call on a smartphone form factor mobile test device.

The over-the-air (OTA) call was performed using millimeter wave (mmWave) in the 39 GHz band of spectrum using NSA (Non-Standalone) mode. It utilized Ericsson's commercial 5G NR radio AIR 5331 and baseband products and a mobile test device with integrated Qualcomm Snapdragon X50 5G modem and RF subsystem in the Ericsson Lab in Kista, Sweden.

“Mobilizing mmWave for the smartphone has been seen by many as an impossible challenge, but this demonstration validates that we are on track to bring groundbreaking 5G mmWave experiences to consumers,” says Cristiano Amon, President, Qualcomm Incorporated. “This successful lab call is a testament to our continued innovation and collaboration with Ericsson, and we look forward to further industry-leading milestones with them as we progress to 5G commercialization of networks and mobile devices in early 2019.”


Verizon and Nokia complete 5G-NR data call in Wash DC

Verizon and Nokia announced another 5G milestone: completion of the first over-the-air, end-to-end data transmission on a commercial 3GPP 5G New Radio (NR) network in Washington DC. The signal was carried over commercially deployed Nokia radio equipment and Verizon’s millimeter wave spectrum and 5G network core to a Nokia test van parked in downtown Washington.

“The cadence and frequency of these significant milestone achievements from Verizon and Nokia show just how quickly we’re taking the promise of 5G technology from the lab to the field and to the marketplace where our customers will ultimately use this revolutionary technology,” said Bill Stone, vice president, Technology Development and Planning for Verizon. “We said Verizon will be first to 5G, and our latest milestone moves us closer to fulfilling that promise.”

“Nokia and Verizon have had a tremendous summer for 5G innovations and technology advancements,” said Marc Rouanne, president of Mobile Networks, Nokia. “We are thrilled to be on the forefront of this new technology, helping Verizon make yet another significant stride towards becoming the first-mover to the market.”

Verizon and Nokia complete 5G NR mobility call

Verizon and Nokia announced a 5G milestone: the first successful transmission of a 3GPP New Radio (NR) 5G signal to a receiver situated in a moving vehicle, seamlessly handing off the signal from one radio sector to another.

The test, which took place at Nokia’s campus in Murray Hill, NJ, used two 5G NR radios on a Nokia building and a third radio/receiver in a vehicle outfitted with equipment to measure transmission statistics. The transmission used 28 GHz spectrum. Seamless 5G NR Layer 3 3GPP-compliant mobility handoffs were achieved between the two sectors (intra-gNB and inter-DU).

“Unlike some of the incremental 5G technology announcements we’ve seen lately, tests like the one we conducted are significant advancements in the development of 5G technology,” said Bill Stone, vice president, Technology Development and Planning for Verizon. “By taking these tests out of the lab and into the field, we’re replicating the experience users will ultimately have in a 5G mobility environment.”

Verizon is preparing to launch a fixed 5G service in four U.S. markets to deliver broadband and video service. The company has not announced a launch date for a mobile 5G solution.

Anritsu adds 53 Gbaud upgrade for PAM4 optical signal analysis

Anritsu has released new firmware downloads for the BERTWave MP2110A Sampling Oscilloscope that boosts its PAM4 analysis function from 26 Gbaud to 53 Gbaud for the production and inspection of optical modules.

Anritsu notes that current optical modules such as CFP8s use 26-Gbaud PAM4 optical signals, while future mass-produced QSFP-DD and OSFP modules will use 53-Gbaud PAM4 optical signals. Its solution can be used to support the development and production-line inspection of next-generation QSFP-DD optical transceivers expected to be deployed in data centers.

The BERTWave MP2110A is an all-in-one measuring instrument with built-in multi-channel Bit Error Rate Tester (BERT) and Sampling Oscilloscope, supporting bit error rate (BER) measurements, Eye Mask tests, Eye pattern analyses, high sampling speed of 250 kSample/s and low-noise (3.4 μW) high-sensitivity O/E interface. The BERT and Sampling Oscilloscope are required instruments for evaluating optical modules used by optical communications systems.

As well as NRZ technology, the MP2110A also supports PAM4 signal measurements including TDECQ, which enable all-in-one quality evaluations of optical modules at speeds from 25 to 400 G. In addition, the MP2110A, thanks to its high-speed measurement and PAM4 analysis, will play a key role in improving optical module production-line productivity. Moreover, adding 53 Gbaud support for quality evaluation of next-generation optical modules helps cut capital equipment renewal costs.


CASSCOMM deploys ADTRAN's EPON OLTs

CASSCOMM. which serves nine counties in central Illinois, is deploying ADTRAN's next-generation EPON OLTs for full 1G EPON and 10G EPON fiber service delivery, and GPON and Active Ethernet fiber technologies to enhance ultra-fast and gigabit broadband service availability across its network. CASSCOMM is initially targeting a 550-home residential network build with its new fiber services, to be followed by a three-city turn-up over the next 12 months—culminating with an upgrade to the remaining 29 communities that CASSCOMM serves.

“Our commitment to provide our community with the services it needs goes all the way back to 1898, and we’ve known throughout our history that the best service solutions will always depend on partnering with the right companies,” CASSCOMM COO Tom Allen said. “We needed to ensure our customers had the access and services required in today’s digital marketplace, and ADTRAN provided the domain expertise, broad set of innovative technologies and commitment to customer support we needed to meet and exceed our customers’ expectations.”

“Innovation is happening at all points of the network and ADTRAN is committed to delivering the products, technology and support needed to ensure our customers have the networks they need to reach every customer over any infrastructure,” ADTRAN Vice President of Cable and Wireless Strategy Hossam Salib said.

GlobeNet and Facebook build 2,500 Malbec subsea cable to Argentina

GlobeNet and Facebook kicked off construction of anew submarine cable system linking Brazil and Argentina.

GlobeNet and Facebook will co-own the system and it will be operated by GlobeNet.

The "Malbec" cable, which is named after the renowned Argentinian wine, will span 2,500 km linking Rio de Janeiro and Sao Paulo to Buenos Aires, with a branching unit to reach Porto Alegre, Brazil. The system will connect Argentina to GlobeNet's network in Brazil, which offers onward service to the United States. The Malbec cable system will feature six fiber pairs, delivering double the current international capacity to Argentina.
Globenet said Malbed will be the  first new submarine cable route to reach the Argentinian coast since 2001.

"We are excited and proud to work with Facebook," says Eduardo Falzoni, CEO of GlobeNet. "Argentina deserves state-of-the-art infrastructure to satisfy the pressing demands of the years ahead. This project is a testament to our capabilities, expertise and commitment to the region where we have been operating for 15 years."

The ready-for-service date will be in the first half of 2020.

http://www.globenet.com


IDC: Ethernet switching market hits $6.7B in Q2, up 4.8%

The worldwide Ethernet switch market (Layer 2/3) recorded $6.7 billion in revenue in 2Q18, an increase of 4.8% year over year, according to IDC Quarterly Ethernet Switch Tracker and IDC Quarterly Router Tracker.

"Dynamics in the Ethernet switching market continue to shift as enterprise and service providers are demanding higher-speed Ethernet switch products," said Rohit Mehra, vice president, Network Infrastructure at IDC. "While different regions are at varying stages of maturity, the market is clearly looking to capitalize on new equipment, which is helping to drive vendor revenue growth."

Some highlights:

  • The worldwide total enterprise and service provider (SP) router market recorded $3.8 billion in revenue in 2Q18, decreasing 2.5% on a year-over-year basis. 
  • 100Gb shipments reached more than 2.8 million ports and $893.5 million in revenue in 2Q18. 
  • 100Gb now accounts for 13.2% of total market revenue, compared to 8.1% during the same quarter in 2017. 
  • 25GbE switch products continue to gain traction with shipments exceeding 2.0 million ports and $197 million in revenue in 2Q18. 
  • Port shipments of 40GbE, meanwhile, grew 2.1% year over year, but price erosion for these products led 40 GbE revenues to fall 13.5% compared to last year.
  • The 2Q18 Ethernet switch market recorded its strongest growth in the Asia/Pacific (excluding Japan) region (APeJ), which increased 16.6% year over year in 2Q18. The China market, which makes up the largest share of the region's total, drove the growth with a 26.4% revenue increase between 2Q17 and 2Q18. The Western Europe region grew 4.3% from 2Q17 with Germany – the region's largest market – increasing 13.2% year over year. 
  • Japan grew 3.8%. The United States, the largest regional market in the world, was down 1.6% year over year.
  • The worldwide enterprise and service provider router market fell 2.5% on a year-over-year basis in 2Q18 with the service provider segment, which accounts for 76.9% of the market, declining 3.9% and the enterprise portion growing 2.5% year over year. The service provider segment was negatively impacted by weak CAPEX spending by major communications service providers, especially in the United States.




Facebook to build data center in Singapore

Facebook announced plans to build a hyperscale data center in Singapore. The 170,000 square meter facility, which will be Facebook's first wholly-owned data center in Asia-Pac, is expected to come online in 2022 at the latest. Facebook estimated the cost of the project at US$ 1 billion.


Last month, Facebook set 2020 as its target to reduce greenhouse gas emissions by 75% and to power 100% of global operations with renewable energy. Three years ago, the company set a goal of powering 50% of its operations with renewable power by 2018. It reached this goal by the end of 2017. To date, Facebook has signed contracts for over 3 gigawatts of new solar and wind energy. Most of the contracts have been signed over the past 12 months for new solar and wind projects that will deliver energy to its hyperscale data operations.

Facebook to build its next hyperscale data center in Alabama

Facebook has chosen Huntsville, Alabama for its next hyperscale data center location.

Facebook estimates it will invest $750 million in the 970,000 square foot facility.

As with its other data centers, Facebook committed to 100% renewable energy and is looking at new solar projects in the area. The company says it is working with the Tennessee Valley Authority to establish a renewable energy tariff that will let other qualifying customers buy new renewable resources as well.

The Huntsville Data Center could be operational in 2020.

Facebook plans next data center in Utah

Facebook will build one of its hyperscale data centers in Eagle Mountain, Utah.

The 970,000 square foot Eagle Mountain Data Center will be powered by 100% renewable energy.

Facebook said the Eagle Moutain project represents an investment of more than $750 million.

The data center will use outside air to cool its 

Broadcom says data center growth now more than 50% of revenue

Broadcom posted net revenue of $5.063 billion for its third quarter of fiscal year 2018, ended August 5, 2018,, an increase of 1 percent from $5.014 billion in the previous quarter and an increase of 13 percent from $4,463 million in the same quarter last year. Gross margin was $2,619 million, or 51.7 percent of net revenue. Net income, which includes the impact of discontinued operations, was $1,196 million, or $2.71 per diluted share. This compares with net income of $3,733 million, or $8.33 per diluted share, in the prior quarter, and net income of $507 million, or $1.14 per diluted share, in the same quarter last year. GAAP net income, which includes the impact of discontinued operations, was $1.196 billion, or $2.71 per diluted share.

"Datacenter demand is driving strong growth in more than 50 percent of our consolidated revenue," said Hock Tan, President and CEO of Broadcom Inc. "Through the strength of our franchise business model, we delivered another quarter of sustained revenues and strong free cash flows."

Broadcom stated that its pending merger with CA Technologies is on track for completion during the present quarter.

Palo Alto Networks hits revenue of $658.1 million, up 29% yoy

Palo Alto Networks posted total revenue of $658.1 million for itsfiscal fourth quarter 2018, up 29 percent year over year.  This compares with total revenue of $509.1 million for the fiscal fourth quarter 2017. GAAP net loss for the fiscal fourth quarter 2018 was $2.3 million, or $0.02 per diluted share, compared with GAAP net loss of $38.2 million, or $0.42 per diluted share, for the fiscal fourth quarter 2017.

Non-GAAP net income for the fiscal fourth quarter 2018 was $125.0 million, or $1.28 per diluted share, compared with non-GAAP net income of $85.5 million, or $0.92 per diluted share, for the fiscal fourth quarter 2017. A reconciliation between GAAP and non-GAAP information is contained in the tables below.

"We had a strong fourth quarter, continuing our global momentum at a growth rate that outpaces our peers and the cybersecurity market," said Nikesh Arora, chief executive officer of Palo Alto Networks. "Enterprises are in the early stages of the cloud revolution. This poses new security challenges for businesses worldwide. We are becoming the strategic partner of choice to help businesses embrace the cloud and protect their digital information by reducing complexity and providing the same level of consistency, integration, and automation that we brought to network security."

"We are pleased with the strong finish to our fiscal fourth quarter and the year," said Kathy Bonanno, chief financial officer of Palo Alto Networks. "Our revenue growth in the fourth quarter was solid across all regions, with particular strength in EMEA and APAC, each growing more than 40 percent year over year. We delivered on the bottom line as well, generating record cash flow from operations and free cash flow of $252.5 million."


  • Product revenue for Q4 amounted to $267.6 million
  • Subscription revenue for Q4 amounted to $390.5 million

Vantage Data Centers completes Santa Clara data center -- 75MW

Vantage Data Centers completed construction of its final data center at its Santa Clara, California campus, known as V5. The new four-story addition adds 15MW of critical IT load, bringing the campus total to 75MW. This campus is the largest in Silicon Valley. The addition also features a new cooling system that uses a combination of outside air and a chilled water loop, which uses recycled water and modular chiller and dry-cooler technology designed to minimize water usage while maintaining ultra-low PUEs. The water loop also utilizes non-potable grey water, further reducing impact on local water resources. The facility also supports both traditional and high-density data center designs.

“Silicon Valley continues to be a vital and strategic market for our customers,” said Vantage President and Chief Executive Officer Sureel Choksi. “With the final facility on our first Santa Clara campus complete, and construction of our 69MW Matthew Street campus also in Santa Clara well underway, Vantage can support the growth of enterprises, cloud and hyperscale customers well into the future.”

Vantage is also building a new 42-acre, 108MW campus in Ashburn, Virginia. The first 24MW building, which will provide 6MW of initial capacity on this completely new campus, is scheduled to be completed in early 2019.

The new expansion contains several features designed to enhance sustainability while maintaining a low total cost of ownership.

Ericsson demos massive IoT e-health wearable prototype

Ericsson, in partnership with Sony Mobile, Qoitech and Altair Semiconductor, is demonstrating a connected wearable prototype for diabetes monitoring that offers over five times longer battery lifetime.

The improved power efficiency relative to the first-generation prototype, is due to two main factors: firstly, the integration of Altair’s ALT1250 dual-mode Cat-M1/NB-IoT ultra-small, ultra-low power chipset into the small form factor wearable device from Sony Mobile. Secondly, the use of LwM2M protocol further reduces average power consumption. LwM2M is a device management protocol designed for managing lightweight and low power devices. LwM2M builds on an efficient secure application layer standard called the Constrained Application Protocol (CoAP).

Marie Hogan, Head of Broadband and IoT RAN, Ericsson, said: “A large, global ecosystem of partners is key to cater for different customer needs in IoT. Furthermore, end-to-end capabilities based on standardized solutions are crucial to enable scalable, competitive and efficient IoT services. This second-generation e-health demo with significantly improved power efficiency enabling long battery life on low-power devices is really encouraging for the IoT market. It enables mass adoption of Massive IoT and paves the way for a wide range of industrial and consumer IoT applications.”


Wednesday, September 5, 2018

Ericsson expands 5G portfolio with Juniper's edge, core and security

Juniper Networks and Ericsson are expanding their 18-year partnership with Ericsson with a focus on delivering an end-to-end 5G solution that combines Juniper’s routing and IP transport with Ericsson’s Router 6000 and MINI-LINK microwave portfolio for distributed, centralized and virtualized radio access.

The companies are now offering a 5G transport network solution with single pane of glass visibility to manage the new requirements of next-generation mobile service delivery.


For the go-to-market strategy, Ericsson will include Juniper’s solutions for edge, core and security as part of its end-to-end 5G transport portfolio.

The joint solution encompasses:

Access, fronthaul/backhaul:

  • Ericsson Router 6000 flagship mobile backhaul portfolio. 
  • Ericsson Fronthaul 6000 includes high density optical solutions that complement microwave solutions for CPRI and eCPRI transport.

Microwave radio backhaul:

  • Ericsson’s MINI-LINK is a 5G-ready microwave technology.

WAN Services and IP Transport: 

  • Juniper’s MX and PTX Series support mobile infrastructure for 10G/100G/400G optical transport, simplified operations with Juniper’s unique universal design, advanced Junos OS software functionality including Junos Node Slicing, Juniper Telemetry Interfaces and an open, standards-based hardware-accelerated 5G CUPS User Plane.
  • Juniper’s MX Series 5G Universal Routing Platform .
  • Juniper’s PTX Series Packet Transport Routers are built to optimize IP/MPLS transport for backbone, peering and converged metro core applications.
  • Juniper’s transport routers offer integrated dense wavelength-division multiplexing (DWDM) interfaces with interoperability between the MX, PTX series and Ericsson’s Router 6000.

Security Gateway & Gi Firewall:

  • Ericsson Radio Base Stations are already integrated with the Juniper’s SRX Series Services Gateway, a high performance and highly scalable next-gen firewall platform, providing both Gi Firewall and security gateway solutions for end-to-end 4G/5G offerings. Juniper will continue to enhance its security solutions to work efficiently with Ericsson’s RAN solutions as they evolve to 5G.
Unified management and control:

  • Ericsson’s management and orchestration solution will be applied across Ericsson and Juniper products, which will be fully integrated, including full FCAPS support.
“Commercial 5G is expected to represent close to a quarter of all global network traffic in the next five years. With both companies bringing together industry-leading network technology, Juniper and Ericsson will be able to more effectively capitalize on the immense global market opportunity in front of us and help our customers simplify their journey to fully operational 5G networks,” stated Manoj Leelanivas, Chief Product Officer, Juniper Networks.

“By combining Ericsson’s leading transport portfolio with Juniper’s best-in-class edge, core and security portfolio, we will create an end-to-end transport offering that is ready for all the demands of next-generation networks. Our customers will benefit from the one-stop-shop approach, making it easier for them to build and operate high-performing 5G networks,” stated Nishant Batra, Head of Product Area Networks, Ericsson.

Ericsson to integrate ECI's optical transport for 5G

ECI announced a business and technology partnership under which its optical transport solutions will be integrated into Ericsson’s mobile transport offering.

ECI said the partnership is a result of previous collaboration and follows a thorough process of due diligence. The decision was further solidified by a number of joint wins in Denmark, Greece, USA and Brazil. The companies cited a growing pipeline of new opportunities worldwide.

ECI’s packet/optical solutions provide a scalable transport solution for radio access network (RAN) to core connectivity, offering an optimized feature set for mobile backhaul, environmentally hardened for any condition as required. ECI’s programmable transport products enable operators to tailor connectivity based on the use case or service profile, via network slicing. Moreover, ECI’s implementation of open APIs, interfaces and SDN controllability ensure full functionality in the Ericsson ecosystem. The ECI optical solutions will be integrated into Ericsson’s end-to-end mobile transport solutions, supporting 5G and IoT use case introductions.

Nishant Batra, Head of Product Area Networks at Ericsson says, “By combining our leading transport portfolio with ECI’s optical solutions, we will boost our transport offering and complement the critical building blocks of next-generation transport networks. This will bring benefits to our customers today and when introducing 5G and IoT use cases tomorrow.”

“Telecommunications networks are changing faster than ever before with the new functionalities and demands brought on by 5G. ECI’s open, elastic solutions are designed for the changing, more complex demands and complement Ericsson’s offering perfectly. This partnership will enable both parties to address a growing customer base with a more competitive and comprehensive offering,” said Darryl Edwards, CEO and president of ECI.

http://www.ecitele.com

Ericsson's 5G MANO to extend across the radio, transport and core

Ericsson's management and orchestration solution for 5G will extend across the radio, transport and core network, including elements provided by Juniper Networks and ECI Telecom, enabling automated network control for applications such as network slicing and traffic optimization.

Ericsson said alignment between the radio, core and transport layers of the network has never been more critical to meet the requirements of 5G use cases such as enhanced mobile broadband, fixed-wireless access, and massive and critical IoT.

The company also noted that its  flagship mobile backhaul product – Ericsson Router 6000 – empowers close to 60 operators. More than 110 operators also use Ericsson’s 5G-ready microwave technology, MINI-LINK solutions.


Ericsson debuts RAN Compute, Spectrum Sharing software

Ericsson introduced new radio access networks (RAN) hardware and software products including a new RAN Compute portfolio and Spectrum Sharing software.

Ericsson RAN Compute is an architecture for distributing processor-intense functions – such as beamforming and radio control – where needed to fine-tune use case performance while lowering total cost of ownership by leveraging cloud resources. The RAN Compute portfolio includes all the current basebands in addition to four new RAN Compute products that provide up to three times the capacity of current basebands. Two new RAN Compute Basebands enable service providers to deploy RAN functions centrally, or at the radio site, while two new RAN Compute Radio Processors enable RAN functions to be placed closer to the radio for enhanced mobile broadband, ultra-low latency applications while reducing site footprint.

Ericsson Spectrum Sharing offers simultaneous and dynamic support of 4G and 5G within the same spectrum band using the Ericsson Radio System.  The new functionality can be implemented through a remote software installation on Ericsson Radio System radios shipped since 2015. This enables operators to deliver nationwide 5G coverage with a much more flexible spectrum migration strategy – removing the need for dedicating existing 4G spectrum assets to 5G statically, which would negatively impact 4G performance. Ericsson said this solution is based on the 3GPP Rel 15 standard and simplifies adoption by 5G device manufacturers.

“Qualcomm is committed to smartphone based commercialization of 3GPP Rel-15 5G NR technology in first half of 2019. As a part of 5G commercial deployments happening at scale, we welcome 3GPP Rel-15 based Ericsson Spectrum Sharing as a technology enabler in expanding the commercial rollout of 5G to bands that are currently used by 4G,” stated Durga Malladi, Senior Vice President, Engineering and General Manager, Qualcomm Technologies.

http://www.ericsson.com


ADVA advances its Ensemble Suite for NFV with zero-touch capabilities

Ensemble, a division of ADVA, launched a major new release of its network functions virtualization (NFV) platform with a focus on reducing deployment and operations complexity for network operators. The suite includes the Ensemble Orchestrator, Ensemble Director, Ensemble Connector.

New management and orchestration (MANO) capabilities enable service providers to roll out secure virtualized services at scale by using pre-packaged designs. Better design simplifies integration into higher level OSS, BSS or portal systems, which leads to faster deployment of services at scale with less-trained staff.

The company said the new capabilities were developed alongside Tier 1 customers in direct response to their requirements and the need to address security and complexity challenges. The new MANO features include multi-layer security, simplified management of NFV infrastructure (NFVI) and service chain creation, visibility, monitoring and troubleshooting. The latest release is based on three years of real-world experience enabling companies to deploy and manage software-based, cloud-native solutions.

"Our Ensemble solutions are successfully deployed in major networks across the globe. Now, we're taking the agility and efficiency of cloud-centric service provision to the next level. We're well beyond simply making NFV work. With the new functionality of our Ensemble portfolio, we're empowering our customers to deploy and manage virtual network functions (VNFs) at scale," said Prayson Pate, CTO, Ensemble division, ADVA. "From day one, we've been ahead of the curve when it comes to delivering the promise of NFV. While others have spent the last three years theorizing and testing, we've been empowering leading global service providers to deliver agile, cost-efficient virtualized offerings."

Some highlighted capabilities in Ensemble

  • The ability to deploy NFV and virtualized services across multiple locations with flexibility and scale
  • The ability to provide Day 0 configuration of VNFs. 
  • The ability to resolve problems related to operating uCPE deployments at scale, such as a single IP address for management and in-service software upgrades with reversion. 
  • Multi-layered approach to security helps operators tackle vulnerabilities, and it provides software-based encryption that can be combined with VNFs. 
  • User-friendly information on service chain operations as well as virtualization tools for analysis and troubleshooting. 
  • Zero touch provisioning capabilities remove the need for user intervention and replace truck rolls and on-site technicians with automation. This empowers an operator to ship an unconfigured COTS server to a customer site and commission it automatically.
  • Embedded cloud: Solves the problems of deploying OpenStack in the distributed telco network 
  • LTE wireless support: Enables turn-up of sites that don’t yet have wireline connectivity, as well as providing an economical means of resilient access.
  • Scalable software -- from small Intel Atom servers, up to large Xeon-based blade servers. Upcoming support for ARM servers.
  • Multiplatform hardware support -- including Dell, Lanner, Advantech, Lenovo, HPE, Supermicro

"The team at ADVA's Ensemble division understands our NFV strategy and shares our drive to empower customers through sophisticated cloud-based services. The new Ensemble release makes deploying and managing VNFs and the NFV infrastructure simpler, quicker and more secure," commented Mirko Voltolini, head of Network On Demand, Colt Technology Services. "The latest enhancements help us build service chains on demand and safeguard our customers' networks with additional security controls. One of the Ensemble suite's recently added capabilities is zero touch provisioning. That ability to ship unconfigured COTS servers to customers and commission them automatically gives us a key advantage. Not only does it generate significant cost savings but it also simplifies and accelerates service activation."

A slide presentation on Ensemble's MANO capabilities can be found here: http://adva.li/mano-slides


MACOM samples single-chip, 100G bidirectional optical device

MACOM Technology Solutions introduced an integrated, single-chip transmit and receive solution for short reach 100G optical transceivers, active optical cables (AOCs) and onboard optical engines.

The new MALD-37845 device, which is designed for use in CPRI, 100G Ethernet, 32G Fibre Channel and 100G EDR InfiniBand applications, integrates seamless integration of four-channel Transmit and Receive Clock Data Recovery (CDRs), four Transimpedance Amplifiers (TIAs) and four Vertical-Cavity Surface-Emitting Laser (VSCEL) drivers.

It supports a full range of data rates from 24.3 to 28.1 Gbps, it supports interoperability with a variety of VCSEL lasers and photodetectors, and is firmware-compatible with earlier-generation MACOM solutions.

Sampling is underway with production availability planned for the first half of 2019.

MACOM said the device will provide customers with a low power, single-chip solution ideally suited for small form-factor optical subassemblies.

“Optical module and AOC providers are under tremendous pressure to enable their customers with 100G connectivity at volume scale,” said Marek Tlalka, Senior Director of Marketing, High-Performance Analog, MACOM. “We believe that the MALD-37845 overcomes the integration and cost challenges inherent to legacy multi-chip offerings, providing an elegant, high-performance solution for short reach 100G applications.”

http://www.macom.com

Sprint picks Ericsson to build distributed and virtualized core for IoT

Sprint and Ericsson announced a global relationship to build a distributed and virtualized core network dedicated specifically to IoT. The work includes developing an IoT operating system to provide an optimal flow of device data, enabling immediate, actionable intelligence at the network edge for end users and enterprises. Some highlights:

The Core Network

  • Dedicated to help provide: low latency and highest availability. 
  • Distributed and virtualized: reduces distance between the device generating the data and the IoT application processing it; nodes are distributed right to the enterprise premise, if necessary, to support specific security, privacy and latency requirements.

The IoT OS

  • Connectivity management and Device management:
  • Capabilities enable simplified inbound and outbound activity for device connectivity. 
  • Configuration and updates of firmware and software are managed for each device. All data is managed securely with world-class security on the chip level. 
  • The IoT OS provides full subscription lifecycle management and monitoring of billing and usage data.

Data management 

  • Capability to ingest enormous amounts of data while delivering immediate intelligence on that data.

Managed services

  • Service assurance for all IoT elements and enterprise locations, including network operations center monitoring, service resource fulfillment, cloud orchestration management and application management.

"We are combining our IoT strategy with Ericsson's expertise to build a platform primed for the most demanding applications like artificial intelligence, edge computing, robotics, autonomous vehicles and more with ultra-low-latency, the highest availability and an unmatched level of security at the chip level," said Ivo Rook, senior vice president of IoT for Sprint. "This is a network built for software and it's ready for 5G. Our IoT platform is for those companies, large and small, that are creating the immediate economy."

"Sprint is a pioneer in IoT and we are excited to work together to create a truly disruptive IoT business," said Asa Tamsons, senior vice president and head of business area technology & emerging business, Ericsson. "Sprint will be one of the first to market with a distributed core network and operating system built especially for IoT and powered by Ericsson's IoT Accelerator platform. Our goal is to make it easy for Sprint and their customers to access and use connected intelligence, enabling instant and actionable insights for a better customer experience and maximum value."

See also