Friday, September 8, 2017

EXFO to acquire Yenista for optical test equipment

EXFO agreed to acquire Yenista Optics, a privately held company based in Lannion, France, that supplies advanced optical test equipment for the R&D and manufacturing markets.  Financial terms were not disclosed and EXFO said the deal is subject to a number of conditions to be completed before closing.

Yenista Optics' product portfolio includes benchtop optical spectrum analyzers, tunable lasers, tunable filters and passive optical component test systems for network equipment manufacturers and optical component vendors. The company generated revenue of €5.2 million in 2016 and was profitable. The company owns more than 20 patents protecting its proprietary technologies on measurement techniques, optical filters and external cavity lasers.

EXFO said Yenista Optics is highly complementary to its own optical test portfolio, which largely consists of portable test equipment for the network service provider market.

"Yenista Optics has built an impressive product portfolio over the years for the high-end laboratory and manufacturing markets," said Germain Lamonde, Executive Chairman of EXFO's Board of Directors. "This  transaction, if completed, would allow EXFO to leverage Yenista's best-in-class technology across its global sales channels to expand market share."

http://www.exfo.com



T-Mobile hits 1.175 Gbps in 4.9G LTE test

T-Mobile hit a peak downlink speed of 1.175 Gbps in lab tests conducted this month with Nokia and Qualcomm. Technology used in the tests included:

  • Nokia 4.9G powered by AirScale Base Station
  • A Snapdragon X20 LTE modem mobile test device, supporting Downlink Category 18 for theoretical peak download speeds up to 1.2 Gbps
  • 12 independent streams of LTE data
  • 4X4 MIMO, 256 QAM and three carrier aggregation across 60 MHz of downlink spectrum on T-Mobile’s network

The companies said that using 12 simultaneous independent LTE data streams between the device and network enables a theoretical peak download speed of 1.2 Gbps.

“Every meaningful network innovation in recent years has come first from T-Mobile. We already have America’s fastest and most advanced LTE network, and we’ve built it to advance faster for customers than anybody else out there,” said Neville Ray, CTO of T-Mobile. “These tests with Nokia and Qualcomm Technologies prove that T-Mobile customers have a lot more speed to look forward to from our LTE network as we evolve to 5G.”

South Africa's FibreCo Selects ADVA's FSP 3000

FibreCo Telecommunications, one of South Africa's leading communication service providers, has selected ADVA Optical Networking's FSP 3000 metro and long-haul technology to offer tailor-made connectivity services to its business, government and carrier customers. The initial deployment involves a 100Gbit/s ROADM network carrying data over 780km between Johannesburg and the undersea cable landing station at Mtunzini. ADVA Optical Networking’s Elite partner Jasco Carrier Solutions will play a key role in the deployment and continuous support of the new network.

ADVA said its FSP 3000 enables FibreCo’s new infrastructure to carry both 10 and 100Gbit/s traffic and include long-haul links that require no regeneration. FibreCo’s future network expansion plans will see 100Gbit/s metro and long-haul links connecting other cities and regions across South Africa.

“This strategic partnership provides a firm foundation for the future as we help even more South African businesses unleash their full potential. With ADVA Optical Networking’s flexible platform, we can respond in the shortest possible time to each and every customer demand,” said Marius Mostert, CTO, FibreCo. “The ADVA FSP 3000, including its advanced ROADM technology, enables us to deliver the high-speed, scalable connectivity that today’s enterprises and service providers demand. Our new infrastructure delivers several key efficiencies from low latency to optimized bandwidth utilization. What’s more, the support and local expertise provided by ADVA Optical Networking and Jasco Carrier Solutions gives us a lot of confidence that we’ll achieve quick time to market and the highest network availability.”

“To be selected as FibreCo’s strategic partner is an honor for every member of our team. It highlights the benefits of our flexible, scalable solution and underlines the value of the local support we offer. With this new network, we’re expanding our leading market position in South Africa,” commented Günter Landers, sales director, Africa, ADVA Optical Networking.

http://www.advaoptical.com

Swisscom launches Enterprise Cloud in Swiss jurisdiction

Swisscom announced the launch of two new cloud solutions:Enterprise Service Cloud from Switzerland and the Enterprise Cloud for SAP Solutions, which has been specially designed for efficient SAP operations.

Swisscom is also extending its portfolio with global offerings from Amazon Web Services and Microsoft Azure.

The Enterprise Service Cloud is an integrated cloud that covers everything from infrastructure via platform services to Managed Services and outsourcing. All data storage and functionality resides within Swiss jurisdiction. The cloud runs in tier IV-certified Swisscom data centres. From 2018 there will also be industry-specific services, for the banking or health sector for instance, with tighter compliance guidelines.

Enterprise Cloud for SAP Solutions is a SAP-certified, flexible and reliable service. As the largest SAP provider in Switzerland, Swisscom said it can offer the expertise of its 300 SAP consultants and its 80 full outsourcing customers to provide flexible infrastructure and dedicated SAP operations for Switzerland.

https://www.swisscom.ch/en/about/medien/press-releases/2017/09/20170907-die-swisscom-familie-waechst.html

EXFO's optical spectrum analyzer tests up to 400G

EXFO released its new FTBx-5255 Optical Spectrum Analyzer (OSA) designed for the field testing needs of telecom service providers, internet content providers and network equipment manufacturers.

A key capability of the new OSA is that it supports in-service network testing of the optical signal-to-noise ratio (OSNR) of 100G/200G/400G (Pol-Mux) signals, which means that service providers and ICPs do not have to interrupt their operations to perform these measurements.

EXFO's new OSA also enables in-service network testing of O-band pluggables and L-band transceivers, as well as CWDM spectral analysis.

"Customers have repeatedly expressed a need for a non-intrusive way of measuring OSNR on high-speed networks, to ensure they're meeting customer expectations for quality of service," said Stéphane Chabot, EXFO's Vice President, Test and Measurement. "Our new portable optical spectrum analyzer equips service providers, internet content providers, and NEMs for testing live networks, saving them time and significantly reducing operating expenses while making troubleshooting faster and better. No one else can offer them the ability to address all OSA testing applications with a single module."

The FTBx-5255 is available in EXFO's FTB-2, FTB-2 Pro and FTB-4 Pro portable test platforms as well as in the LTB-8 platform for rackmount and lab applications.

http://investors.exfo.com/releasedetail.cfm?&CompanyID=ABEA-5493A9&ReleaseID=1039332


Thursday, September 7, 2017

Blockchain Consortium for Telecom Carriers gets underway

A new blockchain consortium, called the Carrier Blockchain Study Group (CBSG), is getting underway with the goal of connecting carriers’ telecommunication backend systems. The aim is to define the requirements of the cross-carrier blockchain platform, and eliminate late transactions or transaction failures between telecom carriers.

The consortium was formed by SoftBank, Sprint, Taiwan-based Far EasTone Telecommunications Co., Ltd. and U.S.-based TBCASoft. The organizers say more telecom carriers will be invited to participate in the CBSG on a global scale. SoftBank, Sprint and TBCASoft also succeeded in demonstrating a cross-carrier payment platform system that uses TBCASoft’s innovative blockchain technology.

In February 2017, SoftBank, Sprint and TBCASoft agreed to aim to cooperate in jointly developing blockchain technology for telecom carriers, and commenced a technical trial that connects TBCASoft’s blockchain platform to telecom carriers’ systems. With Far EasTone newly joining this association, it since developed into a consortium that aims to build a next-generation global cross-carrier blockchain platform and ecosystem. CBSG will promote research and development for the platform with the aim of providing users various services such as secured clearing and settlement, personal authentication, IoT applications, and other services in the future.

“TBCASoft is developing a cross-carrier distributed ledger network consisting of telecom carrier hosted servers running the TBCASoft blockchain platform. We aim to work with global telecom carriers to build a very secure and high-performance blockchain system where disruptive services can be ubiquitously provided to billions of telecom carrier subscribers worldwide.” said Ling Wu, Founder & CEO of TBCASoft, Inc.

“TBCASoft has a sophisticated layered system architecture, SoftBank can successfully integrate our Business Support System and Mobile App servers with TBCASoft blockchain platform in a short period of time at a reasonable cost. SoftBank is satisfied with confirming the implementation and system performance of the TBCASoft’s blockchain platform on which value transfer service led by telecom carriers will be operated.” said Mr. Takeshi Fukuizumi, Vice President of SoftBank Corp.

http://www.tbcasoft.com

Radisys outlines its Open vision for network transformation

Radisys outlined its strategic vision for open telecom solutions. The company said its goal is to leverage open source communities to enable highly interoperable, more easily integrated and practical to consume technologies, solutions and services that can make a significant difference in how communications service providers (CSPs) meet customer demand and drive greater profits." This includes continuing to invest in new open architectures to drive innovation and service provider disruption, while helping service providers break vendor lock-in.

“Open Radisys is our commitment to enable CSPs to disrupt their traditional networks with open architecture business models. With no material legacy incumbency in telecom networks, we’re able to help CSPs embrace open standards as they get ready for 5G. If a service provider wants to replace a traditional hardware vendor, decompose a particular network element, deploy an open reference implementation such as CORD or an open source radio access network, we get it done. Open Radisys is the best choice for open telecom solutions and I’m excited about the outlook for Radisys in this new DevOps era,” stated Brian Bronson, president and CEO, Radisys.


Some highlights:
  • Platforms that support open disaggregated architectures to deliver higher scale and performance with cloud economies,
  • Open interfaces that drive easy interoperability,
  • Strong investment and leadership in open ecosystems that fosters innovation,
  • DevOps core philosophy for faster integration and turn-up,
  • Systems integration expertise necessary to solve complex deployment challenges, while giving service providers the added benefit of de-risking their investments
  • TCO Advantage: Radisys DCEngine has now been certified as OCP-INSPIRED – a unanimous decision by the OCP incubation committee consisting of leaders from AMD, AT&T, Facebook, Google, Hyve, Microsoft, Salesforce, and Verizon. This important certification reinforces the values of openness and OpEx savings that DCEngine brings to Radisys’ CSP customers. The open service delivery platform optimized for telco combined with OCP/Facebook’s legendary operations/support model results in nearly 40 percent reduction in TCO compared with legacy data center offerings.


http://www.radisys.com/press-releases/radisys-continues-strategic-execution-commitment-delivering-disruptive-open-telecom

Radisys MobilityEngine targets disaggregated RANs and 5G

Radisys introduced its "MobilityEngine" portfolio of disaggregated Radio Access Network (RAN) software solutions and services that enable mobile service providers to evolve their access networks from LTE-Advanced to 5G.

The Radisys MobilityEngine, which is an evolution of its CellEngine product line, is an open 5G RAN platform and services offering that supports LTE-Advanced network deployments and offers a path to 5G. More specifically, MobilityEngine is based on the 5G Technical Forum (TF) specification with a roadmap in place to support 5G New Radio (NR) Non Standalone (NSA) mode as well as 5G NR Standalone (SA) Mode for the delivery of new advanced services. The company said that by supporting early 5G network investments, it provides early adopters with a time-to-market advantage as they move to commercializing 5G services with the completion of the 3GPP 5G specification in 2018.

Some additional highlights

  • MobilityEngine’s LTE-Advanced and 5G mobile access solutions support multiple deployment scenarios, from supporting small cell deployments with thousands of users in a concentrated area to enabling virtualized RAN deployments running on general compute baseband units.
  • MobilityEngine supports emerging 5G services at the edge of the network and enables network slicing as part of a MEC (Multi-access Edge Computing) architecture to enable new use cases, increase operational efficiencies and reduce costs. For example in an enterprise scenario, MobilityEngine could enable the local breakout of user data from the network edge to enable localized control and enhanced security, without having to support backhaul of the connections.
  • MobilityEngine can also be deployed in a CORD (Central Office Re-architected as a Datacenter) architecture as it disaggregates the access technology from the core network, supporting open standard APIs and the separation of software from the underlying hardware.

“Radisys has long been the recognized leader in delivering RAN solutions to meet mobile service providers’ evolving network requirements,” said Neeraj Patel, vice president and general manager, MobilityEngine, Radisys. “MobilityEngine is the evolution of our award-winning CellEngine portfolio. While CellEngine enabled mobile service providers’ small cell deployments for added network capacity and coverage, MobilityEngine delivers broader support for their access technology requirements in open architectures, while delivering much needed reductions in TCO. I am proud to introduce MobilityEngine to continue our rich heritage of delivering disruptive enabling technology solutions to power the 5G era.”

http://www.radisys.com/press-releases/radisys-advances-5g-service-delivery-innovation-mobilityengine

Silver Peak signs SD-WAN distribution deal with NEC Networks

Silver Peak announced a formal global distribution agreement with NEC Networks and System Integration Corporation (NESIC) covering its SD-WAN solutions in Japan and the broader global market. NESIC's global partner, NCR Group, will provide maintenance and support services throughout 180 countries.

The companies said NESIC will focus on enterprises embracing cloud-based services with 100 or more global offices, initially targeting the manufacturing, financial and services sector markets.

“To address the escalating demand for SD-WAN technologies from our local and global clients, we selected the most complete SD-WAN solution available, Silver Peak EdgeConnect,” said Yukinobu Noguchi, general manager, NEC Networks and System Integration Corporation. “With EdgeConnect, we can deliver turnkey integration services with comprehensive support, allowing our clients to confidently embrace cloud services, deliver predictable application performance and embark on a shift toward low-cost broadband connectivity.”

“We look forward to partnering with NESIC to bring the full power of EdgeConnect to our mutual enterprise clients in Japan and around the globe,” said Derek Dal Ponte, vice president, channels at Silver Peak. “With turnkey sales, service and support, NESIC is well positioned to address the immediate demand for SD-WAN and extend its leading systems integration services to a rapidly expanding client base.”

http://www.silver-peak.com

Equifax reports major cyber intrusion

Equifax, which is one of the three big consumer credit reporting agencies, suffered a major cybers intrusion between mid-May through July 2017 that potentially impacts some 143 million U.S. consumers.

The company said the attackers exploited a U.S. website application vulnerability to gain access to certain files, but not its core consumer or commercial credit reporting databases. Equifax said information stolen could include names, Social Security numbers, birth dates, addresses and, in some instances, driver’s license numbers. In addition, the intruders accessed credit card numbers for approximately 209,000 U.S. consumers, and certain dispute documents with personal identifying information for approximately 182,000 U.S. consumers.

“This is clearly a disappointing event for our company, and one that strikes at the heart of who we are and what we do. I apologize to consumers and our business customers for the concern and frustration this causes,” said Chairman and Chief Executive Officer, Richard F. Smith. “We pride ourselves on being a leader in managing and protecting data, and we are conducting a thorough review of our overall security operations. We also are focused on consumer protection and have developed a comprehensive portfolio of services to support all U.S. consumers, regardless of whether they were impacted by this incident.”

https://www.equifaxsecurity2017.com/

Altice USA awards multiyear deal to Amdocs

Altice USA awarded a multi-year agreement to Amdocs for key business and operational support systems. The arrangement will help accelerate the migration to a single Altice USA platform, simplify and modernize technology operations and provide a better experience to Altice USA customers. Financial terms were not disclosed.

Altice USA is one of the largest broadband communications and video service operators in the U.S. and the provider of Optimum and Suddenlink-branded internet, TV and phone services. The service provider is working to integrate its Cablevision and Suddenlink legacy business and operating systems and platforms. Amdocs will offer a hybrid solution combining architecture developed by Altice Labs as well as systems from Amdocs, enabling a simpler, more agile and efficient customer-centric system. The companies said the solution enables Altice USA to quickly and flexibly design and launch new innovative offerings and bundles, accelerate order orchestration and fulfillment over its existing fiber infrastructure and next generation fiber network, enable superior omni-channel customer service experience, and future-proof its systems to prepare for next-generation products and services.

"As we focus on the future needs of our customers, having a simple, flexible and efficient support system is a vital part of our strategy. By combining the technological strengths of Altice with the capabilities of Amdocs, we are creating a unique infrastructure that will enhance and unify the customer experience we offer in the U.S. as we launch new, innovative products and services for our customers. Amdocs is a valued, long-standing partner for Altice USA and we look forward to working together to create the backbone that will enable best-in-class connectivity solutions for years to come," said Hakim Boubazine, Co-President and Chief Operating Officer, Altice USA.

"Altice USA is a major powerhouse, delivering broadband, pay television, telephony services, Wi-Fi hotspot access, proprietary content and advertising services to residential and business customers. They are innovative and agile and focused on delivering on the promise of full convergence in this hyper-competitive market. We are delighted to partner with Altice in the U.S. on this industry-leading solution," said Eric Updyke, group president, Amdocs Services.

http://www.amdocs.com

Mavenir intros 5G Core Network and Cloud RAN solutions

Mavenir announced its 5G Core Network and Cloud RAN solutions designed to support high bandwidth, massive IoT connectivity and ultra-low latency applications.

The company said its 5G ready Cloud Native architecture is a fully virtualized, integrated service centric framework that is critical for highly granular scalability, elasticity, dynamic control, and orchestration for the entire network.

Mavenir’s 5G Core Network is designed for mobile communications systems with the functional capabilities to support high bandwidth, massive IoT connectivity and ultra-low latency applications. Highlights:

  • Cloud Native, fully virtualized, stateless architecture with a flexible End-to-End orchestration framework to suit varied CSP needs.
  • SDN-controlled 5GC with complete separation of both Control and User Plane framework that allows independent dynamic scaling of control and user plane elements with intelligent packet handling.

Mavenir’s Cloud RAN extends the virtualization to the edge of the network and provides strategic differentiation by enabling the Remote Radio Units (RRUs) to interwork with the virtualized Cloud Base Band Unit (vBBU) over ethernet Fronthaul (FH), overcoming the traditional constraints of Common Public Radio Interface (CPRI™) over fiber. Highlights:

  • With End-to-End network slicing support, flexibility for the vBBU and even the vEPC co-located for Multi-access Edge Computing (MEC) – the solution can be tailored for unique service centric architectures, enriching user experience while addressing proximity specific deployments constraints.
  • Investment protection is achieved (e.g. 4G LTE to 5G NR) through remote-upgradable Software Defined Radio (SDR) capabilities.

“Mavenir is uniquely positioned to enable customers to evolve their networks and further the adoption of virtualization to maximize operational efficiency, network elasticity and Capex/Opex savings,” said Pardeep Kohli, President and CEO of Mavenir. “Operators can literally get a 5G network, using their 4G expansion budgets, with Mavenir’s 5G Ready vBBU which can be used together with any RRU.”

http://www.mavenir.com

John Deere acquires Blue River Technology for AI

Deere & Company has acquired Blue River Technology, a start-up based in Sunnyvale, California that is applying machine learning to agriculture. The deal was valued at $305 million.

Blue River is developing computer vision and machine learning technology that will enable growers to reduce the use of herbicides by spraying only where weeds are present, optimizing the use of inputs in farming – a key objective of precision agriculture.

"We welcome the opportunity to work with a Blue River Technology team that is highly skilled and intensely dedicated to rapidly advancing the implementation of machine learning in agriculture," said John May, President, Agricultural Solutions, and Chief Information Officer at Deere. "As a leader in precision agriculture, John Deere recognizes the importance of technology to our customers. Machine learning is an important capability for Deere's future."

"Blue River is advancing precision agriculture by moving farm management decisions from the field level to the plant level," said Jorge Heraud, co-founder and CEO of Blue River Technology. "We are using computer vision, robotics, and machine learning to help smart machines detect, identify, and make management decisions about every single plant in the field."

http://www.JohnDeere.com
http://www.BlueRiverTechnology.com

  • Investors in Blue River included Khosla Ventures, Pontifax ATech. Innovation Endeavors, and Data Collective Venture Capital.


Wednesday, September 6, 2017

ATIS and MEF publish specification for ordering Carrier Ethernet services

ATIS and MEF released a jointly developed specification that defines the process for ordering Carrier Ethernet services on a global basis.

The Ethernet Ordering Technical Specification focuses on business interactions associated with inter-carrier ordering of Access E-Line and Standalone UNI products, including use cases and specific MEF-defined attributes needed to support product ordering for each use case. Implementation details will be published separately in MEF’s LSO Sonata Interface Profile Specification for Ethernet Ordering that is on track to be released later this year.

ATIS and MEF described the new Ethernet Ordering Technical Specification as an important step toward creating a worldwide ecosystem of automated and interconnected networks that deliver agile, assured, and orchestrated services. This specification supports requirements defined in the LSO (Lifecycle Service Orchestration) Reference Architecture and Framework (MEF 55) for ordering services over the LSO Sonata interface that relates to inter-provider service orchestration. Information contained in the new specification will be used by both buyer and seller ordering systems for developing automated LSO API systems.

“This new joint specification transforms the Ethernet ordering process globally, thus enabling faster delivery of interconnected networks,” said ATIS President and CEO Susan Miller. “It makes the ordering process easier for customers while also advancing service provider business imperatives in this area. ATIS is proud to deliver another of our contributions from our collaboration with MEF.”

“MEF is pleased to work with ATIS to deliver a new ordering specification that will improve inter-provider operational efficiencies, enable service providers to be more responsive to customer demands, and help drive market growth on a worldwide basis,” said Kevin Vachon, COO, MEF.

“Today’s process is very provider-specific, and inter-carrier ordering is done either through spreadsheets or one-off solutions,” said Dawn Kaplan, MEF Operations Area Co-Director and Solutions Architect – CoE OSS, Ericsson.

“Defining a standardized process for ordering Carrier Ethernet products across service provider partner domains is critical to significantly streamlining the buying/selling process and thus enabling improved delivery time of interconnected networks. This specification is the first step in documenting an international consensus-based process that supports the entire order lifecycle. The joint team will also be publishing additional specifications that provide implementable APIs that align with this specification.”

Letty Walker, Senior Lead Analyst, OSS & Technical Support, CenturyLink, ATIS OBF OS Co-Chair and Joint ATIS-MEF Co-Lead added, “It is a wonderful opportunity to be part of a team that is able to collaborate in the development of the Ethernet Ordering Technical Specification. Given that ATIS has such broad ordering experience throughout North America, I feel that partnering with our MEF counterparts has led to a collaboration that will provide the framework for a unified platform defining requirements for Ethernet ordering throughout the entire international telecommunications community.”
ATIS and MEF are continuing in their joint efforts to enhance the international Ethernet Ordering process and plan further releases to incorporate additional MEF-defined services.

The Ethernet Ordering Technical Specification can be downloaded here on the MEF Technical Specifications page or here in the ATIS Document Center.

http://www.mef.net
http://www.atis.org

See video: https://youtu.be/O46RPr3Sg18

Nokia adds to AirScale Remote Radio Head portfolio

Nokia introduced new dual- and single-band FDD-LTE and TD-LTE radios as part or its AirScale Remote Radio Head portfolio. The new radios leverage carrier aggregation techniques, 4x4 MIMO and 8x4 Beamforming, while addressing demand for higher output power, extending frequency band support and simplifying network rollouts.

Nokia is also debuting its next wave of small cells with "Ultra Dense" self-organizing network features to simplify deployments. New capabilities solve issues caused by reducing the distance between new and existing small cells and ensure continuous optimization even as further densification occurs. Nokia has extended the self-organizing network features on its Femtocell portfolio to ensure smoother integration and higher performance in heterogeneous networks as traffic is offloaded from the macro network.

Nokia said its new Flexi Zone Citizen Band Radio Service small cells, supporting Spectrum Access Server and Citizen Broadband Radio Service Device Proxy connectivity, will offer operators new options for boosting coverage and capacity, particularly inside buildings. CBRS Flexi Zone small cells can be used to deploy neutral host capabilities, allowing operators to lease capacity to other providers inside malls, hotels and office blocks, where space is at a premium. In compliance with FCC requirements, small cells will be able to efficiently communicate with the Spectrum Access Server to ensure the network uses only available shared CBRS* spectrum.

Nokia Wavence microwave now supports Carrier SDN, which provides operators with intelligence and automation, including rapid power-up of virtual network functions and adaptable parameters to support changes on the radio access network, such as when people move from work to home.

In addition, Nokia continues to help operators plan and optimize their path to 5G using its 5G Acceleration Services and is now expanding the portfolio to include the operator 'anyhaul' end-to-end transport network. Nokia will work with operators to assess the readiness of the network and design and implement their 5G strategies and services.

Harold Graham, head of the 5G business line at Nokia, said: "Nokia is committed to providing the most effective and cost-efficient path to 5G for our customers through evolutionary enhancements to their networks. We truly understand how changes in each area of a network will affect the network as a whole, and as we evolve our end-to-end portfolio of technologies and services we are working closely with customers to ensure they are always ahead of their customers' needs and expectations."

http://www.nokia.com/en_int/news/releases/2017/09/06/nokia-puts-operators-on-path-to-5g-by-boosting-4g-performance

Radisys Announces Next-Generation DCEngine Hardware

Radisys released its next-generation DCEngine hardware, a pre-packaged rack solution based on Open Compute Project (OCP) principles and designed to transition Communications Service Providers (CSPs) to virtualized data centers.

DCEngine, which is based on the OCP-ACCEPTED CG-OpenRack-19 specification, leverages the Intel Xeon Scalable processors. It supports Intel Xeon Scalable Architecture-based compute and storage sleds, with a wide range of processing options that can be installed and tuned up inside existing DCEngine systems in minutes. DCEngine meets CSP requirements for an enhanced, scalable power systems that delivers 25,000W per feed for higher processor density, greater efficiency and lowered expenses as well as DC and AC power entry options suitable for a wide range of environments. It also offers an In-rack Uninterruptible Power Supply (UPS) option to support simplified infrastructure, easy maintenance and lower overhead. Radisys delivers the final pre-assembled DCEngine rack with no on-site setup.

Radisys said its next-gen DCEngine supports CSPs transition away from proprietary hardware and vendor lock-in to a data center environment built with open source software and hardware components. The enhanced rack design, combined with operations and support modeled after Facebook practices, can bring an annual OpEx saving of nearly 40 percent compared to traditional data center offerings, while reducing deployment time from months to just days.

“Our CSP customers are requiring open telecom solutions to support their data center transformations, easing their pain points around power and costs, while simplifying their operational complexities,” said Bryan Sadowski, vice president, FlowEngine and DCEngine, Radisys. “With the next-generation DCEngine, combined with Radisys’ deep telco expertise and OCP’s operations/support model, service providers not only get innovation and service agility, but also gain significant TCO savings.”

http://www.radisys.com

MACOM debuts 100G Single Lambda module scalable to 400G

MACOM Technology Solutions introduced a 100G Single Lambda Solution for cloud data center deployments.

MACOM’s 100G Single Lambda Solution leverages the company’s 53 Gbaud PAM-4 technology to deliver 100G throughput over a single wavelength, an approach that has been endorsed by the IEEE that can dramatically reduce the number and cost of optical components typically housed in an optical transceiver module.

The 100G single lambda is implemented in QSFP optical modules enabling plug and play compatibility with existing systems.

MACOM’s 100G Single Lambda Solution includes the following products:

  • MACOM PRISM Mixed Signal PHY (MATP-10025)
  • 53GB PAM-4 Single Lambda 100GL-PIC (MAOP-L561PP)
  • 1x53GB PAM-4 TIA (MATA-005817)
  • 4x53GB PAM-4 TIA (MATA-03819 and MATA-03919)
  • 1x53GB PAM-4 PIN Photodiode BSP56A/QA
  • PAM-4 TOSA/ROSA for 53GB applications

“The breadth of MACOM’s analog, optical and photonic technology portfolio, combined with our deep domain expertise and Cloud-scale manufacturing capability, position us as the clear industry leader in 100G-enabling components on the pathway to 200G, 400G, and 800G connectivity,” said Preet Virk, Senior Vice President and General Manager, Networks, MACOM. “By aligning our Cloud Data Center strategy with the requirements of our end customers, we’re enabling the highest performance, most cost-effective module solutions for next-generation Cloud Data Center infrastructure.”

https://www.macom.com/applications/optical-networking/data-center

MACOM's 10G PON chipset leverages its manufacturing efficiencies

MACOM Technology Solutions introduced its portfolio of 10G passive optical network (PON) devices for optical line terminal (OLT) and optical network unit (ONU) infrastructure.

MACOM said its new 10G PON portfolio enables seamless component integration and unrivaled cost efficiencies to help accelerate 10G PON infrastructure build-outs. Its solution portfolio combines the inherent performance and supply scalability advantages of electro-optic modulated lasers (EOMLs), complemented by its pre-qualified, interoperable APDs, TIAs, laser drivers, and CDRs. The company also cites its L-PICTM technology platform and patented Etched Facet Technology as an advantage for high-volume, low-cost laser manufacturing. The aim is to replicate the cost structure reductions that MACOM previously achieved in 2.5G PON.

“MACOM’s leading market share in the PON domain – where we’ve shipped over 135 million lasers to date– is a testament to customers’ trust in our proven technology platforms and volume-scale manufacturing efficiency,” said Vivek Rajgarhia, Senior Vice President and General Manager, Lightwave, MACOM. “With the introduction of our 10G PON solution portfolio, we’ve again affirmed our commitment to helping customers overcome the challenges of deploying advanced optical technologies at massive scale and lowered cost structures.”

https://www.macom.com/applications/optical-networking/fttx-2

See also