Saturday, June 15, 2013

Presidential Memo Charts Course for Spectrum Sharing

A new U.S. Spectrum Policy Team has been formed to accelerate spectrum sharing policies and technologies. President Obama has ordered this Spectrum Policy Team to draft recommendations on how NTIA and FCC can incorporate spectrum sharing into their spectrum management practices to enable more productive uses of spectrum throughout our economy and society and protect the current and future mission capabilities of federal agencies. The team consists of the Chief Technology Officer and the Director of the National Economic Council, along with representatives from the Office of Management and Budget (OMB), the National Security Staff, and the Council of Economic Advisers.

The NTIA is directed to publish an inventory and description of Federal test facilities available to commercial and other stakeholders engaged in research, development, testing, and evaluation of technologies to enhance spectrum sharing and other spectrum-related efficiencies.

The NTIA is also planning a pilot program to monitor spectrum usage in real time in selected communities throughout the country to determine whether a comprehensive monitoring program in major metropolitan areas could disclose opportunities for more efficient spectrum access, including via sharing. The

The new memo comes three years after a similar Presidential Memorandum instructing the Secretary of Commerce, working through the National Telecommunications and Information Administration (NTIA), to collaborate with the FCC to make 500 MHz of Federal and nonfederal spectrum available for wireless broadband use within 10 years.

http://www.whitehouse.gov/the-press-office/2013/06/14/presidential-memorandum-expanding-americas-leadership-wireless-innovatio

Some industry reactions:

FCC Commissioner Jessica Rosenworcel stated: "We are on a hunt for new opportunities for commercial spectrum to reach the 500 megahertz benchmark for new wireless broadband use in the Executive Order from the President nearly three years ago. Our traditional three-step process for reallocating federal spectrum--clearing federal users, relocating them, and then auctioning the cleared spectrum for new use--is reaching its limits. That is why since my first days in office I have endorsed building our federal spectrum policy on carrots, not sticks.


Verizon:  "Further exploring ways for federal government-spectrum users to more efficiently use spectrum they have been assigned, as well as for developing appropriate sharing between commercial- and government-spectrum users, should bring much needed wireless spectrum to the consumer marketplace.  Verizon Wireless has invested in efforts to study how sharing in certain bands of spectrum might take place. These are worthy efforts that should continue, and we are committed to this ongoing work with the administration, Congress and other players in the wireless market.  It is critical, however, that the important work being done to identify and clear government spectrum for auction continue, and we are encouraged that the president has recognized that this effort is important. We thank the administration for laying out a clear path that will help bring more spectrum to consumers of wireless services, where it will allow the U.S. to maintain its global leadership position in wireless innovation."

Additional background:


  • In July 2012, the President’s Council of Advisors on Science and Technology (PCAST) issued a report identifying 1,000 MHz of federal spectrum for sharing with the private sector.

    U.S. federal policy should shift in favor "Shared-Use Spectrum Superhighways" instead the current plan which is to first clear federal users from specific bands and then auction this spectrum for the exclusive use of the highest bidder, according to a new report issued by

    A Presidential memorandum issued in June 2010 requires that 500 MHz of spectrum to be made available for commercial use within 10 years.  However, a recent NTIA Study found that clearing just one 95 MHz band will take 10 years, cost $18 billion, and cause significant disruption. Moreover, the net revenue for the Treasury from the last successful auction of 45 MHz realized a net income of just a few hundred million a year ($5.3 billion total).

    The PCAST report said its vision of shared spectrum is viable using existing technologies and is not dependent on cognitive or "smart" radios. Instead, a geo-location database could be used the share spectrum much like how the FCC is using managing TV bands. The TV Whitespaces system could be used as a model. Technical standards would need to be implemented for coexistence of transmitters and receivers to enable flexible sharing.

    To get things rolling, the PCAST report recommends that an incentive mechanism be created to encourage Federal agencies to begin sharing (e.g., Spectrum Currency). The existing Spectrum Relocation Fund, which is supposed to fund the migration of federal users out of certain bands, could be redeveloped into a "Spectrum Efficiency Fund." The system could be tested in a specific city before being extended nationwide.


Google's Project Loon - Balloon-powered Network in the Sky

Google introduced Project Loon, one of its "moonshot" initiatives to transform the world with breakthrough technology. Project Loon's aim is to deliver Internet access to "all the world's people" including remote locations on every continent. The project is experimental and still in its early days.

Project Loon will use free flying balloons at high altitudes to beam Internet access to the ground at 3G speeds or faster. The concept will require a very large fleet of balloons and complex algorithms to ensure continuous coverage as the balloons drift around the planet.

Some key elements:

  • Project Loon will launch and manage a network of high-altitude balloons operating at about 20,000m elevation.  Balloons communicate with neighboring balloons as well as to stations on the ground.
  • Each balloon will be about 15m in diameter.
  • Google will steer the ballons by using solar power to control the altitude. Bands of balloons will circle around the globe at various latitudes.
  • Google will use specialized antennas on the ground to pick up the signal.
  • Google launched 30 balloons this week from the New Zealand as a test.
  • Google said it can direct the balloons to land and hopes to retrieve and reuse the balloons when possible.
  • Rich DeVaul is Chief Technical Architect of Project Loon. Mike Cassidy is Project Lead.

http://google-africa.blogspot.co.uk/2013/06/introducing-project-loon-balloon.html
https://plus.google.com/u/0/s/%23ProjectLoon


Friday, June 14, 2013

U.S. GAO Confirms Amazon Web Services for CIA Cloud Contract

The U.S. Government Accountability Office confirmed the selection of Amazon Web Services as prime contractor for cloud computing services on behalf of the Central Intelligence Agency (CIA).  The award was confirmed over the protests of IBM.

The contract calls for a 270-day period to achieve initial operating capability, a 4-year base ordering period, a 3-year option, and a 2-year option, with a maximum value of $600 million over the base period. The contractor is to provide its existing public cloud (modified where necessary) to be installed on government premises and operated by the provider. Performance is to include both: (1) infrastructure as a service, in which the provider (contractor) is responsible for networking, storage, servers and virtualization, and the consumers (government agencies) are responsible for the operating system, middleware, runtime, data, and applications, System Requirements Document; (2)and platform as a service, which encompasses the same components as infrastructure as a service, but only applications and data are the responsibility of the consumer.

Although IBM's bid was lower, the agency expressed doubt about the auto-scaling capability of IBM's public cloud and selected AWS instead.

http://www.gao.gov/assets/660/655241.pdf

Savvis Acquires AppFog for Enabling Apps in the Cloud

Savvis, the data center and IT infrastructure division of CenturyLink, has acquired AppFog, a Platform-as-a-Service provider that is hosting more than 150,000 applications.  Financial terms were not disclosed.

AppFog, which is based in Portland, Oregon, offers an app-to-cloud enablement platform that supports multiple programming languages (Java, .NET, Node, Ruby, Python, PHP, etc) and ensures interoperability between public and private cloud environments. The acquisition adds AppFog's Platform-as-a-Service (PaaS) capabilities to the Savvis Cloud product catalog.

"AppFog leads the way in Platform-as-a-Service capabilities and continues to see strong adoption in the developer community," said Jeff Von Deylen, president of CenturyLink's Savvis organization. "Combining AppFog's market-leading Platform-as-a-Service capabilities with Savvis' industry-leading Infrastructure-as-a-Service cloud services and CenturyLink's global network will enable developers to securely and reliably operate and connect the applications they build and deploy."

http://www.savvis.com/cloud
http://www.appfog.com/savvis


AT&T Opens LTE Network to Prepaid GoPhone BYOD Smartphones

AT&T will begin offering prepaid wireless plan access to its 4G LTE network.

Beginning June 21st, new and existing AT&T GoPhone customers can bring their own 4G or 4G LTE smartphone or choose a GoPhone device.  Plan options include:

  • $60 a month for 2 GB of data, unlimited nationwide calling, and unlimited messaging — now double the data at a lower monthly price. Additional data is available for $10 per 1 GB.
  • $40 a month for 200 MB of data, 500 minutes of nationwide calling, and unlimited messaging. Additional data is available for $5 per 100 MB.
  • $25 a month for 250 minutes of nationwide calling and unlimited messaging, with an optional data package of 50 MB for an additional $5 a month.
  • $50 unlimited talk and text plan with Wi-Fi data only.

AT&T is also adding 4G LTE-capable Samsung Galaxy Express to its lineup of GoPhone devices.

http://www.att.com

Thursday, June 13, 2013

Verizon to Offer Private IP into Equinix Data Centers

Verizon is bringing its Private IP service directly into Equinix’s International Business Exchange (IBX) data centers in major markets around the world.

Verizon recently announced enablement of 100GE access for its Private IP network, giving global enterprise customers faster speeds.

The new partnership with Equinix provides enterprise customers with high-performance, private IP connections into Equinix, which has built an ecosystem of cloud services available through its data centers. Verizon also offers reporting and monitoring tools and portals with its Private IP solution. Fully integrated solutions from Verizon + Equinix will be available by the end of 2013.

"Verizon and Equinix are market leaders, and the new alliance we have formed will provide customers of both companies the foundation to transform their businesses,” said John Stratton, president, Verizon Enterprise Solutions. “Whether it is e-commerce applications, big data, media and entertainment or cloud computing, enterprises need to quickly and securely access and move information from various points around the world.”

"By leveraging Verizon’s Private IP Service and Equinix data center and interconnection services, customers can count on high levels of security, reliability and performance as they grow their businesses and expand into new markets,” said Equinix CEO and President Steve Smith. “This will also enable customers to use Verizon’s network to reach more than 300 cloud service providers inside Equinix data centers."


Last month, Equinix expanded its rollout of AWS Direct Connect Service to its International Business Exchange (IBX) data centers in Seattle (SE2 and SE3).

AWS Direct Connect provides a private connection to Amazon Web Services (AWS) via a cross connect at the Equinix data center.  It can also be used to connect to the AWS GovCloud (US) from all existing AWS Direct Connect locations in North America.

Existing Equinix customers can connect to AWS Direct Connect inside the Seattle data center.  Customers can achieve millisecond latency between their infrastructure and AWS infrastructure.

Since the roll out of AWS Direct Connect in Equinix’s Ashburn, Virginia data center campus, AWS Direct Connect has expanded to Equinix locations in Seattle, Silicon Valley, Singapore, Sydney and Tokyo. Equinix customers such as Badgeville, Box, Carpathia Hosting and NetApp are using AWS Direct Connect to lower network costs into and out of AWS, bypassing the public internet.

NTT Com Picks VMware for Enterprise Cloud

NTT Communications will deploy VMware network virtualization as a core technology for its new cloud service, Enterprise Cloud (EC). Specifically, NTT Com will use VMware network virtualization as a network overlay.


VMware's network virtualization will enable NTT Com to provide seamless and flexible connectivity between customer data centers and the NTT Com cloud without changing the IP addresses of a customer’s existing, on-premise environment. The companies said this capability will make its easier for customers to migrate into the cloud.

“To deliver on NTT Com’s global cloud vision announced in 2011, NTT Com offers a new business cloud service that will utilize network virtualization technology in its production environment across 11 data centers in nine countries,” said Motoo Tanaka, senior vice president of cloud services at NTT Com. “With advanced network virtualization technology from VMware, NTT Com will provide customers seamless connectivity between cloud infrastructures, and will support customers’ cloud migration by connecting with a customer’s on-premise data center. We continue to fully support customers using the cloud by offering services that deliver the latest technologies.”

“We have been working closely with VMware on network virtualization, a core technology for cloud services,” said Toshiaki Fujita, vice president and general manager of NTT Software Innovation Center (SIC). “As a result of our successful collaboration, NTT Com will now offer the world’s first cloud service that incorporates VMware’s network virtualization technology to seamlessly connect customers’ on-premise networks with NTT Com’s own data center network. Going forward, the NTT group looks forward to offering advanced cloud services in collaboration with VMware.”

http://www.vmware.com/company/news/releases/vmw-ntt-netvirt-061013.html

RAD Supplies Ethernet Backhaul for Tier 1 in Europe

RAD confirmed that a major Tier 1 European service provider has deployed its Service Assured Access solution for backhauling 3G and LTE over the same Ethernet infrastructure. More than one million LTE subscribers are expected to be served by the network by the end of this year. RAD valued the deal at more than several million dollars over the life of the project.

RAD said this project include over ten thousand units of its ETX-2 Advanced Carrier Ethernet Mobile Demarcation Device. In addition, the service provider will also soon be testing RAD's MiNID Ethernet Demarcation SFP, a fully functional Service Assured Access Network Interface Device (NID) housed in a smart SFP enclosure.

http://www.rad.com

Russia's Avelacom Builds 100G Moscow-London Route with Alcatel-Lucent

Russia-based Avelacom announced will expand its 100G optical backbone network from Moscow to London using Alcatel-Lucent’s Agile Optical Networking technology. The deployment uses 100G DWDM on Alcatel-Lucent's 1830 Photonic Service Switch (1830 PSS) platform.

The route enables Avelacom to provide low cost, high-capacity and low-latency connectivity between Russia’s two largest cities, Moscow and St. Petersburg, and cities in the Baltics, Scandinavia and Western Europe.  Alcatel-Lucent Channel Partner Maintrac, headquartered in Linkoping Sweden, is providing turnkey installation, provisioning and maintenance.

http://www.alcatel-lucent.com


DISH and nTelos Test 2.5 GHz Fixed LTE

DISH and NTELOS launched a test of fixed wireless broadband service using 2.5 GHz spectrum.  The trial in rural  Virginia is reaching 10 Mbps to more than 50 Mbps at the initial test sites.

As part of the demonstration, nTelos and DISH have activated two wireless tower test sites in the Blue Ridge Mountains near Waynesboro and Afton, Va. Ericsson and Alcatel-Lucent have provided equipment and assisted in the installation.

The trial uses a ruggedized, LTE outdoor router attached to the side of home.

http://www.dish.com
http://about.dish.com/video/fixed-wireless-broadband-pilot

Broadcom Announces Quad-Core HSPA+ Processor

Broadcom unveiled a quad-core HSPA+ processor for entry-level smartphones using Android 4.2 Jelly Bean OS.

The new quad-core BCM23550 processor can be coupled with Broadcom's connectivity suite, which includes Broadcom's leading 5G WiFi technology, multi-constellation GNSS support, and advanced indoor location capabilities to enable ubiquitous positioning both indoors and outdoors.

Some key features:


  • Quad 1.2GHz A7 CPU with ARM NEON technology
  • 21 Mbps (Megabits per second) of HSPA+ downstream connectivity, 5.8 Mbps of upstream connectivity
  • Dual HD display support with 720p LCD and external HD panel via Wi-Fi Miracast-capable displays
  • High-performance graphics based on VideoCore IV multimedia technology, for enhanced 3D gaming and other graphics-rich applications
  • Integrated image signal processor (ISP) with support up to 12 megapixels
  • High quality H.264 full HD (1080p30) camcorder and video playback
  • Power management techniques that increase efficiency of cellular RF chip and optimize performance based on workload demands
  • HD voice support for high-quality voice calls with advanced dual-mic noise cancellation technology
  • GPS/GLONASS, WLAN , MEMS, and Cell ID for the best indoor/outdoor location
  • NFC solution supports all major NFC specifications including NFC Forum, EMVCo, and the China UnionPay QuickTap mobile wallet

"Broadcom's new quad-core solution allows OEMs to deliver the multi-tasking, graphics-rich capabilities required in today's smartphones, while still appealing to consumers seeking superior performance at affordable prices," said Rafael Sotomayor, Broadcom Vice President, Product Marketing, Mobile Platform Solutions.  "By combining the performance benefits of a quad-core solution with high-end features like 5G WiFi, globally certified NFC technology, and advanced indoor positioning technology, the platform offers device manufacturers a flexible and cost-effective path to address the affordable smartphone segment."

http://www.broadcom.com/press/release.php?id=s771153

RingCentral Names Former Cisco WebEx Exec as President

RingCentral named David Berman as president of RingCentral, reporting to company founder, chairman and CEO, Vlad Shmunis.

Prior to joining RingCentral, Berman served as president and CEO of Affectiva, which provides real-world accuracy and relevance in emotion analytics based on research from MIT.  Before that, Berman was president of Worldwide Sales and Services at WebEx Communications, a position that he held through the acquisition of the company by Cisco.

RingCentral is a provider of cloud business communications solutions. It is backed by Sequoia Capital, Khosla Ventures, Cisco, Scale Ventures, and DAG Ventures.

http://www.ringcentral.com

Earthlink Opens Silicon Valley Data Center

Earthlink opened its newest data center on its next-generation cloud hosting platform, located at 8 Great Oaks Boulevard in San Jose, CA. EarthLink has also opened a new local sales office.

EarthLink recently opened data centers in Chicago and Dallas, and will open another one in Miami next month.  The company also operates data centers in Pittsford, NY; Marlborough, MA; Columbia, SC and Atlanta.

http://www.earthlink.net


Wednesday, June 12, 2013

Cisco Scales its Core Routers for 64x100 GE Density

Cisco is extending its core routing product line with a new model boasting 400 Gbps per slot capacity and the ability to scale to multi-chassis configuration with nearly 1 petabit per second capacity.  The platform is engineered for high densities of 10 GE, 40 GE and 100 GE in core service provider networks.  The scalability enables up to 64x100 GE ports in one chassis.  The platform is powered by a new set of custom ASICs developed in-house.

The Cisco Carrier Routing System-X (CRS-X), which will ship later this year, retains IOS-XR and line-card compatibility with the previous CRS models while offering 10 times the capacity of the original CRS-1, which was introduced in 2004.

Key innovations include Cisco AnyPort technology allowing the use of new CMOS-based line card (Cisco CPAK)  to reduce power consumption, reduce the cost of sparing, and increase deployment flexibility. For example, each interface can be configured for either single port 100 Gigabit Ethernet, 2x40 GE, or 10 x10 GE and either short-, long-, or extended-reach optics by selecting a specific CPAK transceiver.

The CRS-X architecture also allows for IP and optical layer convergence. The CRS-X can be configured with integrated optics or the new Cisco nV optical satellite.  Both allow for a single IP and optical system that utilizes Cisco’s nLight technology for control plane automation.  The nV optical satellite deployments operate as a single managed system with the Cisco CRS Family to reduce operational expense and deliver high-density 100 GE scaling.

Cisco noted that it has shipped more than 10,000 CRS systems since 2004.

"Cisco’s flagship networking platforms are designed with investment protection for decades and beyond, unlike other technology providers, which force operators to rip and replace their products on a regular basis.  Service providers, large educational and research networks, and government agencies around the world are preparing for the next-generation Internet and the increasing demand for video, collaboration and distributed computing.  Cisco CPAK technology and 400 Gbps per slot CRS-X demonstrate Cisco’s commitment to leading the industry in IP core technology and protecting the investment of our existing CRS customers," stated Surya Panditi, senior vice president and general manager, Cisco’s service provider networking group.

http://newsroom.cisco.com/press-release-content?type=webcontent&articleId=1208192

  • In March 2103, isco showcased its new 100 Gbps, CMOS-based transceiver technology at this week's OFC/NFOEC 2013 event in Anaheim, California. The new technology, which Cisco describes a breakthrough for the rollout of 100G services, is powered by Cisco’s nLight silicon.


By integrating advanced optics in complementary metal oxide semiconductor (CMOS) technology, Cisco is able to significantly increase face-plate density for 100G pluggable optics.

The Cisco "CPAK" transceiver, which will initially be available on the Cisco ONS 15454 MSTP 100 G coherent transponder, reduces space and power requirements by over 70 percent compared with alternative transceiver form factors, such as CFP. Future routing and switching line cards will also incorporate CPAK technology.  Cisco’s first line card to incorporate CPAK technology is the 100Gbps CPAK Coherent DWDM line card, compatible with the ONS 15454 MSTP platform.  The card uses Cisco’s 100GE IEEE standards-based LR4, SR10 and ER4 CPAK pluggables on the client interface and Cisco’ ultra long-haul coherent technology on the network facing (trunk) interface.

In addition, Cisco announced that its 100G DWDM powered by nLight technology can cover distances of up to 4,800 km without the need for signal regeneration.  The density of the technology enables 6 x 100G Transponders in a 6 RU chassis, or the equivalent of 8.4 Terabits of I/O in a single rack.



Broadcom's XLP900 Flagship Processor Packs 80 CPUs

Broadcom unveiled its highest performance, multicore processor to date -- the XLP900 Series, packing 80NX CPUs on a single die for 160 Gbps performance.  The new XLP900 Series is optimized for deployment of network functions such as hardware acceleration, virtualization and deep packet inspection.

Broadcom's XLP900 Series, which is implemented in 28nm, extends the company's portfolio of multicore processors for networking applications. The new flagship processor features end-to-end virtualization, advanced security capabilities such as deep-packet inspection (DPI), and innovative network and application intelligence technology with wire-speed networking and multi-layer QoS capabilities.

Key Features:

  • 160Gbps application performance, scalable to 1.28Tbps
  • Full end-to-end hardware virtualization support for the CPU cores, I/Os, hardware accelerators and on-chip interconnects
  • Supports hundreds of virtual machines (VMs), with protected memory, resources and I/Os, supports KVM (Kernel-based Virtual Machine) and QEMU (open-sourced Quick EMUlater)
  • 100Gbps encryption and authentication performance, scalable to 800Gbps
  • 40Gbps deep-packet inspection performance with grammar processing, scalable to 320Gbps
  • 20Gbps compression and decompression, scalable to 160Gbps
  • RAID5/6 engines with deduplication support

Broadcom said up to eight of its XLP900 processor can be linked to function as a single device with 640 NX CPUs for the full 1.28 Tbps system performance.  Sampling is underway.

"Our new XLP900 Series of processors integrates server-class CPU core performance with industry-leading networking and communications technology to deliver the industry's highest performance, most scalable and intelligent processor for next-generation networks," said Ron Jankov, Broadcom Senior Vice President and General Manager, Processor and Wireless Infrastructure. "By out-executing the industry and being first to market with a multicore solution capable of over a trillion operations per second, we once again raise the bar and further solidify our technical leadership."

http://www.broadcom.com

Infinera Architects an Intelligent Transport Network

Infinera outlined its architecture for an Intelligent Transport Network for the Terabit Era.

The company will leverage its photonic integrated circuits, converged OTN switching + WDM transport, 500G super-channels, and next-gen Transport Software Defined Network (SDN) capabilities to enable dynamic carrier infrastructure for cloud-based services and data center connectivity.

Infinera said its Intelligent Transport Network represents an evolution of its Digital Optical Network, which it introduced in 2005, by adding advanced automation and multi-layer resource orchestration controls.

Key elements of the Infinera Intelligent Transport Network include:

  • Scalability: 500 Gbps FlexCoherent super-channels today and designed to scale to terabit super-channels and Terabit Ethernet in the future.
  • Convergence: By converging packet, OTN and reconfigurable optical add-drop multiplexer (ROADM) switching functions the Intelligent Transport Network is designed to reduce complexity while lowering overall network spending without compromising performance.
  • Automation: The Intelligent Transport Network features intelligent software control to help simplify  multi-layer provisioning, and in the future will support Transport Software Defined Network (SDN). Automation allows end-user control of their own network services and aligns service revenue to transport network growth through capabilities such as Infinera Instant Bandwidth™.

"We believe Infinera delivers the world's most innovative networking solutions, helping our customers win in the marketplace by enabling an infinite pool of intelligent bandwidth," said Dave Welch, Infinera EVP and Chief Strategy Officer. "The Intelligent Transport Network takes the Digital Optical Network to the next level with automated control, converged multi-layer switching and scalable super-channel transmission. Unlike the competition, we are not retrofitting legacy 10G and 40G platforms. We have designed the Intelligent Transport Network from the ground up for the Terabit Era."

http://www.infinera.com

TeliaSonera International Carrier Extends Infinera Infrastructure into Europe

TeliaSonera International Carrier, which has previously deployed Infinera's DTN-X platform across its North American network, is now extending the rollout of Infinera equipment in its European network.  The first route is Stockholm-to-Hamburg, one of the busiest on its European network.

TSIC, which operates a wholly owned fiber optic network connecting 200 Point of Presence (PoPs)) across Europe, North America and Asia, said it chose Infinera in part for the speed in configuring bandwidth for new customers, some of whom are asking for large bandwidth configurations to ready in a matter of days. The Infinera platform has helped TSIC win new customers by its rapid provisioning.

"Stockholm to Hamburg is an important network route for us both for delivering services to our Nordic and Baltic end-users and for being part of the global long haul routes Europe-Russia and Europe-overland to Asia," said Erik Hallberg, President of TSIC. "Our experience in North America is that Infinera gives us a competitive edge by enabling us to use time as a weapon to deliver 10 GbE and 100 GbE services faster than the competition. We look forward to expanding our Intelligent Transport Network into Europe with Infinera.

http://teliasoneraic.com
http://www.infinera.com


  • In November 2011, TeliaSonera International Carrier and Infinera performed the world's first terabit trial in California based on DTN-X equipment.
  • In August 2012, TeliaSonera International Carrier (TSIC) and Hibernia formed a strategic partnership for global media distribution. Under the deal, Hibernia Media will acquire TSIC's MediaConnect business, while TSIC's  fiber backbone will form the core of the new network.
  • In July 2012, TeliaSonera International Carrier comfirmed deployment of a new 100G DWDM overlay network across Europe based on Nokia Siemens Networks' hiT7300 platform. 


Facebook's Arctic Circle Data Center Boasts 1.07 PUE

Facebook activated its newest data center - LuleƄ, Sweden, on the Gulf of Bothnia near the Arctic Circle.

Facebook said the new facility, which is powered by locally-generated hydro power, is averaging a PUE of 1.07 in early tests.  The entire data center is based on Open Compute Project designs. Excess heat is used to heat staff offices.

https://www.facebook.com/luleaDataCenter


  • The Open Compute Project (OCP), which was launched by Facebook in April 2011, has moved from early design work to seeing the first commercial products based on its specifications hit the open market. 
    Facebook's original idea was to share its specifications for "vanity-free" servers using barebones AMD and Intel motherboards and optimized for low-power in highly dense data centers. 

    The Open Compute Project has evolved to challenge the industry to rethink all aspects of data center design, from motherboards, to storage, I/O, power, cooling and rack design. 

    A big focus is on "breaking the monolith" by developing a next generation "disaggregated rack", where compute, network and storage are separate modules that can be scaled and upgraded independently of other server elements.

  • Orange and NTT are the latest carriers to join the Open Compute Project.
  • During the first 9 months of 2012, Facebook spent $1.0 billion for servers, networking equipment, storage infrastructure and the construction of data centers.  Facebook is accelerating its data center operations to handle the data deluge from a billion users, its growing number of services, the widespread adoption of smartphones, and the fact that 82% of users are outside the United States while most of its data centers are domestic.
  • In 2012, TeliaSonera International Carrier was selected to build and operate a new pan-European managed optical network for Facebook. The multi-terabit optical network will provide Facebook with connectivity between Internet exchange points in multiple European cities and their newest data center on the edge of the Arctic Circle in LuleĆ„, Sweden.

Gigamon Rockets Ahead in IPO - Up 50% on Opening Day

On the first day of public trading, shares of Gigamon (NYSE: GIMO) rose 50% to close at $28.47.  The company offered 6,750,000 shares of its common stock at a price to the public of $19.00 per share.

Gigamon provides intelligent Traffic Visibility Networking solutions for enterprises, data centers and service providers.  The company is based in Milpitas, California.

http://www.gigamon.com

In April, Gigamon outlined its vision for software-defined monitoring based on a four-layer architecture: a Services Layer, a Management Layer, an Orchestration Layer and an Applications Layer.

Gigamon said its strategy is to develop a unified Visibility Fabric architecture that would ultimately deliver orchestrated visibility across physical, virtual and software-defined networks (SDN). This will build on Gigamon's existing architecture and the principles of SDN to provide a centralized, programmable approach that aims to bridge the gap between the raw data passing through the network and optimally presenting that data to the tools that monitor, manage, secure and ensure application and network performance.
  • The Services Layer currently provides advanced Flow Mapping® and intelligent packet optimization and normalization using GigaSMART technology across physical and virtual worlds and, and Gigamon expects to expand this layer to include software defined data networks with the GigaVUE-CV application which is currently being developed as a proof of concept.
  • The Management Layer consists of the GigaVUE-FM (Fabric Manager) which provides centralized management and a common policy framework for multi-department and multi-tenant traffic monitoring and manipulation policies across the Visibility Fabric architecture.
  • The Orchestration Layer will be developed by Gigamon to provide an open environment through a set of forthcoming APIs and SDKs to enable third party development of applications.  
  • The Applications Layer will consist of a set of visibility applications to be developed by Gigamon, as well as through independent software vendors to deliver optimal tool utilization and performance.

Nokia Siemens Networks: Technology Vision 2020

Nokia Siemens Networks outlined its Technology Vision 2020 blueprint for future mobile networks to help operators deal with extreme traffic growth, simplify network operations and provide the ultimate personal gigabyte experience.

Nokia Siemens Networks said it is committed to addressing the surging tide of mobile data by implementing the following six pillars that have been defined in cooperation with operators globally:
  • enable 1000 times more capacity,
  • reduce latency to milliseconds,
  • teach networks to be self-aware,
  • personalize network experience,
  • reinvent telco for the cloud, and
  • flatten total energy consumption.
“Until now, end users have learned how to use mobile broadband networks to enrich their lives. In the future, end users will teach networks and devices how to evolve and adapt to 2020 lifestyles. Technology Vision 2020 is a guide that equips mobile broadband networks to adapt to those lifestyles. We are working closely with customers, partners, top universities and research institutes to make Technology Vision 2020 a reality,” says Hossein Moiin, executive vice president, Technology and Innovation, and member of the Executive Board, Nokia Siemens Networks.

http://www.nokiasiemensnetworks.com/news-events/event/2013/technology-vision-2020