Monday, November 24, 2014

Telstra, Ericsson and Qualcomm Hit 450 Mbps with LTE-A Cat9

Telstra, Ericsson and Qualcomm achieved LTE-Advanced (LTE-A) peak downlink speed of 450 Mbps (Category 9) by combining three 20 MHz LTE carriers on commercially available Ericsson multi-standard hardware and LTE software.

The demonstration utilized 60 MHz of spectrum, with three 20 MHz LTE carriers in Band 3 (1800 MHz), Band 7 (2600 MHz) and Band 28 (APT 700 MHz) respectively. The successful utilization of Band 28 is significant as this band is gaining momentum as a global LTE band, with the potential to serve 2.1 billion people. Qualcomm Technologies, Inc. (QTI), a wholly owned subsidiary of Qualcomm Incorporated, Category 9 LTE-A modem and Ericsson high-performance LTE software (Networks Software 14B) and hardware supporting the company's multi-standard RBS 6000 family of base stations for macro and small cell networks drove today’s results.

The companies said the milestone confirms the maturity and readiness of the ecosystem to support operator deployments of LTE-A 450 Mbps data speeds. It builds on the May 2014 demonstration of the same speed by Ericsson and Telstra, achieved with a user test device on Telstra’s commercial network.

Mike Wright, Telstra Group Managing Director, Networks, says: "We are pleased to play a role in this milestone with Ericsson and Qualcomm. Our customers are keen to see the benefits of LTE-A Carrier Aggregation across our network and today’s achievement demonstrates that Telstra is working with industry leaders in order to develop the next generation of fast and reliable mobile data services. We look forward to offering our customers devices incorporating this new chipset when available in the market."

Thomas Norén, Vice President and Head of Radio Product Management, Ericsson says: "As consumers, businesses and industries are transformed through mobility, network performance becomes a key differentiator. Leading operators such as Telstra are looking for solutions that improve app coverage – network performance from the user perspective. With LTE-Advanced carrier aggregation, app coverage is improved right to the cell edge. Showing this commercial solution live on both network and terminal, with our partners Telstra and Qualcomm, represents a key milestone on the road to large-scale deployments."

http://www.ericsson.com

In February 2014, Ericsson and Qualcomm Technologies conducted the first inter-vendor interoperability testing of LTE Category 6, which promises potential speeds of up to 300 Mbps.

The final stages of testing, which were completed in collaboration with Telstra, was based on ready-to-release versions of Ericsson's L14A software release. Ericsson said its L14A software leverages load balancing for better spectrum efficiency and improved user experience during high-load situations. It supports all bandwidth and frequency combinations for up to 40MHz Carrier Aggregation, providing users with speeds of up to 300 Mbps.  The test also used Qualcomm;s fourth-generation 3G/LTE multimode modem, the Qualcomm Gobi 9x35 chipset.

IBM and Ericsson Collaborate on 5G Antennas

Ericsson and IBM have agreed to jointly research phased-array antenna designs for 5G.

The companies plan to develop prototype systems that will serve more mobile users, enable a multitude of new services on the same frequency, as well as offer data speeds that are orders of magnitude faster than today - competitive to existing cable and wired internet access speeds.

Ericsson said phased-array design allows for more directional antennas that are electrically-steerable and will have significant weight and flexibility advantages over existing mechanical antennas. The outcome of these technological advances will integrate on the order of a hundred antennas and radios on a single chip smaller than a credit card in size, greatly facilitating the use of these technologies for high-capacity small cells in indoor spaces and dense downtown areas.

Thomas Norén, Head of Product Management Radio, Ericsson, says: "Ericsson is performing world-class radio research that will enable the extremely high data rates that will be required in the future.  We have already showed 5 Gbps over-the-air in trials back in July. We are also working to solve the size barrier and look forward to developing antenna technology with IBM that will open up possibilities for new uses. We recently launched the industry's most flexible small cell, which allows for concurrent use of multiple technologies. Even with its tablet-sized footprint, the form-factor was limited by components inside. This research collaboration will help us enable mobile network builds that provide the right coverage and capacity even in the densest urban environment."

Dr. Mehmet Soyuer, Manager of the Communication and Computation Subsystems Department, IBM Research says: "We have accumulated over 10 years of experience in developing radio frequency (RF) integrated circuit and packaging solutions, demonstrating highly integrated phased arrays for various applications. We look forward to collaborating with Ericsson to help shape the future of mobile communications."
Inventing

http://www.ericsson.com

Xilinx and NXP Collaborate on LTE-A and 5G

Xilinx and NXP have been working together to combine Xilinx's newest crest factor reduction (CFR) and digital pre-distortion (DPD) SmartCORE IP with NXP's Gen9 LDMOS RF highly efficient power amplifier technology. The combination of NXP's advanced power amplifier devices and Xilinx All Programmable devices and radio IP enables customers to implement smaller, lighter and higher reliability radios suitable for use in next-generation wireless infrastructure equipment.

Power amplifiers of higher efficiency achieve the same radio output power and enable a CapEx saving through the use of lower power rated devices and reduced cooling mechanics. Xilinx's Zynq®-7000 All Programmable SoC is the first hardware and software programmable device supporting the latest generation of CPRI at 10.1Gbps and JESD204B at 12.5 Gbps line rates.

Xilinx's latest CFR and DPD IP now support up to 100MHz of radio bandwidth in single RAT configurations in addition to supporting MC-GSM with frequency hopping in single RAT or multi-RAT configurations up to 75MHz.

"Xilinx and NXP will continue to collaborate on future technology standards such as LTE-A and 5G, and expand the system impact with the most efficient and easy to adopt combination of radio algorithms and power amplifier technology," saidDavid Hawke, director of wireless communications at Xilinx.

http://www.xilinx.com
http://www.nxp.com


Palo Alto Posts Record Sales of $192.3 million, up 50%

Palo Alto Networks reported total revenue for its fiscal first quarter grew 50 percent year-over-year to a record $192.3 million, compared with $128.2 million in the fiscal first quarter of 2014. GAAP net loss for the fiscal first quarter was $30.1 million, or $0.38 per diluted share, compared with a net loss of $7.9 million, or $0.11 per diluted share, in the fiscal first quarter of 2014.

Palo Alto Networks recorded fiscal first quarter non-GAAP net income of $12.8 million, or $0.15 per diluted share, compared with non-GAAP net income of $6.2 million, or $0.08 per diluted share, in the fiscal first quarter of 2014. A reconciliation between GAAP and non-GAAP information is contained in the tables below.

"We had a strong start to fiscal year 2015, outperforming expectations across all of our reported metrics. As the leading provider of the next-generation enterprise security platform, we delivered 52 percent billings growth and 50 percent revenue growth on a year-over-year basis," said Mark McLaughlin, president and chief executive officer of Palo Alto Networks. "In today's increasingly complex threat environment, enterprise customers recognize that a true, integrated and automated platform delivering prevention capabilities offers superior security with a superior total cost of ownership advantage. Our results demonstrate the differentiation and sustainability of that unique platform, the scalability of our go-to-market model and our ongoing growth potential."

http://www.paloaltonetworks.com

Where are SDN and NFV today? Dan Joe Barry @Napatech Responds



 Filmed at Layer123's SDN & OpenFlow World Congress in Düsseldorf, Germany with Dan Joe Barry, VP of Marketing, Napatech.





PMC Supplies 12Gb/s SAS Storage for Lenovo

PMC Sierra announced that Lenovo has selected its storage solutions for external connectivity across its ThinkServer portfolio.

The Lenovo 8885E by PMC card delivers the full throughput of 12Gb/s SAS and 6.6GB/s PCI Express 3.0 to maximize the performance of ThinkServer scale-out storage. The card will be offered on Lenovo rack and tower servers.

“Lenovo’s ThinkServer products are versatile enough to handle workloads ranging from those found in SMBs to enterprise data centers,” said Pete Hazen, vice president of the Data Center & Server Group at PMC. “A key component of that flexibility comes from their ability to scale based on business needs. IT professionals and data center managers will find that this PMC-based card addresses their immediate storage needs and allows them to future proof against ever-increasing workloads and emerging storage requirements.”

http://www.pmcs.com/storage

Huawei to Establish NFV Open Labs in China, Germany, US

Huawei is preparing to open a number of Network Functions Virtualization (NFV) Open Labs, aiming at stimulating innovation, industry development and collaboration with operators. The first three locations are China, Germany and the USA.

Huawei said it believes that the main added values from NFV are that it will break the isolation of traditional telecommunications networks, shorten innovation cycles, reduce operating costs and create an open industry chain, which requires processes for open standardization and open source cloud technology.

http://pr.huawei.com/en/news/hw-399168-nfv.htm#.VHQM_YujOM4

Hurricane Electric Continues European Expansion

Hurricane Electric, which operates what is considered to be the world’s largest IPv6-native Internet backbone, has added a new Point of Presence (PoP) at Interxion Dusseldorf in Germany.

Hurricane Electric said it is continuing to grow its footprint within Germany’s extensive data center industry. This is its sixth POP in Germany. The PoP will enable customers to experience improved fault tolerance, lower latency and increased network capacity through 100GE (100 Gigabit Ethernet), 10GE (10 gigabit Ethernet), GigE (1 gigabit Ethernet) and 100BaseT network connections. Additionally, customers will now have the opportunity to exchange IP traffic, or “peer,” with Hurricane Electric’s global network.

Hurricane Electric employs a resilient fiber-optic topology, and has four redundant paths crossing North America, two separate paths between the U.S. and Europe, and rings in Europe and Asia.

http://www.he.net

Saturday, November 22, 2014

Comcast Business Builds Direct Connect to Clouds

Comcast Business is building direct connections into cloud exchanges to give its Ethernet customers dynamic and scalable access to a range of cloud service providers. As part of this strategy, Comcast Business has private, high-performance connections with automated provisioning to multiple cloud services through the Equinix Cloud Exchange at 10 Gbps, 1 Gbps and sub-gigabit connections.

Since launching its private Ethernet services in 2011, Comcast Business has extended its fiber-based network and now reaches more than one million Ethernet-enabled buildings. The company has also extended its fiber network and Ethernet services into more than 325 data centers across the United States, ranging from individual Tier I facilities that local businesses use for data back-up to regional, multi-facility Tier IV providers that offer colocation, managed hosting and cloud services with replication across diverse geographies. Beyond just the network connections, Comcast Business is partnering with data center providers in a variety of co-marketing and sales enablement activities as data centers recognize that Comcast Business’ network reach and rapid Ethernet provisioning expand their addressable market.

“For CIOs and IT departments, sourcing their business applications to a multi-tenant data center or cloud is only viable if their business locations have private Ethernet connectivity to ensure application performance would be the same whether the server is on-site or hundreds of miles away,” said Mike Tighe, Executive Director, Data Services, Comcast Business. “Our focus is on being the data center and cloud-neutral transport provider that empowers businesses with a choice in hybrid IT solutions and massive Ethernet network reach to connect data centers and cloud services to more than one million Ethernet-enabled buildings.”

http://business.comcast.com/

Telefónica Joins Equinix Cloud Exchange

Telefónica announced support for Equinix's Cloud Exchange as a means to provide its enterprise customers with dedicated connectivity to multiple cloud service providers.

Telefónica will offer this connectivity through its global IP MPLS network to Equinix’s ecosystem of cloud service providers in select Equinix IBX data centers across North America, Europe and Asia-Pacific via the Equinix Cloud Exchange™ interconnection service.

“By connecting Telefónica IP MPLS services to Equinix’s Cloud Exchange, we are expanding our own cloud services offer giving our customers the ability to choose from the best combination of cloud infrastructure, platform and software service providers to ensure they can put the best possible hybrid cloud solution in place to meet their individual business needs,” stated Jose Luis Gamo, CEO Multinationals Business Unit of Telefónica Global Solutions.

http://www.globalsolutions.telefonica.com

RapidIO Delivers 16 Gbps Interconnect for NVIDIA-based Clusters

Integrated Device Technology (IDT) and Orange Silicon Valley have co-developed a new compute architecture that leverages massive, highly scalable, low-latency clusters of low-power NVIDIA Tegra K1 mobile processors along with using IDT’s RapidIO technology which can interconnect multiple nodes at up to 16 Gbps. The architecture can scale to more than 2,000 nodes in a rack and enables ultra-high Gflop density and energy efficiency not achievable with PCI Express or Ethernet technologies.

The design essentially interconnects a large number of low-power GPUs in a server rack, enableing tremendous computing horsepower with low latency and low energy consumption. It yields up to 23 Tflops per 1U server, or greater than 800 Tflops of computing per rack.

IDT said its new architecture matches computing cores with 16 Gbps data rate to each node for better computing-to-throughput balance, one of the key limitations in the industry today. The compute to I/O ratio will continue to improve with 40 Gbps IDT RapidIO 10xN technology.

The architecture allows for 60 nodes on a 19-inch 1U board, with more than 2,000 nodes in a rack. Any node can communicate with another node with only 400 ns of fabric latency. Memory-to-memory latency is less than two microseconds. Each node consists of a Tsi721 PCIe to RapidIO NIC and a Tegra K1 Mobile Processor with 384 Gflops per 16 Gbps of data rate, or 24 floating point operations per bit of I/O. This will be valuable at the rack level in data centers and at the individual analytics server level for wireless access networks.

The cluster was achieved with NVIDIA’s Jetson TK1 development kit, which is powered by the NVIDIA Tegra K1 mobile processor.

“Leading innovators in the ‘Big Data’ arena are increasingly discovering the benefits RapidIO interconnect can bring to their applications,” said Sean Fan, vice president and general manager of IDT’s Interface and Connectivity Division. “Our work with Orange Silicon Valley—connecting massive numbers of low-power NVIDIA mobile processors via RapidIO—demonstrates a breakthrough approach to addressing the tradeoffs between total computing, power and balanced networking interconnect to feed the processors.”

http://www.IDT.com

California Research & Education Network Upgrades to 100G

The Corporation for Education Network Initiatives in California (CENIC) has completed a 100G upgrade for the core backbone of the California Research & Education Network (CalREN).

CalREN is a 3,800-mile fiber-based advanced network serving the California K-12 System, California’s Community Colleges, the California State University, the University of California, and many private universities including Caltech, Stanford, and USC, as well as a rapidly growing list of other institutions.

The ten campuses of the University of California, the University of Southern California, the California Institute of Technology, and Stanford University will be able to take advantage of 100G connections from their campus research networks into CalREN.

“As with many advanced networks, CalREN backbone traffic is in a constant state of accelerating growth, and we’re always heartened by this since it means that the network is doing the job it was designed to do: encourage innovation of all kinds,” says CENIC President and CEO Louis Fox. “This makes ongoing network upgrades like this absolutely critical to the continued health of California’s spirit of innovation.

“At Stanford, we have recently deployed 100-Gigabit capabilities for our own campus research data center,” states CENIC Board Chair and Associate Vice President of IT at Stanford University Bill Clebsch. “With the CENIC backbone upgrade, we now have an end-to-end high-speed path from our researchers to their partners elsewhere in California and beyond. CENIC’s new capabilities are absolutely necessary to enabling and accelerating the pace of discovery and innovation.”

http://www.cenic.org

In July 2013, the Corporation for Education Network Initiatives in California (CENIC)  established five new 100 Gbps links between the California Research and Education Network (CalREN) and Internet2.

Two new 100G connections in Los Angeles will support a variety of research purposes, along with a third 100G connection at Sunnyvale that will also connect to Internet2’s Advanced Layer 2 Services. Along with these, two connections between CalREN and Internet2’s TR-CPS national peering infrastructure will be upgraded to 20G and can scale to 100G.

Fujitsu Intros In-Building LTE Femtocell

Fujitsu introduced its BroadOne LS100 Series LTE Femtocell, a small and lightweight indoor base station for North America.

Fujitsu said its new small cell implements a unique interference avoidance capability that provides the highest signal strength from either the macrocell or the small cell, and provides a smooth handoff between them. Interference is mitigated through four distinct control functions – frequency, power, timing and access - in turn helping to improve user data rates. The self-optimizing feature autonomously monitors the local RF environment and intelligently adjusts to maximize user throughput. In addition, the robust QOS and Scheduler features best support premium 4G services like VoLTE.

“As mobile traffic increases with the growing use of smart devices, network operators must increase coverage and capacity of their networks,” said Tetsuya Takase, Head of Wireless at Fujitsu Network Communications. “The LS100 Series provides operators an affordable solution to improve in-building coverage and add capacity where high-speed data is critical, ultimately improving the overall user experience.”

The LS100 Series is one element of the Fujitsu solution that also includes the LS700 HeNB Gateway and LS800 HeMS Element Management System (EMS). The gateway provides high scalability by expanding processing capacity during increased traffic, while the EMS’s open OSS interface and intuitive GUI design ensure flexible, simplified element management support.

http://us.fujitsu.com/telecom

In this sponsored video, Fujitsu introduces its BroadOne GX4000 Multi-Gigabit Wireless Transport System for the North American market.  This E-band solution operates in the 70 / 80 GHz frequency band and uses Fujitsu's “Impulse Radio” technology to enable an ultra-high data rate of 3 Gbps for a wireless link. It provides wireless CPRI transport for cellular fronthaul.

http://youtu.be/m7daZjhOmfg


Coriant Supplies its hiT 7300 DWDM to Indonesia's PGASCOM

Indonesia's PGASCOM will deploy Coriant's hiT 7300 Multi-Haul Transport Platform to expand the capacity of its long haul submarine cable network that links Jakarta and Singapore.

Coriant said its hiT 7300 will help PGASCOM improve optical performance in its Jakarta to Singapore long haul link and reliably expand network capacity in a pay-as-you-grow fashion to meet the evolving service demands of its end-user carrier customers. Key benefits of the Coriant solution include reduced latency, simpler operations due to a reduction of equipment at cable landing sites, and higher availability due to advanced optical layer management and mesh restoration.

"We are pleased to be chosen as PGASCOM's strategic partner as they expand their network," said Stefan Voll, Vice President, Product Management, Packet Optical & NMS, Coriant. "Submarine networks are critical for international broadband connectivity in Southeast Asia, and these networks can be a potential bottleneck due to the time, expense, and environmental challenges associated with capacity upgrades. Our solution meets these challenges with virtually unlimited capacity, system upgrade simplicity, and unparalleled resiliency."

http://www.coriant.com

Primary Data Appoints Steve Wozniak as Chief Scientist

Primary Data, a start-up based in Los Altos, California, announced that Steve Wozniak has joined the company as Chief Scientist.

Primary Data is developing data virtualization technology that aligns applications, servers and storage systems in a single, global dataspace.

The comapny's solution is to separate the metadata that describes files from the actual file data to allow universal access to data across all types and tiers of storage. An intelligent policy engine provides on-demand data placement, agnostic storage protocols deliver access across file, block and object stores, and a full complement of data services enable seamless linear scalability of both performance and capacity.

Elements of the Primary Data virtualization platform include:

  • Data Hypervisor: Virtualizes data by decoupling the access channel from the control channel. The Data Hypervisor makes clients protocol-agnostic and allows data to be transparently placed across third-party storage under a global dataspace.
  • Data Director: A central management system that acts as a metadata server for the Data Hypervisor clients and provides policy definitions for data movement and placement.
  • Policy Engine: Enables organizations to manage data independently of storage. User-defined policies automate data movement across all storage types based on the data’s current performance, price, and protection needs.
  • Global Dataspace: The Primary Data platform gives data administrators global visibility into all storage resources in the enterprise. Real-time policies dynamically migrate data between storage tiers as application and data demands change.


“Innovations like wearables, digital assistants, and the Internet of Things are making computing more and more transparent in our lives, and for technology to remain accessible, we need to ensure data remains seamless as it serves us information,” said Wozniak. “Primary Data uses data virtualization to dynamically place data anywhere as applications demand. I’m excited to share our data virtualization platform with the world.”

Most recently, Wozniak served as Chief Scientist of flash memory innovator Fusion-io, where he worked closely with Lance Smith, David Flynn, and Rick White -- the team behind Primary Data.

“Working to develop disruptive technology is always exciting, but it’s even more exciting when you can team up with a talented group of friends to achieve those goals together,” said Rick White, Primary Data co-founder and chief marketing officer. “With Woz on the team along with Lance and David, we now have the band back together, and I’m amped to be reunited at Primary Data.”

http://www.primarydata.com

OIF Launches New Project to Identify APIs for Transport SDN

The OIF has launched a new project to develop implementation agreements (IAs) for the application programming interfaces (APIs) used between application and network controller.

The new initiative will build on the Service Request and Topology APIs prototyped in the recent Transport SDN demonstration held with the Open Networking Foundation (ONF) last month.

The new initiative will also create IAs for Service Request, Path Computation, Topology and Link Resource Manager interfaces that have been
identified as part of the OIF’s upcoming SDN Framework document. The APIs to be delivered by the new project are based on REST and JSON principles enabling rapid and flexible application development.

“The prototype Transport SDN demonstration revealed a lack of definition for how user applications interact with transport network applications and resource functions,” said Jonathan Sadler, of Coriant and the OIF technical committee vice chair. “The programmability of Transport SDN requires some of the internal interfaces used by ASON to become open.”

http://www.oiforum.com/


Thursday, November 20, 2014

Blueprint: Six Major Hurdles to SDN Adoption

by Charanya Balasubramanian, Veryx Technologies

SDN promises to provide an architecture that empowers enterprises and service providers to realize a high degree of network automation, agility and, a decrease in overall costs of the network. By decoupling the control and forwarding planes, SDN provides a logically centralized control and programmable layer. Thus SDN accelerates service deployment and reduces operating expenses across multi-vendor platforms.

Hurdles for SDN

In the path of trying to realize the promise of SDN however, there are certain major hurdles that SDN implementers could potentially face. Given below is a list of six of these potential hurdles and the ways to tackle them.

Lack of standards for total SDN deployment
While notable standard groups such as the ONF focus on the development and standardization of SDN, the industry is not fully equipped with standards to benchmark SDN implementations. This indeed challenges SDN adoption, since the scope of test performance and interworking capabilities of SDN have not been defined. However, the ONF’s conformance test specification for OpenFlow protocol and a recent IETF draft for SDN controller benchmarking (co-authored by Veryx), could show a standards-based pathway for of measuring performance in a standardized manner.

Performance in centralized networks
While centralization of control enables the network to be highly programmable and agile, in reality, it could also tend to create a performance bottlenecks. Hence, in comparison with the distributed networks, the overall performance of centralized networks is more susceptible to poor quality of experience. The network must be capable to support dynamic programming without compromising on performance as committed in the SLAs. Thus, if performance characteristics such as latency and throughput are tested at various instances, one can be sure that the SDN-based network delivers equal if not better performance.

Lack of confidence in reliability of SDN approach
SDN’s single point of control leads to concerns regarding its reliability. Hence, SDN’s capability to deliver high availability and resiliency should be validated especially under exceptional and error prone conditions. In order to ensure the controller’s capability in guaranteeing availability, rapid notification, switching and convergence of data path during failures, need to be verified since they play a crucial role in making SDN reliable.

Scalability for virtualized network
SDN architecture facilitates both physical and virtual networks in order to deliver various networking services with speed and agility. For SDN to support highly flexible and massively scalable architecture, networks need to support automated provisioning of large scale flows. Thus, before deploying SDN, the network’s capabilities to support dynamic provisioning of flows and the degree of scalability need to be verified. Moreover, since SDN supports dynamic scalability, the controller’s ability to handle infrastructure modification requests and the extent to which it can scale should be verified.

Coexistence with legacy networks
SDN allows end-to-end network automation through coordination and integration with devices at the edge and legacy networks. An SDN-based network is expected to support legacy networking elements and frameworks, which would enable to support end-to-end services. Thus, it is important to verify the interoperability of SDN network with the legacy networks/systems.

Vulnerabilities of centralization
While centralization of control is beneficial, security of centralized approach is a major concern for SDN adopters, as it could hamper the overall network availability. Hence controller support and recovery mechanisms from possible attacks must be evaluated. In addition, the support for enabling real-time traffic monitoring, pro-active detection and prevention of malicious attacks, authentication and authorization access to controller have to be verified.

About Veryx
Veryx offers SDN testing solutions that encompass conformance, performance benchmarking and network emulation for SDN controllers and switches. Veryx PktBlaster SDN is an integrated test solution for benchmarking SDN controllers. Veryx ATTEST solution offers automated test cases that comprehensively test for OpenFlow protocol conformance.

About the Author
Charanya Balasubramanian is the Product Manager at Veryx Technologies. Charanya handles product management efforts for SDN and emerging technologies at Veryx. She has over five years of experience in the Information and Communication Technologies (ICT) industry spanning across several technologies including virtualization and cloud computing. She holds a Master’s degree in Strategy and Marketing from XLRI, Jamshedpur, India and Bachelor’s Degree in Computer Science and Engineering from Anna University, Chennai, India.

Bob Metcalfe on Innovation and the Net Neutrality Debate

Innovation in networking technologies is accelerating.  The debate on NetNeutrality is back in the public square.

Speaking at #GEN14 conference in Washington D.C., Bob Metcalfe, Professor, Electrical Engineering & Director of Innovation, shares his views on Net Neutrality.

Filmed at Metro Ethernet Forum's #GEN14 conference in Washington, D.C.

One Minute Video:  http://youtu.be/kJZKAiYVLXc


See also