Sunday, March 4, 2012

Juniper and NSN Partner on Packet Transport Networking

Juniper Networks and Nokia Siemens Networks are teaming up to offer an "Integrated Packet Transport Network" solution to help simplify carrier architecture by integrating multiple layers. The solution is comprised of the Juniper Networks PTX Packet Transport Switches and the Nokia Siemens Networks hiT 7300 high capacity optical packet transport platform, thereby integrating the IP/MPLS and DWDM layers with a common control plane.

At this week's OFC/NFOEC Conference, Juniper Networks will showcase the PTX 100G LH transponders interworking with the hiT7300 platform. The integration aims to reduce the amount of hardware needed in the network and hence lower both capital and operational costs. The planned feature set includes: network management integration, including service provisioning, optical transport control plane integration based on GMPLS and UNI+, end-to-end network planning for guaranteed performance and SLAs, and L0-L3 multi-layer optimization.

The packet layer of the solution is based on Juniper Networks PTX Series Packet Transport Switches, a portfolio of high-performance platforms optimized for MPLS and Ethernet. The PTX Series is a Label Switched Router for the service provider supercore optimized for capacity and efficiency.

Nokia Siemens Networks hiT 7300 at the optical layer is a 96-channel optical packet transport platform that is optimized for high-capacity transport in multi-haul networks. It is designed and optimized for bit rates from 2.5 Gbps to 100 Gbps per wavelength, and is 400 Gbps ready.

"The new solution fits perfectly into our Liquid Net approach. Networks need to transform to be able to cope with unpredictability and ever increasing capacity demand. The 'Integrated Packet Transport Network' solution will give operators more flexibility in their transport networks, while at the same time optimizing total cost of ownership," stated Uwe Fischer, head of optical networks product management, Nokia Siemens Networks.

Opnext Ships QSFP+ 40GBASE-LR4 Transceiver

Opnext has begun commercial shipments of its QSFP+ 40GBASE-LR4 transceiver for data center and enterprise networks.

Opnext said its QSFP+ 40GBASE-LR4 transceiver offers up to 100 times the reach of current QSFP+ SR4 solutions while improving on industry metrics as compared to the CFP form factor—power consumption is reduced by more than 50 percent and almost 80 percent less faceplate surface area is occupied.

"QSFP+ is emerging as the standard for 40GbE. Adding the QSFP+ 40GBASE-LR4 product offering to our portfolio enables substantially higher port density and significantly lower power consumption for our customers," said Rich Zoccolillo, President of Opnext's pluggables business unit. "With the QSFP+ 40GBASE-LR4 transceiver, Opnext is introducing a low cost integration and packaging technology for multiple long reach DFB lasers—all inside a module no larger than a pack of gum."http://

Ericsson Conducts 400Gbps Field Trial in Spain

Ericsson announced the deployment of 400 Gbps optical transmission technology in a field trial using Telef√≥nica’s existing network in Spain. At this week's OFC/NFOEC in Los Angeles, Ericsson is demonstrating 1 Tbps optical transmission in partnership with the Sant’Anna School of Advanced Studies and CNIT, Italy’s national consortium for telecommunications

Broadcom Intros Dual, Quad, and Octal 10GbE and 40GbE PHYs

Broadcom has added four new physical layer transceivers (PHYs) to its portfolio of 10 gigabit Ethernet (GbE) and 40GbE high-speed Ethernet products for optical fiber communications. The new SFP+ physical layer transceivers (PHYs) include a variety of dual, quad and octal-channel devices for data center and enterprise networks, enabling the transition from 1GbE to 10GbE and 40GbE, and are based on advanced 40nm CMOS architecture. All four devices feature Broadcom's fourth generation of EDC technology, enabling data transmission on a 10GbE or 40GbE serial interface. This feature is ideal for applications requiring transmission over multimode fiber (MMF) at distances up to 300m (LRM) using OM3 fiber and SFP+ copper twin-axial cable (CR). Sampling is underway.

ECI and MultiPhy Pioneer "Direct Detect" 100G Metro Technology

ECI Telecom and MultiPhy, which specializes in DSP-based high bandwidth CMOS communications semiconductors, have collaborated to develop a low-cost, metro 100G transport solution as an alternative to costly coherent technologies.

With funding from the Israeli Office of the Chief Scientist (OCS), and based on a Ben-Gurion University project, ECI and MultiPhy have leveraged a Direct Detect transmission methodology to enable 100G links over metro distances. MultiPhy's new MP1100Q Direct Detect receiver, which can fit seamlessly with existing Metropolitan Optical Networks, paves the way for transport modules using low-cost, reduced bandwidth optical subcomponents.

The companies said this technology enables the transport of 100G signals for hundreds of kilometers in metro WDM networks over 4 lanes, 28Gbps each, using 4x10G optical transceivers. Each lane is transmitted over an independent WDM wavelength or over 25GHz sub-wavelength, allocated in a single 100GHz wavelength or a dual 50GHz wavelength.

MultiPhy will showcase the ECI 168PIN MSA design utilizing the MP1100Q receiver at this week's OFC/NFOEC in Los Angeles, California (booth #2163)

"As service providers look for a cost-effective way to expand metro capacity over the coming years, they will demand solutions that easily fit into their established network architecture. Our 168PIN MSA solution, empowered by the MultiPhy MP1100Q receiver, addresses providers’ need for low cost, high performance and low power 100G metro transport markets. That’s the premise of our 1Net framework for addressing our customers’ challenges in their day-to-day operations and strategic considerations," Shai Stein, Chief Technology Officer, ECI Telecom

SingTel Acquires Amobee for Mobile Advertising

Singapore Telecommunications Limited (SingTel) agreed to acquire U.S.-based Amobee, a premium provider of mobile advertising solutions to operators, publishers and advertisers globally, for about US$321 million.

SingTel said its ambition is to change the game by delivering next generation relationship marketing tools for brands to give them more scope to deepen their one-on-one engagement with different audiences across different countries.

Mr Allen Lew, CEO Group Digital L!fe (designate), said: “The mobile advertising market is nascent and has significant potential for mobile operators, who are able to provide differentiated solutions across smartphones and feature phones, giving brands a better return on their marketing spend. We want to capture that growth in developed and emerging markets, starting with this acquisition. SingTel brings better value to customers as they are in control of the promotional message they receive. Likewise for brands, they will be able to reach out to the customers who are interested in their products and minimise wastage of ad spend."

Amobee is based in Redwood City, California.

SingTel Restructures into 3 Units

Singapore Telecommunications Limited (SingTel) announced a new organisation structure aimed at reinventing its core carriage business and capturing emerging opportunities in a new era of new devices, content and technology.

The SingTel Group now has over 400 million mobile customers and strong presence in many markets. Going forward, the company will be organized in three units:

Group Consumer, led by Mr Paul O’Sullivan, will focus on setting new benchmarks in customer experience as the leading provider of next-generation communication, infotainment and technology services to consumers and small businesses across Asia Pacific. The unit consolidates all consumer-related functions and includes the Group’s international business in the emerging markets, allowing it to fully leverage the scale of its more than 400 million mobile customers.

Group Digital L!fe, headed by Mr Allen Lew, will lead the Group’s journey to becoming a leading player in the digital ecosystem, beyond connecting voices to bringing people together with innovative and cutting-edge digital services. This unit will complement the Group’s consumer offerings with state-of-the-art digital services through bundles and add-ons. Mr Lew and his team also carry a strong mandate to serve customers and other industry players globally.

Group ICT brings together all enterprise-related business units and will focus on providing ICT solutions to serve the Group’s enterprise customers, offering innovative and comprehensive IT and telecommunications solutions across multiple geographies. Mr Lew will be the covering CEO as the Group searches internally and externally to fill the position.

Ms Chua Sock Koong, SingTel Group CEO, said: “SingTel has a long history of quietly, but successfully, making bold and industry-shaping investments. We now see some of the largest and most exciting opportunities that have ever existed in this industry. The changes to how we organise ourselves are necessary in order to align our people and resources to sharpen our focus and take advantage of these opportunities.�?

Sunrise Telecom to Debut packetWORX IPTV Suite

Sunrise Telecom is introducing a new packetWORX IPTV Suite, which includes its server-based packetWORX Monitoring System and packetWORX Analyzer field application. The packetWORX Suite is designed to help service providers validate IP-based applications. At CeBIT 2012, Sunrise Telecom will also showcase its RxT 10GE Ethernet Modules, in conjunction with IntelliSAM, its Carrier Ethernet Service Activation Test Suite.

Sensory's Pattern Matching Pushes DPI to 160 Gbps

Sensory Networks announced a new benchmark for its pattern matching software for accelerating deep packet inspection (DPI) platforms.

Sensory's HyperScan library has delivered DPI throughput of 160Gbps with linear scalability, based on an intensive benchmark of HyperScan on a dual-socket platform (8-core, 16 threads per socket) using the new Intel Xeon processor E5-2600 family and Intel C604 chipset, scanning against a tier-1 commercial IPS signature set. HyperScan fully scales across Intel architecture, extending from the Intel Atom™ processor to the highest performing Intel Xeon processor.

"This is the latest in a series of HyperScan benchmarks we’ve published that validates our strategy: to use software to transform processor real estate into scalable security performance�?, said Sab Gosal, CEO for Sensory Networks. “HyperScan is a pattern matching library designed to drop into a vendor’s system software release and be used for an entire product line, without requiring any additional software or hardware resources. This type of streamlined integration and scalability presents a compelling proposition for equipment manufacturers looking to build out DPI."

"This benchmark represents a significant leap forward in HyperScan performance�?, said Geoff Langdale, CTO for Sensory Networks. "We reported 32Gbps on the Intel Xeon processor E5400 series (Harpertown) when it was first released, using the same benchmarking setup and then 73Gbps on the Intel Xeon processor E5500 series (Nehalem). Continued advances in HyperScan’s scanning algorithms, coupled with underlying improvements in Intel micro-architecture and core count, have helped push our DPI throughput by a factor of 5 within just 3 years. We expect this performance scaling to continue as new architectures emerge in the coming years."

Infinera Lands Cable&Wireless Worldwide for its New DTN-X Multiterabit

Cable&Wireless Worldwide (CWW) will deploy Infinera’s new DTN-X platform for its Europe Persia Express Gateway (EPEG) network. The selection represents a major win for Infinera and its multi-terabit class Digital Optical Network solution with super-channel capability.

Cable&Wireless Worldwide's forthcoming EPEG network will provide geographic diversity and high-capacity for network traffic between Europe, the Middle East and India. Currently, the majority of traffic traverses fiber running through the Suez Canal and the Red Sea. The route could be a single point of failure impacting multiple cable systems should a natural disaster or manmade event occur in this narrow channel.

EPEG will stretch approximately 10,000 kms from Frankfurt in Germany to Oman with the unique attribute of having only 246 kms of undersea cable and all other routes terrestrial. Cable&Wireless Worldwide has a number of partners collaborating on this project.

CWW’s multiterabit EPEG optical network will use Infinera’s Digital Optical Network solution, powered by Infinera’s DTN-X, which includes the latest 500 Gbps photonic integrated circuits (PICs). The Infinera DTN-X delivers 500 Gb/s FlexCoherent super-channels and is upgradeable to 1 Tbps super-channels in the future, providing scalability with investment protection. The platform integrates 5 Tbps of OTN switching which will enable CWW to efficiently converge layers of the network resulting in reduced capital and operational expenses. Furthermore, Infinera’s intelligent GMPLS automation software will enable CWW to rapidly provision highly-reliable low-latency services, including 100 Gbps Ethernet, making it highly competitive across the Europe to Asia route.

“We believe that the Europe Persia Express Gateway is an important international network development as it will be providing high capacity, diverse connectivity from the Middle East Region to Europe," said Rick Perry, vice president international planning at Cable&Wireless Worldwide. "Infinera's solution is helping to underpin that development."
  • In September 2011, Infinera introduced its third generation, 500 Gbps photonic integrated circuit (PIC) -- the foundation for its new DTN-X multi-terabit switching platform designed for scaling core networks. The 500 Gbps PIC integrates more than 600 optical functions and works by converting light waves into electrical circuits, which can then be switched and groomed with digital signal processing.

    The DTN-X combines three core functions-- a) a DWDM transmission system, offering 500 Gig super-channels based upon 100 Gig coherent channels, b) an OTN switch that scales from 5 Tbps non-blocking at ODU 0 today to 100-terabit non-blocking in the future; and c) a platform that can be upgraded to MPLS in the future.

    Infinera believes that these key innovations will lead to the next economic disruption in the network, as very large pools of bandwidth can now be easily created, directed and managed across a fiber network. The 500 Gbps super-channel capability is unique in the industry and Infinera plans to support 1 Tbps super-channels in the future with another new PIC which is already in the lab.

    The DTN-X combines PICs, custom ASICs and GMPLS software to deliver 5 Tbps of non-blocking, ITU G.709 Optical Transport Network (OTN) switching in a single bay for grooming traffic onto larger 100 Gbps and 500 Gbps pipes to maximize network utilization. Future iterations of the platform will be upgradeable to resilient multi-bay configurations providing 100 Tbps of non-blocking OTN and MPLS switching.

    The embedded GMPLS software provides automatic topology discovery an inventory management. It also enables point and click end-to-end service provisioning, as well as <50ms hardware based protection for mesh & ring configurations.

    The new DTN-X is interoperable with Infinera's existing DTN platform and is planned to support 10 Gigabit Ethernet (10 GbE), 40 Gigabit Ethernet (40 GbE), 100 Gigabit Ethernet (100 GbE), 10 Gbps SONET/SDH/OTN, 40 Gbps SONET/SDH/OTN, 100 Gbps OTN, 8/10 Gbps Fibre Channel, and multiple bit rate clear-channel interfaces.

Polatis Debuts 192x192 Optical Matrix Switch

Polatis, a start-up based in Andover, Mass., unveiled its new Series 6000 Optical Matrix Switch - a fully non-blocking, all-optical singlemode fiber cross-connect for up to 192x192 fiber ports with less than 1dB typical optical loss. The new optical switch could be used in a range of applications ranging from secure government communications to data center virtualization, broadcast video distribution, satellite RF/optical link management, network testing.

Polatis features a unique, patented DirectLight beam-steering technology which uses piezoelectric actuators to connect light directly between switch ports to achieve the best possible optical performance independent of the color, direction or power level of light on the fiber path.

The new Series 6000 doubles the maximum matrix size previously available from Polatis (96x96 ports). The modular design of the Series 6000 allows both symmetric (NxN) and asymmetric (MxN) matrix configurations as well as a versatile customer-configurable option allowing any-to-any fiber connections. The switch can also be used to enhance network availability by enabling fast automatic recovery from network equipment or fiber failures. The Polatis DirectLight technology allows optical connections to be established with or without light on the fiber, enabling pre-provisioning of dark fiber paths for disaster recovery, M:N protection switching, and intelligent network monitoring and test.

Production shipments commence in the second quarter of 2012.

Polatis is showing the switch at this week's OFC/NFOEC 2012 exposition in Los Angeles (booth #915).

VSG: 2011 Global Provider Ethernet LEADERBOARD

Vertical Systems Group published its 2011 Global Provider Ethernet Leaderboard, which ranks companies with four percent (4%) or more of retail business Ethernet ports installed at sites outside of the provider's primary home country.

The Leaderboard includes the following providers (in rank order based on port share): Orange Business (France), Verizon (U.S.), Colt (U.K.), AT&T (U.S.), NTT (Japan), Level 3 / Global Crossing (U.S.) and BT Global (U.K.).

"Global Ethernet providers continued to expand their fiber footprints throughout 2011. A strategic driver for expansion beyond their regional market boundaries is the emerging demand for secure global access connectivity to Cloud services," said Rick Malone, principal at Vertical Systems Group. "We also saw Europe's economic woes depress growth for the region's leading service providers, particularly during the second half of last year. As a result, Ethernet providers with a broad distribution of port installations throughout the world captured share from others that rely heavily on the pan-European market."

Deutsche Telekom Hits Top Speed of 512 Gbps in Single Wavelength

Researchers at Telekom Innovation Laboratories (T-Labs) announced a new record -- 512 Gbps in a single optical-fiber wavelength channel over a distance of 734 km (Berlin - Hanover - Berlin). Alcatel-Lucent served as the key technology partner.

Deutsche Telekom said the experimental system was tested in the real world conditions of its network.

Specifically, the Telekom OSIRIS (Optically Supported IP Router Interfaces) research project realized transmission at a speed of 512Gbps (400 Gbps usable bit rate) on a 100 GHz wavelength channel over a distance of 734 km, thus demonstrating a spectral sensitivity of 5 bits/s/Hz in the Deutsche Telekom network. The system used transmission technology with two carrier frequencies, two polarization planes, 16-QAM quadrature amplitude modulation and digital offline signal processing for the equalization of fiber influences with soft-FEC forward error correction decoding in the receiver. The WDM transmission link consisted of a total of 14 standard single-mode fiber sections with dispersion compensation as required for the neighboring conventional 10 Gbps channels.

NTT Com Launches Own Fiber Net in Indonesia

NTT Indonesia launched its own fiber-optic network service in the East Jakarta Industrial Park. The service, which uses a fiber-optic network constructed and managed by NTT Indonesia, enables multinational customers based in the industrial park to use high-quality, large-capacity fiber-optic access lines to connect to their global offices or global cloud platforms via NTT Indonesia’s nearest point of presence.

The company hopes to build, operate and maintain additional fiber-optic networks in other locations in Indonesia, including other industrial parks and office buildings.