Monday, July 16, 2012

Australia's NBN Sets FTTH Target for Towns with 1,000 Premises or More

NBN Co, which is building Australia’s national broadband network, lowered its target for areas that will receive FTTH rather than high-speed fixed wireless broadband.

NBN Co said it plans to install fibre in towns of 1,000 premises or more, or to some towns with as few as 500 premises where the town is located on an NBN fibre transit link. Previously, it was expected that fibre would be deployed in towns with a population of 1,000 or more (not premises).

The change is expected to lower the overall costs of the project as many smaller towns across the country will not receive fibre.

The National Broadband Network aims to reach 93% of premises by fibre, and the remaining seven percent via fixed wireless or satellite. 
http://www.nbnco.com.au 

Infonetics: Mobile Services to Hit $976 Billion by 2016

Infonetics Research is predicting that the mobile services market worldwide will grow to $976 billion by 2016, with the bulk of the growth coming from mobile broadband services.

The firm's latest 2G, 3G, 4G (LTE) Services and Subscribers: Voice, SMS/MMS, and Broadband report, which tracks operator subscribers and revenue derived from pre-paid and post-paid mobile broadband data, voice, and messaging services, finds that mobile broadband subscribers will grow from 15% to nearly 40% of all mobile subscribers between 2011 and 2016.

“The mobile world is undeniably shifting from voice to data, as mobile operators migrate as many subscribers as they can to data service plans and smartphones. Already in North America and Asia Pacific, mobile operators derive over 40% of their mobile revenue from mobile broadband and messaging. But, while mobile broadband is no doubt the fastest growing revenue stream for operators, mobile messaging and voice aren’t dead just yet, not by a long shot,” notes Stéphane Téral, Infonetics Research’s principal analyst for mobile infrastructure and carrier economics.

Téral adds: “The prophecies of doom for mobile operators’ SMS/MMS cash cow are being overplayed. Despite the popularity of over-the-top messaging applications like Apple’s iMessage and WhatsApp, our data shows SMS growing every year from 2012 to 2016, delivering a cumulative $1 trillion in operator revenue during those 5 years. And over that same period, voice revenue will decline only slightly, still making up a sizable chunk of operator revenues.”

Some other highlights:

  • On a global basis, Infonetics expects operators to see a 6% increase overall in revenue from mobile voice, mobile broadband, and mobile messaging services in 2012
  • The highest growth in 2012 will come from Asia Pacific and Latin America, while the EMEA region is expected to see a slight decline due to cutthroat competition and economic turmoil
  • Mobile data (text messaging, multimedia messaging, and mobile broadband) service revenue rose in every region in 2011, driven by an increase in smartphone usage At more than a quarter trillion dollars in 2011, Asia Pacific generates the largest portion of mobile service revenue
  • Voice revenue dipped 0.8% worldwide in 2011, despite the growing use of voice services in China.

Raytheon Develops MORPHINATOR Network Technology


The U.S. Army's Communications, Electronics, Research, Development and Engineering Center (CERDEC) has awarded a $3.1 million contract to Raytheon to develop technology for Morphing Network Assets to Restrict Adversarial Reconnaissance (MORPHINATOR). The aim is to dynamically modifying aspects and configurations of networks, hosts and applications in a manner that is undetectable and unpredictable by an adversary but still manageable for network administrators. MORPHINATOR is designed to be used in conjunction with other existing security devices to provide an active defense approach to information assurance.


Raytheon said the use cyber maneuvering techniques could thwart potential attackers in high-threat environments.


"The intent of cyber maneuver is to place computer network defense technology into a proactive state, thereby shifting the advantage away from the attacker," said Jack Donnelly, director of Trusted Network Systems for Raytheon's Network Centric Systems business. "By constantly changing the characteristics of the networks it resides on, MOPRHINATOR provides a more robust and trusted networking solution."

http://www.raytheon.com

Malaysian Operators Agree to LTE Infrastructure Sharing


Maxis , Malaysia's leading integrated communications service provider, and REDtone, a broadband service provider, signed an infrastructure and spectrum sharing agreement.


The deal paves the way to faster LTE roll out across Malaysia. Both Maxis and REDtone are looking to launch their 4G LTE services early next year in selected areas of the Klang Valley, with other regions to follow closely thereafter.


Maxis Chief Executive Officer, Sandip Das said, “We have been at the forefront of promoting networks to be shared as we have recently commissioned active network sharing on 3G with U Mobile. Data networks are onerous and have to be built carefully. The demand for data is not disputed, but the inflection point is some time away. Sharing will get REDtone up and running quickly and also fetch adequate returns on our investments, besides conserving spends at a national industry level. We are looking to set a new benchmark in data service quality as this will help us design a more effective infrastructure."


"The network sharing and alliance agreement with Maxis is a significant development for REDtone as we build on our broadband business. It will help to address REDtone’s rollout obligation to cover 50% of the country’s population," said REDtone Managing Director Dato’ Wei Chuan Beng. “For REDtone to comply with the 50% rollout requirement, our capex would have been RM390 million as is stated in our detailed business plan (DBP). However, this has been mostly replaced by riding on Maxis’ existing infrastructure and leasing the necessary capacity from Maxis,” added Dato’ Wei.


Maxis noted that it has invested RM3.7 billion in capex in the past three years resulting in 95% 2G and 81% high speed 3G coverage of the population. Maxis now has 3,400 of its 5,200 3G sites enabled with 42Mbps capability, and has also built the capability for efficient LTE rollout.


Sunday, July 15, 2012

Network Security in the Mobile Core: Port Scans to Mobile Devices

It’s no secret that the core of modern mobile switching networks is based on the Internet Protocol.  What’s interesting is that simple network attacks that have been largely mitigated at the data center are finding their way into the mobile core networks.  Two examples of this are port scans and TCP SYN floods from the Internet all the way through the mobile core and to the mobile devices themselves.  The scans have the side-effect of waking up thousands of smart phones at once, causing high CPU on the Radio Network Controllers (RNC) and Serving GPRS Support Nodes (SGSN). This in turn may lead to network congestion and even network outages. This article looks at how the mobile core architecture is susceptible to these attacks and suggests strategies for mitigation.

Running without Firewalls

Mobile switching networks are similar to a typical Internet data center with some interesting exceptions.  First, instead of servers at the back end, they have mobile clients (handsets).  While network traffic is typically initiated from those handsets toward the Internet, nearly all operators allow connections initiated from outside the mobile network to come in, for various reasons.  In one example, an enterprising downstream customer had turned a series of smartphone handsets into security cameras which he would rent out to his customers who then viewed them by initiating web connections from outside the network to the handsets themselves.  In that example, the handsets really are operating as little servers.
However, one very significant difference between a typical data center and a mobile network is that instead of there being thousands of servers, the mobile network has millions of handsets.  With 32% of these handsets being smartphones# capable of running multiple applications simultaneously, the number of concurrent connections that the network must support quickly climbs into the tens of millions.  Conventional network firewall technology does not readily scale at this level so many mobile switching networks have been running without them, developing new architectures along the way.

Flow of Network Attacks

A second significant difference is a much larger control plane in a mobile network versus a typical data center.  Control plane signaling is made up of policy control, the auditing of subscriber data and the mobility management of subscribers as they move from one location to another within their home network or roaming to another roaming partner’s network.  While the operator’s policy control and auditing architecture may be fairly modern, the mobility management infrastructure is often a rework of legacy equipment which frequently has scalability issues in today’s usage environment.
Consider the example of a subscriber’s handset in idle mode (PMM-Idle). When a connection initiated from the Internet enters the network addressed to the IP address of the handset, the SGSN will page for address in the last known routing area.  The RNCs servicing the routing area will also page for the handset and the size of the routing area can be as big as a very large city. When the handset is finally located, a signaling connection will be established between the handset and the SGSN. After this signaling procedure, the handset will be in connected mode (PMM-Connected) and at this time data can flow between the handset and the Internet. The overhead of this signaling procedure is what causes congestion in an operator’s network during an attack.
Table 1 - Control Plane response to single port scan packet in the dataplane
RNC Signaling Messages to locate an idle handset Signals Total
Paging messages 2 2
RRC Connection Setup 2 4
Security Function Setup 4 8
RAB assignment 4 12

Table 1 shows that to deliver packet data to an idle mode handset will require approximately 12 signaling messages in the RNC.

Effect of Network Attacks

A multiplier of 12 signaling messages per data connection doesn’t seem like so much overhead, especially when the connection may be long lived and have hundreds or thousands of packets within it.  The above example appeared to be slightly atypical in the sense that:
 

  • The handset was idle
  • A connection was coming to it from the Internet
As long as this case stays atypical, the signaling event overhead remains inconsequential.  But this is where the network attacks start to cause trouble.  Two common network attacks, port scans and SYN floods, both mimic incoming connections.  Port scans in particular use a range of destination IP addresses as they search for hosts, meaning that they will affect a different handset with each packet.
If a moderately sized port scan of 1,000 packets-per-second gets into the mobile network during busy hour from the Internet, it will trigger a cascade of additional 12,000 signaling messages per second to the RNCs as the network attempts to locate and connect handsets across the network.  SYN floods can have the same effect, but they are typically sent at much higher rates, though with fewer destination addresses.  Both attacks are extremely common and they move the example from the atypical to the pathological. If operators RNCs or SGSNs cannot scale to handle this type of attacks, it may lead to network congestion or outages. And even if these nodes are scalable, it would be unwise to waste precious and expensive radio resources to such attacks.

Solutions

In IPv4 networks, one method to solve these problems is use network-address-translation (NAT) technology to protect the traffic.  However NAT has its own set of disadvantages.  It is difficult to NAT tens of millions of connections, especially when operators are required to audit address changes.  Also, as networks move to IPv6, NAT is not an option and the handsets again become exposed to the Internet.
The scalability limitations of conventional firewall technology are forcing mobile operators to consider alternate mitigation methods of these attacks.  Some operators have talked about preventing connections coming into the mobile network from the outside, but they are finding that this stance is not acceptable to their subscribers or their internal managed services departments that are relying on incoming traffic to sell services downstream. As operators migrate to a new architecture where voice is data, connections initiated from outside the mobile network may be inevitable.
Other operators are finding new ways to configure a device already in their network to perform firewall services.  High-capacity application delivery controller (ADC) devices, for example, can use the tried and true technique of SYN cookies to defend against SYN flood attacks.  For port scans, the mobile network operators are using dynamic, programmable scripts on the ADC as whitelists against which to compare the incoming connections.

Conclusion

All mobile operators are moving to the new world of LTE, where everything, including voice, is network traffic.   This vision will still rely on radio networks and IP-based control planes that will still be vulnerable to network attacks.  More smartphones will translate to more concurrent connections, keeping conventional firewall technology out of the mobile network.  And, as the networks move towards an all-IPv6 model, network security will become an even greater challenge since 100% of all handset will be visible to the Internet and will be potential attack targets. Expect the current threat situation to project into the LTE environment and for network operators to continue to find more ways to squeeze better network security out of the high-capacity networking devices they already have. 

About the Autho
David Holmes, Technical Marketing Manager, F5 Networks
About the Company
F5 Networks, Inc., the global leader in Application Delivery Networking (ADN), helps the world’s largest enterprises and service providers realize the full value of virtualization, cloud computing, and on-demand IT. F5® solutions help integrate disparate technologies to provide greater control of the infrastructure, improve application delivery and data management, and give users seamless, secure, and accelerated access to applications from their corporate desktops and smart devices. An open architectural framework enables F5 customers to apply business policies at “strategic points of control” across the IT infrastructure and into the public cloud. F5 products give customers the agility they need to align IT with changing business conditions, deploy scalable solutions on demand, and manage mobile access to data and services. Enterprises, service and cloud providers, and leading online companies worldwide rely on F5 to optimize their IT investments and drive business forward. For more information, go to www.f5.com.
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Sprint Launches LTE in Five Cities

Sprint launched its first commercial LTE network services in Atlanta, Dallas, Houston, Kansas City, and San Antonio. More market launches are planned for later this year. By the end of 2013, Sprint expects to have largely completed the build out of its all-new 4G LTE nationwide network – with an enhanced 3G network – covering 250 million people across the United States.

Sprint said it will continue to offer an unlimited 4G data plan, setting itself apart from the other major competitors. Sprint’s Everything Data plan with Any Mobile, Anytime includes unlimited data, texting and calling to and from any mobile phone in America while on the Sprint network, is priced at $79.99 per month for smartphones.

According to a YouTube posted by the company, Sprint 4G LTE download speeds are expected to be in the 6-8 Mbps range with peaks of 25 Mbps. Upload speeds are 2-3 Mbps.

Sprint initially has five LTE devices for sale, all for under $200: HTC EVO 4G LTE ($199.99); LG Viper 4G LTE ($99.99); Samsung Galaxy Nexus ($199.99); Samsung Galaxy S III ($199.99 for 16GB version) and Sierra Wireless 4G LTE Tri-Fi Hotspot, the nation’s first to support 4G LTE, 4G WiMAX and 3G ($99.99).

The LTE services run over Sprint's new Network Vision platform. As of April 25th (Sprint's quarterly investor update), the company had approximately 600 Network Vision sites complete and on air. Zoning requirements were completed for approximately 9,700 sites and leasing agreements were completed for close to 7,700 sites. More than 3,200 sites were in notice to proceed status and work has started on approximately 3,000. Sprint said it expects to bring approximately 12,000 sites on air by the end of 2012 and to complete the majority of its Network Vision roll-out in 2013.



  • In May, Sprint Nextel announced a new $1 billion credit facility with Deutsche Bank and a syndicate of other banks to finance equipment purchases from Ericsson for Network Vision. The borrowers under the secured credit facility are all of Sprint’s subsidiaries that currently guarantee Sprint’s revolving bank credit facility, and the obligations will be secured by a lien on the equipment purchased from Ericsson in connection with Network Vision and guaranteed by Sprint.
  • l
  • Sprint's suppliers include Alcatel-Lucent, Ericsson and Samsung.

AT&T reduced the price of the Nokia Lumia 900 LTE Windows Phone by 50% to $49.99 with a new 2-yr wireless agreement with voice (min $39.99/mo) and min monthly data plan ($20/mo). The device was first launched on the AT&T network on April 8.

Last month, citing strong competitive pressure in smartphones, Nokia lowered its outlook for mobile device sales in Q2 and announced a number of restructuring initiatives as well as plans to aggressively cut prices if needed.

The Nokia Lumia 900 boasts a 4.3-inch AMOLED ClearBlack display and is powered by a 1.4GHz Qualcomm Snapdragon APQ8055 + MDM9200. It runs Windows Phone Release 7.5 – Mango Commercial Release 2 (Mango + LTE). Its 8 megapixel camera includes Nokia's exclusive Carl Zeiss optics, with large aperture (F2.2) and wide angle focal length (28mm).
http://www.att.com
http://www.nokia.com

Saturday, July 14, 2012

AT&T and Union Agree to One Year Wireline Contract Extension

AT&T and the International Brotherhood of Electrical Workers reached an agreement on a one-year contract extension covering nearly 7,000 core wireline employees. The agreement extends all terms of the current contract without modification until June 22, 2013. Most of the IBEW employees covered under the contract are members of IBEW Local 21 and are in Illinois and northwestern Indiana; the rest are spread across the country.
http://www.att.com

FBI Opens Criminal Investigation into ZTE Shipments to Iran

The FBI has opened a criminal investigation into whether ZTE shipped U.S.-made networking components and surveillance equipment to Iran.  According to various news sources, including Reuters, The Washington Post and The Smoking Gun, various documents have emerged, including a shipping manifest, related to a $130 million sales contract between ZTE and the Telecommunications Company of Iran.  Equipment reportedly includes systems from Cisco, Dell, Hewlett-Packard, Juniper, Microsoft, Oracle and Symantec.
http://www.thesmokinggun.com/documents/fbi-probes-zte-iran-deal-645912
http://www.washingtonpost.com/

Friday, July 13, 2012

Nationwide Public Safety LTE Demonstration Conducted by Harris


Harris conducted the first live, multi-state demonstration of 700 MHz Band LTE for first responders. Users at multiple sites across the United States tapped into the LTE network to share streaming video, voice, mapping and presence to support various simulated mission-critical surveillance operations.


Harris has provided 700 MHz Band LTE pilot programs to key public safety organizations including the Las Vegas Metropolitan Police Department and Miami-Dade Police Department. With these programs, officers there have been experiencing Harris’ LTE capabilities — such as presence, real-time video, mapping, data applications, and voice and messaging. In addition, Harris has Band 14 LTE Radio Access Networks (RAN) on the air and operating at its Chelmsford, Mass. location and in Rochester, New York. All the locations are connected to the Harris LTE core in Chelmsford.


The demo used the Harris BeOn application, which possesses the full feature set of Project 25.  Officers in Chelmsford coordinated the efforts of three vehicles simulating surveillance scenarios in the field. Chelmsford participants viewed the presence of remote users in Las Vegas, Miami-Dade and Rochester, as well as a streaming video feed from dash cams mounted on cars representing local public safety agencies.


Harris said this public safety LTE demo was the first of its kind – connecting “pilot” programs around the nation over 700MHz spectrum. This and ongoing “pilot” programs support public safety agencies’ exploration of the potential power of a nationwide LTE network – designated for emergency responders – while also helping to ensure that Harris network capabilities and equipment are field-tested to meet the future needs of emergency responders.
http://www.harris.com

SK Telecom Tests LTE-Advanced with eICIC, CoMP and CA


Credit SK Telecom Investor Presentation, May 2012
SK Telecom expects to be among the first mobile operators worldwide to commercialize LTE-Advanced in its network during 2013.

SK Telecom, in collaboration with Qualcomm and Nokia Siemens Networks, recently tested a core LTE-Advanced technology called 'Enhanced Inter-Cell Interference Coordination (eICIC) that coordinates signal interference between macro and pico base stations. eICIC is gaining importance as more and more micro base stations are being built in traffic concentrated areas to accommodate explosive data traffic growth, thereby aggravating inter-cell interference.

To demonstrate the technology, SK Telecom, Nokia Siemens Networks and Qualcomm created an environment where the strength of micro base station signals being transmitted to mobile devices was weaker than that of nearby macro base signals, resulting in signal interference. Then, they applied eICIC to prove that it can actually control the interference and stabilize data communications.

The companies also succeeded in showing that the technology is capable of offloading data traffic by adjusting the coverage of micro base stations based on the level of data traffic concentration in macro and micro base stations. As commercial base station equipment has been used for the demonstration, the companies are expecting to achieve early commercialization of eICIC.

SK Telecom noted that it now holds the record of demonstrating the three core technologies needed to usher in the era of LTE-Advanced: eICIC, Coordinated Multi-Point (CoMP) and Carrier Aggregation (CA). The company successfully demonstrated CoMP at Mobile World Congress (MWC) 2011 and CA at MWC 2012.

CoMP is a technology that prevents base station interference and abrupt call disconnections in coverage boundary areas by enhancing signal strength, the lack of which leads to a significant drop in data transmission speed, and CA is a technology that provides twice or faster data rates by utilizing multiple frequency bands at the same time.

SK Telecom expects to commercialize eICIC in the second half of 2013 to control signal interference and effectively offload data in downtown areas that experience heavy data traffic so as to provide customers with a mobile data service with greater speed and stability.

The company commercialized CoMP, for the first time in the world, in January 2012, after adjusting the technology to suit the current LTE system, and plans to achieve early commercialization of CA in the second half of 2013.

The operator will deliver LTE using both existing 800MHz frequency band (20MHz) and the 1.8GHz band (20MHz) it newly acquired last year. With an additional 20MHz uplink/downlink spectrum, it is now using a total of 40MHz for its LTE services. SK Telecom has launched a pilot service for multi-carrier in May 2012 and began full-fledged commercialization on July 1 to ensure a more stable and faster LTE service based on twice wider frequency bandwidth than its competitors. CA realizes data rates of up to 150Mbps by combining the speeds of 800MHz (75Mbps) and 1.8GHz (75Mbps) frequency bands.

SK Telecom is also working with Korea's Electronics and Telecommunications Research Institute (ETRI) to develop next-generation LTE technologies. 
http://www.sktelecom.com 12-Jul-12
  • In June, SK Telecom commercialized world's first LTE Femtocell to provide stable LTE call quality in underground, buildings and data traffic concentrated areas. With LTE Femtocell, customers can use high speed, premium quality LTE services anywhere, anytime.
  • In May 2012, Ericsson announced that SK Telecom, South Korea's largest operator, had signed a contract for LG-Ericsson to provide the LTE network including LTE RAN and Evolved Packet Core as well as support services including engineering, design, deployment and support services. The LTE radio access network will make use of Ericsson's Operation Support System for Radio & Core (OSS-RC) and RBS 6000 base stations. The contract, which covers commercial launch of LTE services in some of Korea's major cities - including Busan and Daegu, makes Ericsson one of the operator's main partners. Financial terms were not disclosed.
  • In January 2012, SK Telecom achieved the world's first commercialization of Advanced-SCAN (Smart Cloud Access Network), an upgraded version of SCAN, which has been developed to enhance LTE speed and coverage. Advanced-SCAN uses virtualization technology to ensure four times better call quality in base station boundary areas, thereby improving the overall LTE coverage and speed.

Thursday, July 12, 2012

ADTRAN Reports Tighter Carrier Spending in Q2

ADTRAN reported Q2 sales of $183,998,000 compared to $184,227,000 for the second quarter of 2011. Net income was $21,070,000 for the quarter compared to $36,943,000 for the second quarter of 2011. Earnings per share, assuming dilution, were $0.33 for the quarter compared to $0.56 for the second quarter of 2011. Non-GAAP earnings per share for the quarter were $0.38 compared to $0.59 for the second quarter of 2011.

ADTRAN Chief Executive Officer Tom Stanton stated, "Our results for the second quarter reflect a tightening spending environment. Total quarterly revenues grew 37% sequentially, with organic revenues (excluding the recently acquired NSN BBA business) up 20%, representing a flat year over year performance. Our Broadband Access category grew 38% (8% organic) over the same period last year. Our Internetworking category grew 6% over the same period last year. Total core products which include Broadband Access, Optical and Internetworking, grew 17% (flat organically) over the same period last year and now represent 84% of total revenues. Decreasing visibility leaves us cautious for the near term but we are confident that our strong customer alignment and increasing global footprint will deliver long term growth for the company."
http://www.adtran.com

Huawei USA Appoints Chief Security Officer

Huawei USA has appointed Donald A. (Andy) Purdy Jr. as its Chief Security Officer (CSO). He will oversee Huawei USA's cyber security assurance strategy and system, and support the global security system adopted by all of the company's business groups and departments, including R&D, supply chain, marketing and sales, project delivery and technical service. Mr. Purdy will be based in the U.S. and he will report to the Senior Huawei Representative to the U.S. and the Global Cyber Security Officer.
http://www.huawei.com

ViaSat to Supply Satellite System from Australia's NBN

 Australia's national broadband network has selected ViaSat to provide the ground-based communications, network management, and data processing systems for the Long Term Satellite Service component of its project.

The initial value of the contract is valued in excess of $240 million, which is expected to increase as the network is built out to reach up to 200,000 homes and businesses.

ViaSat will supply consumer satellite terminals, including broadband modems and antennas for Australian homes and businesses, and 13.5-metre diameter Ka-band satellite antennas for ten ground station gateway facilities across Australia. The contract award follows a comprehensive, two-year procurement process by NBN Co.

"The rollout of Australia's NBN is the most comprehensive broadband plan in the world and we are excited to deliver part of the satellite ground portion," said Mark Dankberg, chairman and CEO of ViaSat Inc. "We have long-shared the NBN Co vision of fiber-grade satellite network access. The work we do in Australia over the next three years will be pivotal in establishing the state-of-the-art in affordable, satellite broadband."
 
  • NBN Co. plans to launch two KA-band satellites in early 2015 at a cost of $620 million. The Long Term Satellite System (LTSS) Ka-band satellite service is then expected hit the market by the end of 2015.
  •  
  • In May 2011, NBN Co awarded a 10-year contract to Ericsson to design, build and operate a 4G fixed-wireless network. The deal is valued at up to AUS $1.1 billion. The fixed-wireless broadband network will deliver up to 12 Mbps downstream to locations not reachable by fiber.

Swisscom Tests Huawei’s Vectoring and G.fast DSL at 400 Mbps over 200m

Huawei has delivered a Giga DSLAM prototype to Swisscom.

Since April 2012, Huawei and Swisscom have been testing Huawei’s Vectoring and G.fast solution in a demo set-up in Riggisberg, near Berne. The companies report that with G.fast, over 400 Mbps at a distance of 200 meters can be achieved.

Huawei’s Giga DSL system employs time division duplex (TDD) to achieve a total upstream and downstream rate of 1000 Mbps over a single twisted pair. It also reduces radiation interference and power consumption, providing a total upstream and downstream rate of 1 Gbps within 100 meters, and 500 Mbps-plus within 200 meters.
http://www.huawei.com

NYSE Euronext Deploys ADVA's FSP 3000 WDM

NYSE Euronext has deployed ADVA Optical Networking's FSP 3000 WDM platform in its new Secure Financial Trading Infrastructure (SFTI) access center.
SFTI, owned and operated by NYSE Euronext, is a dedicated backbone for the securities markets and is used by the financial community for trading, market data and colocation access.
"The financial industry has some of the most demanding requirements of any in the network," commented Christoph Glingener, CTO at ADVA Optical Networking. "In this environment, customers need to know their mission-critical data is always safe, always accessible. There's no room for error. But success here isn't just about leading-edge technology, it's about collaboration, it's about developing a strong working relationship. This is something we've developed with NYSE Euronext and we’re looking forward to seeing the relationship grow."
http://www.advaoptical.com

NYSE Expands Direct Connectivity with Equinix Centers

NYSE Euronext (NYX) will build and operate a Secure Financial Transaction Infrastructure (SFTI) Access Center at the Equinix NY5 data center in Secaucus, New Jersey, providing customers within the Equinix facility with direct connectivity to SFTI and access to a range of financial markets, market data and post-trade services.

Along with the deployment in NY5, NYSE Euronext now has SFTI Access Centers inside six Equinix data centers in key markets around the world, including New York (NY1 and NY5), Chicago, Singapore, Frankfurt, and London. The addition of NY5 as a SFTI access center will offer customers in the facility reduced connectivity costs, enhanced performance and simplified trading architecture.

http://www.equinix.com

Wednesday, July 11, 2012

ECI Appoints Darryl Edwards as CEO

ECI Telecom has appointed Darryl Edwards as its new President and Chief Executive Officer.
Most recently, Mr. Edwards was the Chairman of MACH, and telecommunications advisor to Warburg Pincus. Prior to MACH, Mr. Edwards was the Chief Executive Officer of AIRCOM International and previous to this, he spent 17 years at Nortel Networks, where he held several executive positions rising to the position of President of Global Sales where he was responsible for revenues in excess of $10 billion annually.
http://www.ecitele.com

See also