In a blog post last week, Cisco cited its recent landmark 100 Gbps IPoDWDM trial with BT, which demonstrates ways to create a Next-Generation Internet, one that can handle a million minutes of video every second without having to trench new fiber or dig up streets. However, there is more behind this story because faster alone doesn’t represent a complete solution to the enormity of the challenge facing network operators. Carriers such as BT need the solution to be bigger, stronger, and smarter.
Take for example, the complexity of traffic flows. To a basic user, the Internet “Information Superhighway” of yesteryear had essentially one on-ramp and one off-ramp. Traffic traveled largely in a very straightforward pattern. Due to the growing popularity of mobility and cloud computing, traffic is quickly becoming multidirectional. According to Cisco’s recent Visual Networking Index (VNI) forecast, the mobile Internet will increase 18-fold by 2016 and cloud services will expand 12-fold by 2015. What’s more, VNI research indicates that by 2016 there will be nearly 19 billion global network connections. That’s 2.5 connections for every per person on earth!
To keep up, service providers must deploy networks that are more elastic to more easily grow and keep pace with these shifts. Like exercise, these innovations are vital for the heart of the Next-Generation Internet, the service provider core network. Today we announced several innovations for the Cisco Carrier Routing System (CRS) to Read More »
Many years ago, when Cisco first began preaching the virtues of network intelligence, only the ardent technophiles – the customers we love the most – seemed to pay close attention.
How times have changed.
The continuing explosion in IP traffic and the proliferation of connected devices and applications is dramatically transforming network traffic patterns, making network intelligence more important than ever.
Cisco’s continuous innovation in network architectural intelligence continues to pay off:
ACG’s 1Q2012 market share report was recently released, and Cisco grew its No. 1 position in the edge and core routing segments: Cisco has gained core routing market share in seven straight quarters (and 12 of the last 13 quarters), and edge routing market share four of the last five quarters.
Consider this: The CRS-3 has achieved $1 billion in total orders, with nearly 200 customers and almost 3,000 systems shipped, in just a year and a half. In total, Cisco has over 460 total CRS customers.
Cisco’s architectural approach enables the best delivery of video and mobility through leveraging the network intersection points of the cloud, network, and client. This architectural approach has given Cisco the ability to play many roles in the network, giving us access to where all the intelligence resides. No other company can compare to the amount of presence and intelligence we have in the network.
Innovations such as nV (network virtualization) technology, which intelligently blends the network edge, aggregation and access layers into a single ASR 9000 system, deliver up to 70 percent operational expense savings, increase network capacities and accelerate IPv6 service deployments. Therefore we’re addressing our customer’s most important business concerns by:
Lowering capex through simplifying their network
Lowering opex through scaling their network for operational efficiencies
Increasing revenue through enabling them to leverage network intelligence
We are pleased with our consistent performance over time despite the very competitive nature of the service provider routing market, and with our culture of continuous innovation we are confident in our ability to be the partner of choice for global service providers in helping them where it matters most – their bottom lines.
Few scientists know more about the condition of planet Earth than those who work within the American National Oceanographic and Atmospheric Administration (NOAA.) There, it’s all about the science of climate – from the surface of the sun, to the bottom of the oceans, and to the clouds in the sky.
For NOAA, every day is Earth Day.
This Sunday, on the official Earth Day, NOAA will host educational events all over the nation. Meanwhile, back in the labs, its scientists and researchers continue to work out what it takes to predict changes in climate, weather, oceans, and coasts.
Why is Cisco talking about a government agency such as NOAA, and its Earth Day intentions? Because there’s a network angle in here, of course. At Cisco we know a lot about clouds, as in Cloud Networks. Cloud networking is more than just storage and compute – you’ve got to have a network in there as well.
One of the newer resources NOAA scientists are tapping into these days is a high performance computing network it calls “n-wave.” Its purpose is to efficiently and cost-effectively link data sources – meaning internal NOAA scientists and researchers, as well as external partners – with data and computing resources.
How much bandwidth do NOAA scientists need? Try 80 to 100 Terabytes, per day – a volume that filled its existing 10 Gbps network, all day long, no downtime, explains Jerry Janssen, Manager of NOAA’s n-wave network, in this video about the agency’s vision for a 100-Gig-capable network.
The end-of-year holiday season is traditionally positioned as a chance to slow down and re-charge, but Cisco’s industry-leading products for service providers didn’t get the memo. Their momentum continued unabated.
Just two days before Christmas, Cisco announced that Dutch service provider KPN has chosen the Cisco CRS-3 multi-chassis carrier routing system, which will be deployed at the heart of KPN’s Internet peering network. The CRS-3 solution will transport all of KPN’s IP traffic to the Internet as part of KPN’s Internet Cluster Environment (ICE).
Not long before, Verizonannounced that its IP network, one of the most advanced communications networks in the world, will be upgraded in the first half of 2012 with the Cisco CRS-3 to enable new services and meet growing traffic demands in several key U.S. markets, including Atlanta, Boston, Chicago, Dallas, Los Angeles, New York and Seattle.
As for the ASR 9000 edge routing system, Fibrenoire, a service provider offering Internet and private network services over an optical fiber network in Quebec and Ontario, has completed implementation of an end-to-end Cisco Carrier Ethernet System covering the Quebec City, Montreal and Toronto regions. Fibrenoire’s network is based on the ASR 9000.
Additionally, Next Communications, a Miami-based voice and video provider, has deployed Cisco technology for its IP Next-Generation Network. Integral to this will be deployment of the ASR 9000 and ASR 1000 routers for 100GE port capacity and greater resiliency.
Cisco and US Signal, a leading provider of regional transport, data center and Internet Protocol (IP) services, announced successful completion of the first 100 Gigabit (100G) coherent DWDM trial based on the industry-leading performance of the ONS 15454.
Today Verizon announced that its IP network, one of the most advanced communications networks in the world, will be upgraded in the first half of 2012 with the Cisco CRS-3 to enable new services and meet growing traffic demands in several key U.S. markets, including Atlanta, Boston, Chicago, Dallas, Los Angeles, New York and Seattle.
Once deployed, the CRS-3 will enable more efficient and quicker access in delivering traffic to Verizon’s wireline and wireless consumers. The CRS platform is also critical for Verizon’s network evolution strategy to IPv6, the new Internet addressing system, by providing the flexibility to support the anticipated wave of IPv6 services while continuing to expand and sustain IPv4 services.
Verizon to Upgrade FiOS Network with Cisco CRS-3
We are hearing more and more from our service provider customers that they need a more intelligent and robust foundation to support explosive traffic growth driven by video, mobile and cloud services. In fact, werecently announced in our Global Cloud Index that global data center traffic will grow 4-fold at a 33 percent CAGR to reach 4.8 zettabytes annually by 2015.