Cisco's NCS Router Is Aimed at the Internet of Everything

 
 
By Jeffrey Burt  |  Posted 2013-09-24
 
 
 

Cisco's NCS Router Is Aimed at the Internet of Everything


Cisco Systems officials are launching a new networking platform aimed at helping service providers prepare for and address the expected explosion of Internet traffic brought on by the rapid growth of communications, not only between people and devices, but also between systems.

The networking giant’s Network Convergence Systems (NCS), introduced during a Webcast event Sept. 24, is designed to serve as a network fabric that helps converge not only networking devices as Cisco’s CSR core and ASR routers, but also the compute and storage systems as management platforms housed in service providers' massive data centers.

The end result will be service provider infrastructures that are more automated, flexible, scalable and cost-effective and can handle the expected surge of Internet traffic over the next several years, thanks to such trends as cloud computing, video, mobility and machine-to-machine (M2M) communications.

“It is allowing us to evolve existing service provider architectures into much more programmable and dynamic—almost autonomic—architectures,” Stephen Liu, director of service provider marketing, told eWEEK in an interview before the Webcast event.

This will become increasingly important as the industry moves into the Internet of Everything, where more things—from mobile devices to automobiles, appliances, industrial machines, health care systems and wearable computers—are connected to the Internet, generating a massive amount of communication between people, devices and machines.

Cisco CEO John Chambers has said the Internet of Everything—what other vendors call the Internet of Things—will be the next major transition in the technology industry, and that he believes his company has the breadth of technology and resources to become the key provider of the infrastructure backbone.

Cisco is predicting that by 2017, more than 1.4 zettabytes of data will be moving over the Internet. Cloud computing traffic will grow six times between 2011 and 2016, and by 2017, there will be 3 trillion video minutes per month on the Internet, Rob Lloyd, president of development and sales at Cisco, said during the Webcast. 3G and 4G broadband will account for 45 percent of all mobile Internet traffic by 2017, and M2M-driven “events” will reach into the trillions.

Being able to embrace and leverage these trends will help service providers take advantage of expected growth in a wide range of industries, from health care, which we will see grow to $30 billion a year, to manufacturing ($43 billion) and home technology ($120 billion), according to Cisco executives.

“Networks need to evolve,” by becoming more automated, scalable and distributed, Lloyd said. They need not only more bandwidth, but also more compute, storage and control capabilities to manage policies and program responses, all done faster, more reliably and more securely than can be done by humans, he said.

That’s where Cisco’s NCS comes in, he and other executives said. The three platforms within the NCS—the NCS 6000, 4000 and 2000—are all powered by Cisco’s new nPower X1 silicon, which was introduced Sept. 12 and holds more than 4 billion transistors, can offer multi-terabit levels of performance and handle trillions of transactions. Cisco also is putting the new networking chip into the CRS-X router.

Cisco's NCS Router Is Aimed at the Internet of Everything


The NCS system can handle petabits of data and can support trillions of events across a connected fabric, enabling it to move the entire Netflix library in less than a second. It converges IP and optical networks and can integrate with the Unified Computing System (UCS), Cisco’s converged data center offering and the company’s Dynamic Fabric Automation capabilities. This enables the NCS to dynamically direct data center and networking resources as needed, according to Cisco executives.

The system also leverages Cisco’s Prime and Quantum solutions to enhance its virtualization capabilities, making it easier and faster for service providers to ramp up or down their networking and compute resources as needed. If one part of the network can’t scale any further, the NCS moves control responsibilities to the UCS servers.

The NCS also can work with Cisco’s Open Networking Environment (ONE) Service Provider Architecture, which offers software-defined networking (SDN) and network-functions virtualization (NFV), which further helps with network scalability and programmability and helps reduce the overall total cost of ownership by 45 percent and power consumption by 60 percent.

The NCS 6000, which is shipping now, includes what Cisco officials said is the industry’s first 1-terabit-per-second line card and can transport up to 1.3 petabits per second per system. The NCS 2000 also is available immediately, while the NCS4000 will ship in the first half of 2014.

Cisco is looking to beat other vendors—such as Juniper Networks and Huawei Technologies—in building out the infrastructure for the Internet of Things. In addition, a range of other vendors—from IBM and Microsoft to Intel and Advanced Micro Devices—are also looking to make moves in the space. Intel executives at their Intel Developer Forum this month introduced a new line of low-power systems-on-a-chip (SoCs), called “Quark,” that will be smaller than the Atom platform and will be aimed at such areas as the Internet of Things and wearable devices.

Given the potential market, that makes sense. Cisco executives are predicting the businesses worldwide could see as much as $14.4 trillion in profits connected to the Internet of Things by 2020, and already have seen more than $613 million this year.

 

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