NEW DELHI: US company, Ruckus Wireless has said that it has launched industry's first virtual data plane for wi-fi that segregates data traffic from control traffic on large wireless networks.
Carriers and enterprises will now have maximum flexibility in network deployments, installing multiple data flow managers across a distributed network to help optimize cost and performance based on user demands.
The new software – called Virtual SmartZone Data Plane (vSZ-D) – works with Ruckus’ Virtual SmartZone controllers, which provide a software-based system for managing wireless networks.
"Virtual SmartZone has built strong market momentum in just one year, with more than 700 customers in production networks – managing more than 200,000 access points. Virtual SmartZone is an early highlight in the industry’s network functions virtualization (NFV) movement, which encapsulates key network functions in software that can run on industry-standard hardware," a statement said.
“Separating control and data traffic delivers significant flexibility, cost and performance advantages for networks that support thousands of devices and access points,” aid Greg Beach, vice president of product management at Ruckus.
"Virtual SmartZone Data Plane provides a flexible, cost-effective approach to aggregate and tunnel end-user data for specific application or security policy needs. Tunneling traditionally drives up cost and lowers performance, requiring expensive physical controllers to be replicated at each site – while increasing hardware and labor costs as the network grows," it said.
By contrast, vSZ-D distributes the workload across multiple, inexpensive systems – requiring only a single controller instance along with inexpensive vSZ-D deployments at remote sites. Data also moves faster because it can bypass the controller with only incremental impact on each site.
Functionally, the vSZ-D is manageable by the Virtual SmartZone controller, while enabling independent scaling of control and data planes.
Multiple vSZ-D instances can be deployed at distributed sites – or an instance can be deployed centrally, helping to afford maximum network design flexibility. The NFV-based design eliminates deployment limitations due to physical computer hardware and geographic location.