BELMONT, Calif., April 17, 2012 /PRNewswire/ -- Vyatta, the leader in software-based networking for virtual and cloud environments, today introduced Vyatta vPlane™ technology, a highly scalable forwarding plane for next-generation enterprise and cloud network designs.
Delivering a combination of extraordinary speed and flexible deployment models, Vyatta vPlane's fast-path architecture is poised to radically improve the cost and capabilities of networks for virtualized datacenters.
"With the introduction of vPlane technology, Vyatta is delivering a next-generation distributed software networking environment that is capable of an order of magnitude better performance than our previous generation software on the same off-the-shelf hardware," said Robert Bays, CTO of Vyatta. "In leveraging the vPlane technology in our product roadmap, Vyatta will deliver exciting new solutions that enable virtualized datacenters to handle rapidly-growing, complex traffic problems."
The migration of mission-critical enterprise applications to virtualized environments is producing a perfect storm of networking challenges. The resulting application density and multi-tenancy environments are creating traffic patterns that traditional Layer 3 infrastructure is ill-equipped to address due to inflexibility, cost and throughput limitations.
Leveraging the new fast-path architecture on an Intel Westmere-class system, Vyatta vPlane is capable of delivering more than 8 million packets per second per core(1), more than a 10x improvement over Vyatta without vPlane. Additionally, since vPlane scales linearly with the addition of cores, an entire Westmere system can deliver 35 million packets per second in only a single rack-unit of datacenter space.
The benefits of vPlane technology are many, including:
- Packet throughput matching the new era of 10Gb/s virtualized servers
- Physical decoupling of software forwarding plane from control plane
- Full interoperability with existing network infrastructure
- Ability to accommodate new and emerging standards such as OpenFlow
"Vyatta continues to reaffirm its position at the leading edge of the virtualization explosion that is shaping the evolution of networking," said Kelly Herrell, CEO of Vyatta. "Vyatta's vPlane technology represents a giant leap forward in the continued progression of virtual networks toward software-defined networking."
The first Vyatta products to take advantage of vPlane technology are in testing today and expected to be available later this year.
Eric Hanselman, Research Director, Networks - 451 Research
"Network virtualization is solving some thorny interconnection problems, but also faces challenges in functionality and scalability. Vyatta's vPlane architecture distributes core network functions to allow scaling of both forwarding and control capacity. It could significantly increase the performance of virtualized networks. vPlane's decoupled design holds promise in addressing some of soft switching's tougher problems."
- About Vyatta vPlane: www.vyatta.com/technology/vplane
- Press Release: www.vyatta.com/news-events/press_releases/2012/introducing-vyatta-vplane
- Kelly Herrell Blog: www.vyatta.com/content/vplane-scaling-virtualized-network-world
Vyatta is disrupting the networking industry by delivering a software-based network operating system that leverages cost-effective x86 servers as well as common virtualization and cloud computing platforms. Vyatta software provides a complete enterprise-class routing and security suite capable of uniquely addressing the next-generation infrastructure requirements of flexibility, on-demand delivery and platform independence. Thousands of physical and virtual infrastructures around the world, from small enterprise to Fortune 500 customers, are connected and protected by Vyatta. For more information, please visit http://www.vyatta.com. Read Vyatta CEO Kelly Herrell's Blog "Opening the Networking Industry" and follow Vyatta on Twitter: @Vyatta.
(1) Performance figures are based on lab tests using Intel Westmere technology. Vyatta vPlane can run on most Intel CPUs and Intel NICs. Packet throughput is for L2/L3 forwarding on 64-byte packets.
Tim Wieland – (248) 304-1414
Jyotsna Grover – (650) 691-7308