Radware® (NASDAQ: RDWR), a leading provider of cyber security and application delivery solutions ensuring optimal service level for applications in virtual, cloud and software defined data centers, has announced today that its application delivery controller, the Alteon® NG VA, can perform beyond 200Gbps in a single software-based instance." />

Radware Virtual ADCs Make High Capacity Load Balancing in an NFV Infrastructure a Reality


BARCELONA February 22, 2016 02:00 PM

For the first time mobile operators, telcos and internet service providers can manage more than 200Gbs capacity in a truly virtual NFV environment without the need to compromise their move to the cloud or quality of service experienced by customers

Radware® (NASDAQ: RDWR), a leading provider of cyber security and application delivery solutions ensuring optimal service level for applications in virtual, cloud and software defined data centers, has announced today that its application delivery controller, the Alteon® NG VA, can perform beyond 200Gbps in a single software-based instance. The tests have proved that for the first time mobile operators, telcos, and internet service providers will be able to maintain the Network Functions Virtualization (NFV) architecture they have adopted for faster network provisioning, and still meet the bandwidth demands of customers.

Mark McIlvane, Corporate VP Global Carrier Sales & Business Development and Sales for Radware explained the significance. “Mobile carriers introduced Network Functions Virtualization in 2012 as a way to make network and service provisioning faster and more flexible while reducing the total cost of ownership. But one of the challenges when designing an NFV infrastructure is load-balancing capacity. In other words, telcos are always grappling with how they cope with the volume of consumers making requests to the network.

“This is because the virtual network in effect becomes a software-based platform running on off-the-shelf hardware. While this brings great benefits in terms of being able to scale the network and become more agile, it also means that resources need to be pooled so that the capacity in the hardware is maximized. Until now, telcos have had to compromise customer service, or the pace at which they move vital applications to the cloud in order to keep service levels consistent. But that needn’t be the case anymore as we’ve now proven that with our load balancing application delivery controller it’s possible to run an NFV architecture at an optimum, unlock the potential of the cloud, and manage 200Gbps in a single virtualized software instance.”

Radware is partnered with Hewlett Packard Enterprise in their OpenNFV Partner Ecosystem, Radware’s Alteon NG VA for NFV is available on the HPE OpenNFV Platform.

“Radware is a key partner in our agile and open NFV ecosystem,” said Werner Schaefer, VP Sales & GTM, Communications Solutions Business, Hewlett Packard Enterprise. “HPE’s OpenNFV Platform requires carrier-grade performance and functionality.  Radware’s Alteon NG VA for NFV solution delivers unmatched ADC functions and performance when running on HPE’s Gen9 servers.  The ability to scale beyond 200Gbps in a single ADC instance is essential to enabling the full value of our NFV architecture.”

McIlvane, added, “With our industry leading 200G NFV ADC instance, telcos can now accelerate their transition from hardware to the cloud to create more agile, flexible workloads for their highest scale and most valuable applications. The development reconfirms our commitment to driving innovation in this field and we’ll continue to support the NFV initiative and standards being built around the architecture.”

To learn more about Radware’s AlteonNG VA for NFV, please visit https://www.radware.com/Products/Alteon-VA-NFV/ or you can read Radware’s NFV ebook here.

Radware is also available at Mobile World Congress Booth #2E46 for interviews and information.

About Radware

Radware® (NASDAQ: RDWR), is a global leader of application delivery and cyber security solutions for virtual, cloud and software defined data centers. Its award-winning solutions portfolio delivers service level assurance for business-critical applications, while maximizing IT efficiency. Radware’s solutions empower more than 10,000 enterprise and carrier customers worldwide to adapt to market challenges quickly, maintain business continuity and achieve maximum productivity while keeping costs down.  For more information, please visit www.radware.com

Radware encourages you to join our community and follow us on: Facebook, Google+, LinkedIn, Radware Blog, SlideShare, Twitter, YouTube, Radware Connect app for iPhone® and our security center DDoSWarriors.com that provides a comprehensive analysis on DDoS attack tools, trends and threats.

©2016 Radware Ltd. All rights reserved. Radware and all other Radware product and service names are registered trademarks or trademarks of Radware in the U.S. and other countries. All other trademarks and names are property of their respective owners.

Safe Harbor Statement

This press release may contain statements concerning Radware’s future prospects that are “forward-looking statements” under the Private Securities Litigation Reform Act of 1995. Statements preceded by, followed by, or that otherwise include the words "believes", "expects", "anticipates", "intends", "estimates", "plans", and similar expressions or future or conditional verbs such as "will", "should", "would", "may" and "could" are generally forward-looking in nature and not historical facts. For example, when we say “With our industry leading 200G NFV ADC instance, telcos can accelerate their transition from hardware to cloud” we use a forward-looking statement. Because such statements deal with future events, they are subject to various risks and uncertainties and actual results, expressed or implied by such forward-looking statements, could differ materially from Radware's current forecasts and estimates. Factors that could cause or contribute to such differences include, but are not limited to: the impact of global economic conditions and volatility of the market for our products; changes in the competitive landscape; inability to realize our investment objectives; timely availability and customer acceptance of our new and existing products; risks and uncertainties relating to acquisitions; the impact of economic and political uncertainties and weaknesses in various regions of the world, including the commencement or escalation of hostilities or acts of terrorism; Competition in the market for Application Delivery and Network Security solutions and our industry in general is intense; and other factors and risks on which we may have little or no control. This list is intended to identify only certain of the principal factors that could cause actual results to differ. For a more detailed description of the risks and uncertainties affecting Radware, reference is made to Radware’s Annual Report on Form 20-F which is on file with the Securities and Exchange Commission (SEC) and the other risk factors discussed from time to time by Radware in reports filed with, or furnished to, the SEC. Forward-looking statements speak only as of the date on which they are made and, except as required by applicable law, Radware undertakes no commitment to revise or update any forward-looking statement in order to reflect events or circumstances after the date any such statement is made.  Radware’s public filings are available from the SEC’s website at www.sec.gov or may be obtained on Radware’s website at www.radware.com.

Contact Radware Sales

Our experts will answer your questions, assess your needs, and help you understand which products are best for your business.

Already a Customer?

We’re ready to help, whether you need support, additional services, or answers to your questions about our products and solutions.

Locations
Get Answers Now from KnowledgeBase
Get Free Online Product Training
Engage with Radware Technical Support
Join the Radware Customer Program

Get Social

Connect with experts and join the conversation about Radware technologies.

Blog
Security Research Center
CyberPedia