DDoS Detection, Mitigation, Orchestration, and Threat Intelligence
Consolidated Security & CGNAT
TLS/SSL Inspection
Web Application Firewall
Application Security & Load Balancing
Analytics & Management
CGNAT & IPv6 Migration
Our IP connectivity solutions include carrier-grade NAT (CGNAT) and IPv6 migration technologies that preserve IPv4 infrastructure, expand IPv4 address capacity and provide a seamless, efficient path to full IPv6.
With the exponential growth of subscribers and connected devices, service providers have been investing in infrastructure to support increasing traffic growth while implementing new services to attract new subscribers and increase revenue.
Service providers need definitive ways to address the growing demand for IP connectivity while preserving their existing IPv4 investments. As they prepare to migrate to IPv6, they need to ensure a smooth transition and overcome the compatibility issues with the older IPv4 protocol.
While IPv6 brings forth many advanced capabilities—in addition to a very large address space—it is not backward compatible with IPv4. A successful migration from IPv4 to IPv6 requires careful planning to ensure that all the end-user devices, application servers, and existing network elements continue to operate seamlessly.
CGNAT systems and IPv4 transition mechanisms need to maintain high throughput, connections per second, concurrent connection rates, and more, at consistent carrier-grade levels. Sustaining growth will help reduce customer churn and avoid increased customer acquisition costs.
A10 Thunder CGN provides the highest performance and scalability, the most comprehensive IPv6 transition options and the broadest range of form factors and capacities to meet the requirements from the largest service provider networks to smaller organizations.
Industry-leading advanced carrier-grade network address translation scales networks to overcome IPv4 exhaustion with NAT44(4) and ALGs to support network growth and seamless user experiences
Manage the IPv6 transition lifecycle with translation and tunneling protocols, such as NAT64/DNS64, DS-Lite, Lw4o6, 6rd, MAP-T and MAP-E
Integrated distributed denial of service (DDoS) protection ensures IPv4 address pools remain available while under DDoS attack.
Shentel Communications is the sixth largest public wireless company in the U.S., operating a digital wireless and wireline network in rural Virginia, West Virginia, Maryland and Pennsylvania. Harris Duncan, VP of Network Engineering at Shentel discusses their utilization of A10 Thunder CGN, which has allowed the company to better manage its IPv4 exhaustion problem without the need to buy IPv4 addresses on the open market.
