F5 BIG-IP Next CNFs enable a cloud-native solution that is secure, automated, and scalable, critical for the transition to 5G networks.
CNF solutions are the perfect form factor for those looking to move workloads to a cloud-native architecture. Great for mobile service providers implementing 5G, or for fixed-line and cable service providers who are deploying data centers and adopting multi-access edge compute solutions. Large technology companies and enterprises looking to securely deploy revenue-generating apps in a Kubernetes based microservices architecture will also benefit from BIG-IP Next CNFs.
An increasing threat surface, lack of fixed perimeters, increasing volumes of sensitive personal data, and accelerated app and code release cycles make security more challenging. BIG-IP Next Edge Firewall CNF is based on a proven and industry acknowledged security place leader, AFM, with its unique, application-centric design.
A Helm chart with an F5 configuration is sent to the API server on the Kubernetes Control Plane Node. The F5 BIG-IP Controller will deploy the new configurations to the F5 components on the worker nodes and traffic can be sent through the network.
Firewall, DDoS, and Intrusion Prevention System (IPS) technology based on F5’s highly successful Advanced Firewall Manager.
Enable DNS caching and reduce DNS latency up to 80%.
Ease IPv6 migration and improve network scalability and security with IPv4 address management.
Improve QoE and ARPU with tools like traffic classification and subscriber awareness.
Increase performance by offloading functionality to FPGAs or to Intel SmartNICs.
Offload SSL processing, deploy application delivery and security services anywhere, and protect your applications against the most prevalent attacks.
CNFs include native IPv6 and telco protocol support.
A native Kubernetes API is extended with CRDs to ensure F5 products can be configured properly.
Watch F5 senior leaders and Heavy Reading Research Director Jim Hodges discuss the evolution to cloud-native network functions (CNFs) during this on-demand webinar.