5g

Explore the NFV architecture in detail—from virtual infrastructure and VNF layers to MANO orchestration and SDN integration—powering flexible telecom networks.

Explore the SDN architecture in detail—understand its layered design, interfaces, control mechanisms, and orchestration integrations tailored for telecom and enterprise networks.

Explore the intricate layers of 5G physical infrastructure—from edge clouds and SDN controllers to mmWave and local RAN components—enabling ultra-reliable, low-latency connectivity.

CU Virtualization enables scalable, flexible deployment of 5G networks by separating control and user planes into containerized components on COTS infrastructure.

Explore LTE to 5G migration paths: from legacy EPC in LTE to NSA and SA options with 5G Core. Understand control/user planes, signaling links, and deployment choices.

Red Hat’s Upstream First model bridges 1M+ open-source projects and enterprise platforms, transforming community innovation into reliable commercial solutions.

Explore Red Hat’s Upstream First development model—where open-source community projects evolve into stable enterprise solutions, fostering innovation and scalability.

Discover how CU/DU split architecture optimizes inter-gNB handover in 5G networks, minimizing signaling, avoiding RRC/PDCP anchor changes, and eliminating traffic forwarding.

Explore how independent scaling of Control Plane (CP) and User Plane (UP) in 5G enables network optimization for diverse services like mMTC and FWA.

Discover how flexible CU-UP deployment enables efficient 5G service delivery by placing user plane functions at central or local sites for eMBB and URLLC needs.