Gaganpreet Singh

UPF isolation in 5G validates user-plane efficiency by simulating gNB and SMF traffic over N3/N4. Learn how LoadCore enables accurate, scalable, and secure testing.

UE–gNB simulation in 5G validates network performance by emulating user devices, access nodes, and core functions. Learn how LoadCore ensures accurate end-to-end testing.

SBA Node Isolation in 5G separates PCF, AUSF, and UDM functions, enhancing security, scalability, and reliability in telecom networks.

Node isolation in 5G Core networks separates AMF, SMF, and UPF functions, ensuring reliability, scalability, and secure service delivery for modern telecom.

AMF, SMF, and UPF isolation in 5G core ensures better scalability, reliability, and performance for telecom operators and enterprise networks.

5G network slicing and virtualization transform telecom by enabling application-specific networks for eMBB, URLLC, and mMTC with agility and efficiency.

Mapping 3GPP 5G specifications to testing architecture ensures reliable 5G deployments by aligning spectrum, RAN, core, and services with real-world performance.

A 5G network is built on four major components—User Equipment, Radio Access Network (RAN), Edge, and Core—that work together to deliver high speed, low latency, and massive IoT connectivity.

Fusion Architecture integrates real-time data collection, performance monitoring, SDN control, and analytics to automate and optimize modern telecom networks.

Fusion Architecture enables telecom networks to unify testing, performance monitoring, and automation with real-time data collectors, SDN controllers, and vAgents.