Private 5G On-Premise
Product Overview: Private 5G On-Premise delivers a complete, self-contained 5G network deployed entirely within your facilities. From gNodeBs to the 5G Core to the AI control panel — everything runs on your edge servers, ensuring zero data leaves your premises.
Why On-Premise?
For enterprises in manufacturing, defense, ports, and healthcare, data sovereignty and ultra-low latency are non-negotiable. A cloud-dependent architecture introduces unacceptable risks: internet dependency, data residency compliance gaps, and latency unpredictability.
Private 5G On-Premise eliminates these risks by deploying:
- Dedicated gNodeBs (O-RAN) — CU/DU/RU disaggregated architecture with Near-RT RIC for AI-driven optimization
- Edge 5G Core — AMF, SMF, UPF, UDM running on local edge servers with sub-10ms user-plane latency
- AI Control Panel — Full FCAPS management, real-time telemetry, network slicing, subscriber management, and alarm correlation
- Complete Data Sovereignty — All control plane and user plane traffic stays within your facility perimeter
Deployment Architecture
| Component | Deployment | Specification |
|---|---|---|
| Radio Units (RU) | Ceiling/wall-mounted across facility | n78 (3.5 GHz) / n77, 4T4R MIMO, DAS-compatible |
| Distributed Unit (DU) | Edge server room | L1/L2 processing, DPDK-accelerated, <1ms fronthaul latency |
| Central Unit (CU) | Edge server room | RRC/PDCP, Xn interface management, handover coordination |
| 5G Core | On-premise Kubernetes cluster | AMF, SMF, UPF (DPDK), UDM, NSSF — fully containerized |
| Near-RT RIC | Co-located with CU | xApps: load balancing, handover optimization, interference mitigation |
| AI Control Panel | On-premise server | Django + HTMX, real-time dashboards, RBAC, multi-site management |
Key Features
- Network Slicing — Create and manage eMBB, URLLC, MIoT, and custom slices with per-slice QoS enforcement (SST/SD/5QI)
- Real-Time Telemetry — RSRP, RSRQ, SINR, CQI per UE, per cell, per slice — updated every second
- Subscriber Management — IMSI/SUPI provisioning, SIM lifecycle, device grouping, and policy assignment
- Alarm Correlation — AI-driven FCAPS fault management correlates RSRP drops + CQI degradation + BLER increases into actionable root causes
- Zero-Touch Provisioning — New gNodeBs auto-register, auto-configure, and enter service without manual intervention
Ideal For
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Manufacturing — AGV control, robotic arms, predictive maintenance
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Defense — Classified communications, tactical edge networks
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Healthcare — Remote surgery, patient monitoring, hospital IoT
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Ports & Logistics — Crane automation, container tracking, V2X
Result: On-premise deployments achieve 99.7% intra-gNB handover success, sub-8ms user-plane latency, and complete regulatory compliance — with zero cloud dependency.