CoreNet is an advanced IP network management platform engineered exclusively for Packet Core teams operating in high-demand 4G EPC and 5G SA environments. It goes beyond traditional IPAM — delivering real-time configuration auditing, conflict detection, and intelligent subnet management.
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Provide specialized software solutions for telecommunications networks with a focus on core network IP management, multi-vendor support, network expansion guidance, and IP conflict detection. We deliver all related IP tools that improve core network engineer work efficiency. Our commitment is to eliminate complexity, enhance engineer efficiency, and ensure that every IP tool delivered is not a generic solution, but a precise fit for the networks we serve.
Traditional IPAM tools cater to generic ISP needs. CoreNet was developed from the ground up with direct input from Packet Core engineers. It specializes in extracting real-time IP assignments by analyzing configuration files from user-plane core nodes, reconstructing network topology, and performing in-depth analysis to detect collisions and human errors in live networks.
CoreNet is not just another IPAM tool — it is a Packet Core operational platform.
Auto-parse PGW/UPF configuration dump files across multiple vendors. Extract, structure, and organize IP pools and configurations into a clear, exportable database — zero manual effort.
Context-aware overlap detection that understands the mobile core's hierarchical structure — regions, APNs, and VRFs. Delivers structured reports and tree/graph visualizations for rapid audits.
Native dual-stack support with intelligent subnet identification, availability mapping per region, and overlap prevention — built for the IPv6 era of mobile networking.
Optional automated SSH access to multivendor core user-plane gateways. Automatically extract running configurations from pre-defined node lists for always-current data.
Auto-detect and manage Access Point Names from dump files. Control internet access status per APN with intelligent detection — critical for large MNOs reusing IPv4 ranges.
Seamlessly parse and manage IP addresses with full Virtual Routing and Forwarding support. VRFs are integrated into conflict analysis and overlap search functionality.
A guided interface for scaling PGW/UPF IP pools. Release IPs from under-utilized APN/nodes and reallocate freed subnets to congested ones — all within the same region, with full reserve-list awareness and step-by-step summary instructions for design teams.
Define and manage dedicated exclusion lists on a per-APN or network-wide basis. Import from and export to CSV. CoreNet ensures critical subnets are never unintentionally assigned, maintaining alignment with operational policies and future planning.
Unify planning, optimization, and transformation of IP address space in a single powerful toolkit. From subnet design and aggregation to precise exclusion and IPv4–IPv6 translation, the engine streamlines complex network tasks into fast, accurate, and visualization-ready outputs.
Assess allocation and availability of free IPs from the private IPv4 range — broken down per IP range and per region. Cross-referenced against reserved lists to deliver accurate, conflict-free availability data.
Locate overlapping IPv4 and IPv6 subnets across your entire network — identifying the exact region, node, and APN of each match. Works across shared pools, reserve lists, and P2P VRFs with configurable scope filtering.
Configurable reporting showing global network conflicts per region, top and average node utilization per APN/DNN and node distribution by vendor — complete operational visibility at a glance.
Different CSPs can have different core suppliers. CoreNet supports top core vendors from Huawei, Ericsson, Nokia and Cisco — ensuring the packet core team has the flexibility they need.
Intelligently scale User Plane Gateway (PGW/UPF) IP pools through a guided, design-driven workflow. The wizard identifies underutilized address space, reallocates it to congested nodes within the same region, and ensures all assignments remain conflict-free. It also supports allocation from unassigned IPv4 pools clearly flagging reserved ranges while generating a concise execution summary.