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Huawei iMaster NCE-IP is the industry's first platform for network automation and intelligence, integrating management, control, analysis, and Artificial Intelligence (AI) functions. As such, it effectively connects physical networks with business intentions.
In the northbound direction, NCE-IP implements centralized management, control, and analysis of global networks, enabling cloud-based resources, lifecycle network automation, and intelligent, closed-loop operations, all driven by data analytics for commercial and service intentions.
In the southbound direction, NCE-IP provides open network Application Programming Interfaces (APIs) for rapid integration with Information Technology (IT) systems. It accelerates service transformation and innovation for enterprises by improving the simplicity, intelligence, openness, and security of networks.
iMaster NCE-IP implements automatic service provisioning for Internet Protocol (IP) networks through service abstraction and model driving. It provides multiple service configuration templates for mainstream services, simplifying service provisioning parameter configurations. It also supports batch service provisioning, automatic parameter verification, service-driven automatic creation, centralized tunnel and path computation based on Service Level Agreement (SLA) constraints, a simplified service provisioning process, and SLA assurance.
iMaster NCE-IP centrally computes paths based on overall network topology and tunnel information and implements global optimization to improve network bandwidth utilization to 80%. It locally optimizes congested tunnels and links by using a process that causes minimal impact on the entire network. Centralized configuration and management of Traffic Engineering (TE) topology information and tunnel constraints simplifies network Operations and Maintenance (O&M).
The platform implements full-lifecycle automatic management, including creation, monitoring, adjustment, and deletion. Network slicing uses Flexible Ethernet (FlexE) or channelized interfaces to divide one physical network into multiple slices. These slices achieve hard bandwidth isolation and carry services independently, allowing carriers to use one network for multiple purposes.
|Basic IP Network Management||Plug-and-play, inventory management
Topology management, network performance management
Alarm management, NE software management
NE security management, basic network configuration
Change audit, basic fault locating
BRAS CP and UP separation, southbound interfaces and protocols
|IP Network Service Management||IP service provisioning, 360° IP service view
Service resource pool management, service template management
VPN service topology
VPN service path and status
Link, tunnel, VPN connectivity checking
|IP Network Service Control||Tunnel creation based on route constraints, service BOD
Tunnel provisioning, tunnel policy control
|IP Network Optimization||MPLS network optimization:
Global path computation and optimization, single service path optimization for MPLS tunnels
Innovative ROAM algorithm for accurate path computation based on latency, bandwidth, and more
|Basic IP Network Analysis||Collects quality data of network-wide traffic. After intelligent big data analytics,
displays device and network status through overviews, topologies, maps, and reports
|Intelligent IP Network Analysis||Fault detection, RCA, exception detection, mass fault analysis|
|IP Northbound Capability Openness||Service provisioning API
Inventory management API
Alarm management API
Performance management API
Network optimization API
|Tunnel Optimization Capacity||64K|
|Single Re-Optimization Time||2 minutes (500 devices and 32K TE LSPs)|
|RSVP-TE Tunnel Optimization Capacity||64K|
|High Availability||Clustering and geographic redundancy
Service data consistency checking