SlapOS NMS features are quite wide.
First, we can provision and monitor LTE/NR eNodeB, EPC and SIM card database. We can manage and monitor the base station hardware which runs the SDR stack.
We support both centralised core network (one EPC, multiple eNodeB) and decentralised core network (one EPC, one eNodeB) models. In the decentralised case, we invented a new approach for data handover, which will be published in 2019.
We also support both centralised VRAN (one eNodeB server, multiple RRH) or decentralised VRAN (one eNodeB server, one RRH).
SlapOS NMS includes a resilient IPv6 backhaul which combines all forms of transit (wired, wireless) into a a hybrid mesh and ensures at any time low latency routing.
SlapOS NMS is a converged system. It acts as a traditional NMS but also as an edge platform. Different forms of edge services (https acceleration, fluent IoT buffering, storage offloading, A.I. offloading, etc.) can be deployed on the same base station hardware as the one which runs the SDR stack. This means that whenever one deploys a complete network,it is possible to define the network in a completely encapsulated way which combines all layers, from physical virtualisation (Layer 2) to application (Layer 7). All layers are mutually configured, optimised and orchestrated.
SlapOS NMS supports of course accounting and billing. One of the two SlapOS components is originally an ERP: ERP5. It can support billing generation at a speed of 80.000 invoices per hour.
SlapOS NMS also includes PyData and scikit-learn as well as out-of-core storage and machine learning. It is thus capable of predictive maintenance.