The NECOS architecture is one of the main project outputs towards infrastructure slicing to provide Slice as a Service as established in the project objectives. The Lightweight Slice Defined Cloud (LSDC) stands as the core embodiment of this architecture, automating the configuration process of clouds and their interconnecting networks aimed to substantiate the infrastructure slicing. The NECOS architecture provides novel artefacts to instantiate the LSDC, and for cloud network slicing in general, based on three main sub-systems: (1) the NECOS (LSDC) Slice Provider subsystem, (2) the Resource Marketplace subsystem, and (3) the Resource Providers subsystem. These sub-systems are provided in order to support the tenants of NECOS who wish to use Slice as a Service.
The System Testing Plan envisaged five different demonstrators by means of which we carried out the measurement of the different testing KPIs.
The Multi-Slice/Tenant/Service (MUSTS) demonstrator is meant to exercise the following key features of NECOS: slice creation, slice decommission, slice monitoring, service deployment, service update, VIM heterogeneity, and elasticity upgrade (both vertical and horizontal). The KPIs obtained with this demonstrator are the Average slice provisioning time, the Average service provisioning time, CPU isolation, Average elasticity response time and the Monitoring-data availability.
The marketplace (MARK) demonstrator is meant to demonstrate the marketplace concept introduced in NECOS as a dynamic resource discovery mechanism that can cope with slices of significant size and multiple geographically distributed resource providers.
The Experiments with Large-scale Lightweight Service Slices (ELSA) demonstrator is meant to show the deployment of end-to-end Slices that will be utilised by a Tenant in order to host services consisting of a very large number of lightweight elements (i.e. Virtual Network Functions (VNFs) and vLinks) deployed at the Edge of the infrastructure.
The Machine-learning based orchestration of slices (MLO) demonstrator was created to show how machine learning algorithms can add value to slice orchestration.
Finally, the Wireless Slicing Services (WISE) demonstrator shows the NECOS LSDC capabilities in expanding the cloud-network slinging concept towards wireless network domains.
The five above described demonstrators have been released by means of an open software license and constitute one of the instruments by means of which the NECOS will sustain its impact beyond the project lifetime.