As part of each release, the ONAP community also defines blueprints for key use cases, which the user community expects to pursue immediately. Testing these blueprints with a variety of open source and commercial network elements during the development process provides the ONAP platform developers with real-time feedback on in-progress code, and ensures a trusted framework that can be rapidly adopted by other users of the final release.

The initial ONAP release, “Amsterdam”, includes two blueprints: Voice over LTE, and Residential vCPE. More blueprints will be available with future releases.

Voice over LTE (VoLTE)

This blueprint demonstrates how a Mobile Service Provider (SP) could deploy VoLTE services based on SDN/NFV. This blueprint incorporates commercial VNFs to create and manage the underlying vEPC and vIMS services by interworking with vendor-specific components, including VNFMs, EMSs, VIMs and SDN controllers, across Edge Data Centers and a Core Date Center.

 

By using ONAP to manage the complete lifecycle of the VoLTE use case brings increased agility, CAPEX and OPEX reductions and increased infrastructure efficiency to CSPs. In addition, the usage of commercial software in this use case offers Communication Service Provider (CSP) a path to production.

Read the VoLTE solution brief and watch the technical overview video (在优酷上查看) to learn more.

Residential vCPE

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In this use case, many traditional network functions such as NAT, firewall, and parental controls are implemented as virtual network functions. These VNFs can either be deployed in the data center or at the customer edge (or both). Also, some network traffic will be tunneled (using MPLS VPN, VxLAN, etc.) to the data center, while other traffic can flow directly to the Internet. A vCPE infrastructure allows service providers to offer new value-added services to their customers with less dependency on the underlying hardware.

In this use case, the customer has a physical CPE (pCPE) attached to a traditional broadband network such as DSL (Figure 1). On top of this service, a tunnel is established to a data center hosting various VNFs. In addition, depending on the capabilities of the pCPE, some functions can be deployed on the customer site.

This use case traditionally requires fairly complicated orchestration and management, managing both the virtual environment and underlay connectivity between the customer and the service provider. ONAP supports such a use case with two key components – SDN-C, which manages connectivity services, and APP-C, which manages virtualization services. In this case, ONAP provides a common service orchestration layer for the end-to-end service. It uses the SDN-C component to establish network connectivity. Similarly, ONAP uses the APP-C component to manage the virtualization infrastructure. Deploying ONAP in this fashion simplifies and greatly accelerates the task of trialing and launching new value-added services.

Read the Residential vCPE solution brief and watch the technical overview video (在优酷上查看) to learn more.