[What Is] ONAP | Open Network Automation Platform | PANTHEON.tech

ONAP (Open Network Automation Platform) is quite a trend in the contemporary SDN world. It is a broad project, consisting of a variety of sub-projects (or components), which together form a network function orchestration and automation platform. Several enterprises are active in ONAP and its growth is accelerating rapidly. PANTHEON.tech is a proud contributor as well.

What is ONAP?

ONAP enables end-users to connect services through the infrastructure. It allows network scaling and VNF/CNF implementations in a fully automated manner. Among other benefits, like:

  • Bring agile deployment & best practices to the telecom world
  • Add & deploy new features on a whim
  • Improve network efficiency & sink costs

Its goal is to enable operators and developers, networks, IT, and the cloud to quickly automate new technologies and support full lifecycle management. It is capable of managing (build, plan, orchestrate) Virtual Network Functions ( VNF), as well as Software-Defined Networks ( SDN).

ONAP’s high-level architecture involves numerous software subsystems (components). PANTHEON.tech is involved in multiple ONAP projects, but mostly around controllers (like SDN-C). For a detailed view, visit the official wiki page for the architecture of ONAP.

SDN-C

Directed Graph Creator runs one of these containers. It’s a user-friendly web UI, that can be used to create directed graphs. Another container runs the Admin Portal. The next one runs the relational database, which is the focal point of the implementation of SDN-C and used for each container. Lastly, the SDN-C container, that runs the controller itself.

This component is of particular interest to us because it has all the rationale behind the execution of graphs that are directed. We have previously shown, how lighty.io can integrate well with SDN-C and drastically improve performance.

According to the latest 5G use-case paper for ONAP, SDN-C has managed to implement “radio-related optimizations through the SDN-R sub-project and support for the A1 interface”.

CDS: Controller Design Studio

CDS Designer UI is a framework to automate the resolution of resources for instantiation and any config provisioning operation, such as day0, day1, or day2 configuration.

CDS has both design-time & run-time activities. During design time, the designer can define what actions are required for a given service, along with anything comprising the action. The design produces a CBA Package. Its content is driven by a catalog of reusable data dictionaries and components, delivering a reusable and simplified self-service experience.

CDS enables users to adapt resources in a way, where no direct code-changes are needed. The Design Studio gives users, not only developers, the option to customize the system, to meet the customer’s demands. The two main components of CDS are the frontend (GUI) and backend (run-time). It is possible to run CDS in Kubernetes or an IDE of your choice.

One interesting use-case shows the creation of a WordPress CNF via CDS.

SO: Service Orchestration

To accomplish its purpose, Service Orchestration performs well-defined processes — usually triggered by receiving service requests, created by other ONAP components, or by Order Lifecycle Management in the BSS layer.

The orchestration procedure is either manually developed or received from ONAP’s Service Design and Development (SDC) portion, where all service designs are created for consumption and exposed/distributed.

The latest achievement of the Service Orchestrator is the implementation of new workflows such as:

  • CSMF — Communication Service Management Function
  • NSMF — Network Slice Management Function
  • NSSMF — Network Slice Sub-Net Management Function

DMaaP: Data Movement as a Platform

DCAE: Data Collection Analytics & Events

The component collects and stores data that is necessary for analysis while providing a framework for the development of needed analytics.

DCAE: Collectors and other microservices required to support the telemetry collection for 5G network optimization; this includes the O1 interface from O-RAN.

A&AI: Active & Available Inventory

A&AI is a list of properties that are active, available, and allocated. It establishes a multi-dimensional relationship between the programs and infrastructure under administration. It provides interfaces for dynamic network topology requests, both canned and ad-hoc network topology queries.

Recently AAI gained schema support for 5G service design and slicing models.

Is ONAP worth it?

If you feel overwhelmed, don’t worry and leave it to the experts — contact PANTHEON.tech today for your ONAP integration needs!

Originally published at https://pantheon.tech on January 18, 2021.

We are a research & development software company primarily focused on network technologies and prototype software.