deployments to Kubernetes-managed cloud environments.
3. ONAP Common Services now manage more complex and optimized
- topologies\ **. MUSIC** allows ONAP to scale to multi-site
+ topologies. **MUSIC** allows ONAP to scale to multi-site
environments to support global scale infrastructure requirements. The
ONAP Optimization Framework (OOF) provides a declarative,
policy-driven approach for creating and running optimization
platform maturity by providing scalability and resiliency enhancements
to the components it manages.
+|image3|
+
OOM is the lifecycle manager of the ONAP platform and uses the
Kubernetes container management system and Consul to provide the
following functionality:
(including multiple clusters, federated deployments across sites, and
anti-affinity rules)
-2. |image3|\ **Configuration -** unified configuration across all ONAP
+2. **Configuration** - unified configuration across all ONAP
components
3. **Monitoring** - real-time health monitoring feeding to a Consul GUI
The portal provides an SDK to enable multiple development teams to
adhere to consistent UI development requirements by taking advantage of
-built-in capabilities (Services/ API/ UI controls), tools and
+built-in capabilities (Services/API/UI controls), tools and
technologies. ONAP also provides a Command Line Interface (CLI) for
operators who require it (e.g., to integrate with their scripting
environment). ONAP SDKs enable operations/security, third parties (e.g.,
VIMs and SDN controllers, across Edge Data Centers and a Core Date
Center.
-|image6|
-
**Figure 7. ONAP VoLTE Architecture**
+|image6|
+
ONAP supports the VoLTE use case with several key components: SO, VF-C,
SDN-C, and Multi-VIM/ Cloud. In this use case, SO is responsible for
VoLTE end-to-end service orchestration. It collaborates with VF-C and
Read the VoLTE Use Case with ONAP whitepaper to learn more.
+.. include:: blueprint-enr.rst
+
Conclusion
==========