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-.. This work is licensed under a Creative Commons Attribution 4.0 International License.
-.. http://creativecommons.org/licenses/by/4.0
-.. SPDX-License-Identifier CC-BY-4.0
-.. (c) optionally add copywriters name
-
-
-================================================================
-Auto User Guide: Use Case 1 Edge Cloud
-================================================================
-
-This document provides the user guide for Fraser release of Auto,
-specifically for Use Case 1: Edge Cloud.
-   
-.. contents::
-   :depth: 3
-   :local:
-   
-   
-Description
-===========
-   
-This use case aims at showcasing the benefits of using ONAP for autonomous Edge Cloud management.
-
-A high level of automation of VNF lifecycle event handling after launch is enabled by ONAP policies
-and closed-loop controls, which take care of most lifecycle events (start, stop, scale up/down/in/out,
-recovery/migration for HA) as well as their monitoring and SLA management. 
-
-Multiple types of VNFs, for different execution environments, are first approved in the catalog thanks
-to the onboarding process, and then can be deployed and handled by multiple controllers in a systematic way.
-
-This results in management efficiency (lower control/automation overhead) and high degree of autonomy.
-
-
-Preconditions:
-#. hardware environment in which Edge cloud may be deployed
-#. an Edge cloud has been deployed and is ready for operation
-#. ONAP has been deployed onto a Cloud, and is interfaced (i.e. provisioned for API access) to the Edge cloud
-
-
-
-Main Success Scenarios:	
-
-* lifecycle management - stop, stop, scale (dependent upon telemetry)
-
-* recovering from faults (detect, determine appropriate response, act); i.e. exercise closed-loop policy engine in ONAP
-
-  * verify mechanics of control plane interaction
-
-* collection of telemetry for machine learning
-
-
-Details on the test cases corresponding to this use case:
-
-* Environment check
-
-  * Basic environment check: Create test script to check basic VIM (OpenStack), ONAP, and VNF are up and running
-
-* VNF lifecycle management 
-
-  * VNF Instance Management: Validation of VNF Instance Management which includes VNF instantiation, VNF State Management and termination
-
-  * Tacker Monitoring Driver (VNFMonitorPing): 
-
-    * Write Tacker Monitor driver to handle monitor_call and based on return state value create custom events
-    * If Ping to VNF fails, trigger below events
-
-      * Event 1 : Collect failure logs from VNF
-      * Event 2 : Soft restart/respawn the VNF
-
-  * Integrate with Telemetry
-  
-    * Create TOSCA template policies to implement ceilometer  data collection service
-    * Collect CPU utilization data, compare with threshold, and perform action accordingly (respawn, scale-in/scale-out)
-
-
-   
-Test execution high-level description
-=====================================
-
-<TBC>
-
-   
-  
-