ARC OOF Component Description - Guilin (R7) Release (Copy)
Page Status: Copied from R6 - Mar, 22, 2020
Component Status: Pending PTL Updates and ArchCom Review
Last Reviewed on: Aug 4, 2020
Certified by: @krishna moorthy
OOF (ONAP Optimization Framework):
1. High Level Component Definition and Architectural Relationships
2. API definitions
OOF provides the following interfaces:
Interface Name | Interface Definition | Interface Capabilities | API Spec (Swagger) |
---|---|---|---|
OOFE-1 |
| It enables placement based on a wide variety of policy constraints including capacity, location, platform capabilities, and other service specific constraints. | https://docs.onap.org/projects/onap-optf-osdf/en/latest/sections/offeredapis.html |
OOFE-2 | PCI/ANR Optimization | Enables PCI/ANR optimization API for SON. | https://docs.onap.org/projects/onap-optf-osdf/en/latest/sections/offeredapis.html |
OOFE-3 | Schedule Optimization | a policy driven workflow schedule optimizer for change management planning. This interface schedule workflows in time to maximize parallel change management activities, while respecting dependency between the workflows. | https://docs.onap.org/projects/onap-optf-cmso/en/latest/sections/offeredapis.html |
OOFE-4 | Route Optimization | Provides an interface for Router Optimization and inter-domain route optimization. | https://docs.onap.org/projects/onap-optf-osdf/en/latest/sections/offeredapis.html Inter-domain swagger Reference (This review will show the added new API. This can also be found under the docs above) |
OOFE-5 | OOF Model Administrator | This is for the OOF Model Administrator API. This API is a way to dynamically change the optimization models that will be used to find solutions for various optimization problems. This API will be used to Create, Update, or Delete Models. | https://docs.onap.org/projects/onap-optf-osdf/en/latest/sections/offeredapis.html |
OOFE-6 | This interface enables slice selection recommendations (NST, NSI, NSSI, Slice Profiles), as well as slice termination recommendations (NSI, NSSI). | https://docs.onap.org/projects/onap-optf-osdf/en/latest/sections/offeredapis.html Slicing swagger reference (This review will show the changes done to the API. This can also be found under the docs above) |
Note: xxxI interface is a Component internal interface. xxxxE interface is a component external interface
The current API documents can be found at:
The OOF user guide can be found at: OOF latest user guide
OOF internal APIs can be found: OOF API specification
OOF consumes the following Interfaces:
Interface Name | Purpose Reason For Use | API Spec (Swagger) |
---|---|---|
SDNCE-1 | For PCI/ANR optimization, OOF Retrieves the Cellsite inventory details from the configdb API, which is hosted as part of the SDNC/R component | https://github.com/onap-oof-pci-poc/sdnc/blob/master/ConfigDB/swagger-json/swagger.json |
AAIE-1 | OOF interfaces with AAI to retrieve the inventory | OOF consumes a wide variety of inventories from AAI. It can be found under the API section of AAI https://docs.onap.org/projects/onap-aai-aai-common/en/latest/platform/offeredapis.html |
MCE-5 | OOF queries Multicloud for real-time available capacity information | |
MUSICI-1 | OOF interfaces with MUSIC to persist service state. | |
SDCE-1 | OOF interfaces with SDC to retrieve slice template information | https://docs.onap.org/projects/onap-sdc/en/latest/offeredapis.html |
DESE-1 | OOF interfaces with DES to retrieve the PM/KPI data of the cells for ML-based decision making. |
3. Component Description:
ONAP Optimization Framework (OOF) is an Umbrella project, with the primary goal of addressing the optimization needs of ONAP. OOF is a framework that supports creating and running a suite of Optimizing applications including:
Change Management Scheduling optimizer
Homing/Placement optimizer
PCI optimizer
Route optimizer
Slice selection
OOF is targeted to be an optimization platform with the following goals:
Declarative, policy-driven approach to solving optimization problems
Reusable components: data and policy adapters/libraries, execution environment
Support General-Purpose as well as Custom optimizers
Extensible to multiple optimization problems
Internally, OOF has the following components:
OSDF: Optimization Service Design Framework, which is a collection of APIs and libraries, along with a generic runtime optimizer
Status: Part of ONAP since Beijing Release.
HAS: Homing and Allocation Service, which provides a policy based constraint driven selection optimizer
Status: Part of ONAP since Beijing Release.
CMSO: Change Management Schedule Optimizer, providing schedule optimization
Status: Seed code up-streamed in R3
FGPS: Fine Grained Placement Service
Status: Seed code up-streamed, POC in Frankfurt
4. Known system limitations
Please find the known system limitations in the following links
5. Used Models
OOF doesn't directly create models, but indirectly consumes them via AAI, Policy and Multi Cloud.
Service and Resource Info, from: AAI
Network Topology for CM: AAI
HPA Flavors/Capabilities/CapacityInfo, from : AAI
Policy Models (homing, PCI) from: Policy
Infrastructure Metrics Info (capacity), from: MultiCloud
Cloud agnostic Intent Info, from: MultiCloud
AZ level capacity Info, from: MultiCloud (for F-GPS)
PCI configuration data (not yet a part of SDNC model)
Slice/Subnet Profile and Slice/Subnet Instance models, from AAI
6. System Deployment Architecture
7. New Capabilities in this Release
Updates to E2E Network Slicing (refer OOFE-6)
Support for inter-domain route optimization (refer OOFE-4)
Introduction of offline trained ML model for the SON use case (refer OOFE-2 which has not changed, as well as DESE-1)
Integrate Generic Optimization Engine into OOF Helm charts (refer OOFE-5)
8. References
OOF Guilin (R7) Architecture Review