Summary: Edge Scoping
Distributed Edge Cloud Infrastructure Object Hierarchy (Stretch Goal)
Value:
- Fine grained resource management & analytics for Distributed Edge Clouds
References:
- 1. Infrastructure Modelling:
-
MULTICLOUD-153Getting issue details...
STATUS
ONAP Component | Life Cycle Phase | Enhancements |
---|---|---|
Policy | Design | Define Distributed Cloud Infrastructure Service Placement Policies (Note 3) – No enhancement needed to Policy Framework
|
Multi-Cloud | Deploy | Support Distributed Cloud Infrastructure Capability Discovery (Note 1, Note 2) IaaS intent-based framework to support cloud agnostic intent for Compute/Network/Storage
MC <-> Private/Public SDN-DC per Cloud region (Networking Workflow, Ref. 2) |
A&AI | Deploy | Support Standardized Distributed Cloud Infrastructure Object Hierarchy & Capability Database (Ref. 1)
|
OOF | Deploy | Execute Distributed Cloud Infrastructure Placement Policies for Optimized Service/VNF Placement across Cloud Regions (Note 4) OOF ↔ MC Runtime Check API (Note 8 "Execution Workflow") Resource Reservation Mechanism |
SO | Deploy | Extend SO ↔ OOF API to support cloud agnostic intent (Note 5) Extend SO ↔ MC API to support cloud agnostic intent (Note 6) |
Assumption for Policy, SO, OOF:
- This uses the current Generic VNF workflow in SO
Note 1:
- Configured Capacity and Utilized (or Currently Used) Capacity are managed by the specific cloud.
Note 2:
- Cloud SW Capability example
- Cloud region "x" with SR-IOV, GPU, Min-guarantee support
- Cloud region "y" with SR-IOV support
- Cloud HW Capability example
- Resource cluster "xa" in Cloud region "x" with SR-IOV and GPU support
- Resource cluster "xb" in Cloud region "x" with GPU support
- Resource cluster "ya" in Cloud region "y" with SR-IOV support
Note 3:
- 5G Service/VNF placement example
- Constraints used by Optimization Framework (OOF)
5G CU-UP VNF location to be fixed to a specific physical DC based on 5G DU, bounded by a max distance from 5G DU
- Optimization Policy used by OOF
Choose optimized cloud region (or instance) for the placement of 5G CU UP for subscriber group based on the above constraints
- Constraints used by Optimization Framework (OOF)
Note 4:
- For the 5G Service/VNF placement example in Note 3
- 5G CU-UP VNF preferably maps to a specific Cloud region & Physical DC End Point
Note 5:
- For the 5G Service/VNF placement example in Note 3
- OOF will pass the Physical DC End Point to SO as a cloud agnostic intent
Note 6:
- For the 5G Service/VNF placement example in Note 3
- SO passes the Physical DC End Point to Multi-Cloud as a cloud agnostic intent, besides the Cloud Region
Cloud-agnostic Placement/Networking & Homing Policies (Phase 1 - Casablanca MVP, Phase 2 - Stretch Goal)
End-to-end use case Applicability:
- All (especially the data plane VNFs with fine-grained VNF placement and high performance networking requirements)
Value:
- Improve "workload deployability" by avoiding exposure of "cloud specific" capabilities to several ONAP components and addressing "separation of concerns"
- Support capacity check (besides capability check) for HPA resources
- Applicable to all workloads - VM-based or Container-based
Phase 1 Summary:
- Multi-Cloud Policy Framework
- Assist OOF in target cloud region selection for VNF placement (aka homing) by summarizing cloud-specific capability, capacity & cost metrics (e.g. anti-affinity for VMs in a VNF could have different cost in different clouds)
- Dynamically modify the cloud specific VNF deployment template based on cloud-specific realization of the specified intent – No impact to VNF configuration
- E.g. Anti-affinity could have different realizations across different clouds
- Intent Support
- Single realization option per Cloud Region for the specified Intent
- Major Impact Projects:
- Multi-Cloud (Highest), OOF
- Minor Impact Projects:
- A&AI, SO
- End-to-end use case demonstration:
- 5G, vCPE
Phase 2 Summary (Build on Phase 1 Work):
- Multi-Cloud Policy Framework
- Dynamically modify the cloud specific VNF deployment template based on cloud-specific realization of the specified intent – Impact to VNF configuration
- E.g. High performance Intra-DC data plane networking with several realization choices
- Dynamically modify the cloud specific VNF deployment template based on cloud-specific realization of the specified intent – Impact to VNF configuration
- Intent Support
- Multiple realization options per Cloud Region for the specified Intent
- Major Impact Projects:
- Multi-Cloud
- Minor Impact Projects:
- OOF, GNF Controller
References:
The sequence diagram below expands "Multi-Cloud/VNFM Deploy Apps" in Edge Scoping Sequence Diagram
Cloud Resource Partitioning for Differentiated QoS (Combined with previous)
Value:
Applicable to all use cases
Casablanca Targets:
vCPE (Enable Tiered service offering); 5G Network Slicing (Stretch Goal)
Edge Automation Requirement:
Support three types of slices in the Cloud Infrastructure (Definition Reference: https://kubernetes.io/docs/tasks/configure-pod-container/quality-service-pod/)
- Guaranteed Resource Slice (hard isolation) for various infra Resources (CPU/Memory/Network)
- Max (limit), Min (request) are the same; resource guarantee is "Max"
- Maps to 5G Applications such as Connected Car which fall in the category of ultra-reliable machine-type communications (ref. 1)
- Burstable Resource Slice (soft isolation) for various infra Resources
- Min (request) <= Max (limit); resource guarantee is "Min"
- Maps to Burstable Network Slice such > 1Gbps broadband which fall in the category of extreme mobile broadband (ref. 1)
- Best Effort Resource Slice (no isolation) for various infra Resources
- No Min (request) ; resource guarantee is "None"
- Maps to 5G Applications such as IoT which fall in the category of massive machine-type communications (ref. 1)
Implementation:
- Leverage current HPA framework with appropriate extensions
References:
- https://metis-ii.5g-ppp.eu/wp-content/uploads/white_papers/5G-RAN-Architecture-and-Functional-Design.pdf
Driving Superior Isolation for Tiered Services using Resource Reservation -- Optimization Policies for Residential vCPE
-https://jira.onap.org/browse/OPTFRA-240
Note:
- Any VMs/Containers which are part of a resource slice will adhere to the specs of the resource slice
ONAP Component | Life Cycle Phase | Enhancements |
---|---|---|
Policy | Design | Configuration Policies for Guaranteed, Burstable & Best Effort Cloud Infrastructure Resource Slices (this will apply to VMs/Containers also) Placement Policies for Resource Slices
|
Multi-Cloud | Deploy | Resource Slice Capability Discovery |
A&AI | Deploy | Resource Slice Capability per Cloud Region
Resource Slice Type
|
OOF | Deploy | Execute Resource Slice Placement Policies for Optimized Service/VNF Placement across Cloud Regions |
Aggregated Infrastructure Telemetry Streams
Value
- Edge Infrastructure Analytics complementing 5G VNF Analytics
-
MULTICLOUD-254Getting issue details...
STATUS
ONAP, as in R2, collects the statistics/alarms/events from workloads (VMs) and take any close loop control actions such as Heal a process, scale-out, restart etc.. In R3, infrastructure related statistics/alarms/events will be collected, generate actionable insights and take life cycle actions on the workloads. Infrastructure statistics normally include performance counters, NIC counters, IPMI information on per physical server node basis. To reduce the load on the ONAP, it is necessary that aggregated (summarized) information is sent to the ONAP from edge-clouds.
As part of this activity, intention is to create aggregation micro-service that collects the data from physical nodes (over collected and other mechanisms), aggregate the information (time based aggregation, threshold based aggregation, silencing etc.,..) based on the configurable rules and export the aggregate data to DCAE. This micro service can be instantiated by ONAP itself - one or more instances for edge-clouds at the ONAP-central itself using OOM, it could be instantiated at the edge-cloud using their own deployment tools or it could be deployed edge service providers at the regional site level.
Impacted projects (development activities)
ONAP Component | Enhancements |
---|---|
Overall |
|
Multi-Cloud |
|
AAI & ESR |
|
PORTAL | ESR portal related changes to take information about the edge-cloud (CA Cert and UN/PWD information) |
DCAE & DMAPP | None expected?? |
Life Cycle stages related functions
ONAP Component | Life cycle phase | Activities |
---|---|---|
AAI and ESR | Deploy & Run time |
|
AAI and ESR | Run time |
|
Multi-Cloud | Run time |
|
ONAP Edge Analytics with DCAE/DMaaP independent of closed loop (Stretch Goal)
Value
- 5G Analytics
ONAP Component | Life cycle phase | Enhancements |
---|---|---|
OOM - ONAP Central | Deploy |
|