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Introduction to the proposal

Please read the attached Powerpoint as an easy introduction to the proposal.

(Deck updated June 5, 2018:

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Informal Class Diagram 

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Aggregate Representation Class Attributes

...

Physical DC Endpoint Class:

ID

Type

Cardinality

Description

Common-name

Name class

1

Common name fields across all objects

Longitude-ID

float

1

Physical DC Longitude.

Latitude-ID

float

1

Physical DC Latitude. Lat/Lon distance between physical DCs serves as a good estimate for propagation latency.

Network-Bandwidth-Info

(DC common-name, value)

1..n

Maximum incoming/outgoing Network Bandwidth from the physical DC to all other interconnected physical DCs.

Cloud Region Class

Key Attributes

ID

Type

Cardinality

Description

Common-name

Name class

1

Common name fields across all objects

Physical-DC-Endpoint-Collection-ID

Physical DC Endpoint Class Collection

1..n

Used for latency and bandwidth accounting across physical DCs in a distributed data center topology

Resource Cluster Group Class

ID

Type

Cardinality

Description

Common-name

Name class

1

Common name fields across all objects

Resource-Cluster-Collection-ID

Resource Cluster Class Collection

1..n

Collection of multiple resource clusters

Physical-DC-Endpoint-ID

 Physical DC Endpoint

1

This is primarily useful in a distributed data center topology -- more details in the cloud region section.

Resource Cluster Class

...


ID

Type

Cardinality

Description

Common-name

Name class

1

Common name fields across all objects

<resource>-Collection-list

<resource> Collection

1..n

e.g., Collection of multiple compute hosts

Resource Slice Class

ID

Type

Cardinality

Description

Common-name

Name class

1

Common name fields across all objects

<tenant>-name

Name class

1

Reference to the <tenant>/administrative domain to whom the slice is given.

<allocated resources>-list

<resource-allocation> Collection

1..n

Resources with allocations

Important Differences between Public Cloud and Private Cloud

Private cloud offers more fine grained control over the infrastructure as compared to Public Cloud

  • Public cloud exposes only Virtualized infra layer

    • Virtualized infra layer objects

      • Aggregate object example: Resource Slice

      • Atomic object example: VM

  • Private cloud exposes HW infra layer besides Virtualized infra layer

    • Virtualized infra layer objects (same as Public Cloud) +

    • HW infra layer objects

      • Aggregate object example: Resource Cluster

      • Atomic object example: Host

Some non-exhaustive examples including benefits of more fine grained HW infrastructure control in a Private Cloud – these are especially relevant for Distributed Edge Clouds

  • Service Security Policy

    • Leverage Smart NICs to program security policies to deliver performance & scalability

  • Service Operational Policy

    • Leverage Host and Resource Cluster near-real-time resource metrics and real-time faults & alerts to substantially improve closed loop remediation response time

  • Service Placement Policy

    • Leverage Resource Cluster near-real-time allocated resource capacity and metrics/faults/alerts to substantially improve dynamic workload placement/scheduling across cloud regions

      • These can be represented as additional soft constraints in the placement/scheduling minimize/maximize objective function

Appendix A – Usage Examples

Resource Cluster Group Usage Example

VNF Type- EPC CP, PGW DP, SGW DP, BNG DP, IMS CP, etc. – where CP is Control Plane and DP is Data Plane

Resource Cluster A - “RCA” - hosts with standard NICs

Resource Cluster B - “RCB” - hosts with IPSec offload NICs

Resource Cluster Group A - “RCGA” - “RCA” and “RCB”

Resource Cluster Group B - “RCGB” - “RCB”

Resource Slice A - “RSA” - logical slice in “RCGA”

Resource Slice B- “RSB”- logical slice in “RCGB”

Resource Slice C- “RSC”- logical slice in “RCGB”

Realizing Minimum guarantees

  • Sum of minimum guarantees of resource slices cannot exceed the total capacity of the resource clusters they belong to

Placement Policy Example

  • VNF Type “EPC CP” uses “RSA”

    • NIC offloads are immaterial to EPC CP; EPC CP can use “RCA” and “RCB”

  • VNF Type “PGW DP” uses “RSB”

    • IPSec offload in NIC is a must for PGW DP performance reasons


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VNF Type Examples

Control Plane (CP)                             – MME, 5G CU-CP

Data Plane (DP) or User Plane (UP)  - PGW, SGW, BNG, 5G CU-UP

VNF Type maps to Resource Cluster Group Class (a Resource Cluster Group could have one or more Resource Clusters)

  • Multi Cloud Mapping of Resource Cluster Group

    • <Host Aggregate> in OpenStack; <Host Aggregate, Cluster> in VMware integrated OpenStack

vCPE Optimization Policy Example using Aggregate Objects

R1 vCPE use case – Illustrative Sequence Diagrams (https://wiki.onap.org/display/DW/Residential+Broadband+vCPE+Drafts+for+discussion?preview=%2F10783327%2F16005563%2FvCPE+Use+Case+-+Customer+Service+Instantiation+-+171103.pptx)

Constraints used by Optimization Framework (OOF)

  • VBNG location is fixed based on subscriber

  • VG MUX to VBNG Data Center connectivity latency cannot exceed certain value

Optimization Policy used by OOF

  • Choose optimized multi cloud instance for the placement of VG MUX for a given subscriber based on the above  

VNF Mapping to Infrastructure

  • In this example, each VNF maps to a Resource Slice in the infrastructure

    • Multi Cloud Mapping of Resource Slice

      • <Project> in OpenStack and VMware Integrated OpenStack; <Tenant> in Azure

Multi Cloud inputs used by OOF

  • Near-real-time stats per <Resource Slice, Resource Cluster Group> at scale using asynchronous push model using DMaaP

5G Optimization Policy Example using Aggregate Objects

R3 5G use case – Definition, Creation & Management of Network SlicesOptimization of the Deployed Network & Slices

Constraints used by Optimization Framework (OOF)

  • 5G CU-UP location is fixed based on group of subscribers

  • 5G CU-CP to 5G CU-UP Data Center connectivity latency cannot exceed certain value

Optimization Policy used by OOF

  • Choose optimized multi cloud instance for the placement of 5G CU CP for a group of subscribers based on the above  

VNF Mapping to Infrastructure

  • In this example, each VNF maps to a Resource Slice in the infrastructure

    • Multi Cloud Mapping of Resource Slice

      • <Project> in OpenStack and VMware Integrated OpenStack; <Tenant> in Azure

  • For the 5G CU-UP Data Plane VNF type, each VNF maps to a specific "Physical DC Endpoint" in a "Cloud Region"

Multi Cloud inputs used by OOF

  • Near-real-time stats per <Resource Slice, Resource Cluster Group> at scale using asynchronous push model using DMaaP