Blueprint overview/Introduction
The Provider Access Edge blueprint is part of Akraino's Kubernetes-Native Infrastructure family of blueprints. As such, it leverages the best-practices and tools from the Kubernetes community to declaratively manage edge computing stacks at scale and with a consistent, uniform user experience from the infrastructure up to the services and from developer environments to production environments on bare metal or on public cloud.
This blueprint targets small footprint deployments able to host NFV (in particular vRAN) and MEC (e.g. AR/VR, machine learning, etc.) workloads. Its key features are:
- Lightweight, self-managing clusters based on CoreOS and Kubernetes (OKD distro).
- Support for VMs (via KubeVirt) and containers on a common infrastructure.
- Application lifecycle management using the Operator Framework.
- Support for multiple networks using Multus.
- Support for real-time workloads using CentOS-rt*.
Documentation
KNI Blueprint User Documentation.
Project Team
PTL Self Nomination is open until noon, 10 June 2020 (Pacific Time)
Member | Company | Contact | Role | Photo & Bio | PTL Self Nomination (y/n) |
| Andrew Bays | Red Hat | Committer | |||
Frank Zdarsky | Red Hat | Committer | Senior Principal Software Engineer, Red Hat Office of the CTO; Edge Computing and | ||
| Ricardo Noriega | Red Hat | Ricardo Noriega De Soto | Committer | Red Hat NFVPE - CTO office - Networking | Y |
Sukhdedv Kapur | Juniper | Committer | Distinguished Engineer; Contrail Software - CTO Org | ||
| Yolanda Robla | Red Hat | Yolanda Robla Mota | Committer | Red Hat NFVPE - Edge, baremetal provisioning | |
| Arm | Contributor | ||||
| Abhinivesh Jain | Wipro | abhinivesh.jain@wipro.com | Committer | ||
| Sheetal | Red Hat | Sheetal Chetan Singala | Committer |
Use Case Template
Attributes | Description | Informational |
|---|---|---|
Type | New | |
Industry Sector | Telco and carrier networks | |
Business Driver | The need for deploying mobile application on the edge is growing in latest times. Providing a platform that is capable of supporting deployment of mobile applications, using Kubernetes, and based on kubernetes tooling and declarative configuration from end to end is needed. | |
Business Use Cases | Edge deployments for 5G, mobile edge applications, vRAN | |
Business Cost - Initial Build Cost Target Objective | It can be deployed on libvirt, amazon and baremetal. Deployment on baremetal requires a small footprint POD with just 5 servers (1 bootstrap, 3 masters, 1 worker) | |
Business Cost – Target Operational Objective | The POD footprint starts being the same (5 servers), depending on the use case. Typically the cost will be less than $100k | |
Security Need | Kubernetes security monitoring and patching capabilities will be required, they are part of the deployment itself | |
Regulations | It will depend on the use case, and the workloads applied on top | |
Other Restrictions | - | |
Additional Details | - |
Blueprint Template
Attributes | Description | Informational |
|---|---|---|
Type | New | |
Blueprint Family - Proposed Name | Kubernetes-Native Infrastructure for Edge (KNI-Edge) | |
Use Case | Provider Access Edge (PAE) | |
Blueprint - Proposed Name | Provider Access Edge (PAE) | |
Initial POD Cost (CAPEX) | less than $150k (TBC) | |
Scale & Type | 3 to 7 x86 servers (Xeon class) | |
Applications | vRAN (RIC), MEC apps (CDN, AI/ML, …) | |
Power Restrictions | less than 10kW (TBC) | |
Infrastructure orchestration | App Lifecycle Management: Kubernetes Operators | |
SDN | OpenShift SDN (w/ SR-IOV, DPDK, and multi-i/f) | |
| SDS | Ceph | |
Workload Type | containers, VMs | |
Additional Details | - |