...
Public Cloud Service Providers and 3rd-Party MEC Providers are deploying Edge instances to better serve their end-users and applications, A multitude of these applications require close inter-working with the MNO Edge deployments to provide predictable latency & throughput, reliability, and other telco-grade requirements. The purpose of this blueprint family is to specify a standard set of APIs to expose towards Public Cloud and 3rd-Party MEC Service Provider instances at the Edge.
The need to interface and exchange information through these open APIs will allow competitive offerings for Consumers, Enterprises, and Vertical Industry end-user segments. For instance, open APIs will be provided between Telcos and public cloud edge compute platforms such as Google Cloud Platform (GCP) Anthos, AliCloud Edge Node Service (ENS), AWS Wavelength, Microsoft Azure Edge Zones, Tencent ECM, to name a few. These APIs are not limited to providing basic connectivity services but will include the ability to deliver predictable data rate, predictable latency, reliability, service insertion, security, AI and RAN analytics, network slicing, and more. These capabilities are needed to support a multitude of emerging applications such as AR/VR, Industrial IoT, autonomous vehicles, drones, Industry 4.0 initiatives, Smart Cities, Smart Ports. Other APIs will include exposure to edge orchestration and management, Edge monitoring (KPIs), and more. These open APIs will be the foundation for service and instrumentation APIs when integrating with public cloud development environments and will be defined as part of the implementation. Even though these APIs will be common across all Telco operators, the differentiation will based on services provided through those APIs.
...
The PCEI Reference Architecture and the Interface Reference Points (IRP) are shown in the figure figures below. Note this figure also provides a component layer view of the PCEI Architecture:
Figure 3a. The PCEI Summary Reference Architecture.
Figure 33b. The PCEI Detailed Reference Architecture.
The PCEI Reference Architecture layers are described below:
...
- Compute Hardware. This includes Compute, Network and Storage resources that support MNO functions. Note that the PCEI Reference Architecture recognizes a model, where an MNO has the ability to distribute the compute infrastructure in appropriate locations in the DCF Domain in order to satisfy performance and functional requirements for the targeted application use cases. For example, an MNO may wish to implement a Local Break-Out (LBO) in locations that are geographically closer to the mobile subscribers , and uses compute hardware provided by a qualified Bare Metal service provider.
- The PCEI Architecture further recognizes a model, where the Compute Hardware layer is accessible via the Bare Metal Orchestrator that enables dynamic instantiation of compute/network resources for the MNO functions.
- Network Function Virtualization Infrastructure (NFVI). This is the virtualization layer (e.g. OpenStack, Kubernetes) that may be specific to MNO requirements and provides the ability to support MNO functions such as the 5GC User Plane Function (UPF).
- MNO Core Functions. This layer corresponds to the key MNO Core functions applicable to the PCEI. These functions include (but not limited to): UPF, SMF and other applicable 4G vEPC and 5G Core functions.
- MNO Orchestration Functions. These functions are responsible for communicating the MNO service/performance requirements to the PCEI Enabler and for orchestrating services within the MNO Domain. Examples of these functions include NSSF, NRF, etc.
...
- Public Cloud Core Infrastructure. This includes all IaaS/PaaS functions that are provided by the Public cloud to their customers. These include Virtual Private Cloud and Public/Private Networking capabilities.
- Public Cloud Edge Compute Hardware. This is Compute, Network, and Storage resources that support PCE functions. The PCE compute hardware is usually a vertically integrated hardware resource set controlled by the PCC Infrastructure and connected to it by means of the L1-L3 Interconnection layer.
- Public Cloud NFVI. This is the virtualization layer specific to the Public Cloud service provider.
- Public Cloud Core Functions. These functions are the specific capabilities offered by the Public Cloud service provider to its customers. Examples include Virtual Public Cloud (and equivalents), Virtual and Physical Private Networking.
- Public Cloud Edge Functions. A set of Public Cloud resources executing on PCE hardware and controlled by the PCC functions.
...
Software Platform Architecture
<Software components with version/release numbers >
<EDGE Interface>
<ETSI MEC Interaction>
The general structure PCEI Enabler is based on EMCO - Edge Multi-Cluster Orchestrator:
https://wiki.onap.org/pages/viewpage.action?pageId=84668166
The target software architecture of the PCEI Enabler based on EMCO is shown below:. Note that all references to specific APIs and SDOs are for mapping purposes only, subject to ongoing analysis and do not indicate compliance with APIs/SDO specs.
Figure 4. General structure of PCEI Enabler.
...