Blueprint overview/Introduction
Integrated Edge Cloud(IEC) is an Akraino approved blueprint family and part of Akraino Edge Stack, which intends to develop a fully integrated edge infrastructure solution, and the project is completely focused towards Edge Computing. This open source software stack provides critical infrastructure to enable high performance, reduce latency, improve availability, lower operational overhead, provide scalability, address security needs, and improve fault management. The IEC project will address multiple edge use cases and industry, not just Telco Industry. IEC intends to develop solution and support of carrier, provider, and the IoT networks.
IEC Type 4 is focused on AR VR applications running on edge.
In general, the architecture consists of three layers: Iaas(IEC), PaaS(Tars), SaaS(AR/VR Application).
Use Cases
In general, there are multiple use cases for AR VR itemized below. For Release 2, we focus on building the infrastructure and virtual classroom application (Highlighted in dark purple color).
Virtual Classroom is a basic app that allows you to live a virtual reality experience simulating a classroom with teachers and students.
UseCases | Value Proposition |
Operation Guidance | Predict the next step for the operations(like assembling Lego blocks, cooking sandwiches, etc) and help people to achieve a goal. |
Virtual Classroom | Simulating a virtual classroom, which improves online education experiences for the teachers and students. |
Sports Live | Augment and simulate the sports live, which gives the audiences an amazing immersive watching experience. |
Gaming | Augment and simulate the game scenario, let players enjoy an immersive game world. |
After successfully deploy the virtual classroom application, the following virtual classroom is waiting for you. Enjoy!
Overall Architecture
The whole architecture, shown below, consists of three nodes: Jenkins Master, Tars Master and Tars Agent with AR/VR BP and CVB.
- For the Jenkins Master, we deploy a Jenkins Manster for our private lab for testing
- For the Tars Master, we deploy a Tars Platform for severless use case integration
- For the Tars agent, we deploy the Virtual Classroom backend on this node and two front end client as Virtual Classroom teacher and student on KVM.
- To make the VR backend work well, we deploy IEC in the IaaS Layer, Tars framework in PaaS Layer, Virtual Classroom Backend in SaaS Layer.
- To make CI/CD available, we deploy Jenkins Master in one Virtual Machine. The Jenkins master issues command to triger the script run on the dedicated VM.
Platform Architecture
Software Platform Architecture
Tars is a high-performance microservice framework based on name service and Tars protocol, also integrated administration platform. For more information about Tars, refer to the following documents:
IEC (Integrated Edge Cloud) is a platform that will enable new functionalities and business models on the network edge. The benefits of running applications on the network edge are - Better latencies for end users - Less load on network since more data can be processed locally - Fully utilize the computation power of the edge devices. Here IEC Type2 is used as the main working base for IEC Type4 deployment orchestration. For more information about IEC, refer to the following documents:
IEC Release Type2 Documentation
Optimization
To address the requirements of time-critical Application, some optimizations are itemized below:
- High-Performance RPC: Tars Framework supports a high-performance RPC Protocol, called Tars Protocol. To improve the performance, the Tars protocol re-design a brand new RPC protocol and make the transfer between "request" and "Binary stream" more efficiently. In terms of the detail of Tars protocol, refer to the Tars.h file in the https://github.com/TarsCloud/Tars.
- Lightweight framework
- To make Tars can be well deployed on the edge computing platform, we make the framework pluggable. The customer plugin the pluggable components when we really need it. Unnecessary components can be avoided.
- Rewrite some functions(like scale-out, monitor and so on) to reduce CPU consumption.
- Orchestrate no-urgent functions(like monitor data calculation and so on) from edge to DC(or higher level edge). Reduce resource consumption.
- IEC Optimization: IEC uses Calico as the main container networking solution which uses a pure IP networking fabric to deliver high-performance Kubernetes networking, and its policy engine enforces developer intent for high-level network policy management. Together, Calico and Kubernetes provide a secure, cloud-native platform that can scale your infrastructure to support hundreds of thousands of users. Calico CNI also supports multi-cni plugin. In this way, users can customize their own edge systems.
Main Progresses for Release 3
Release 3 is the first release for IEC Type 4. So everything is new.
Build Of Materials (BOM) / Hardware requirements
For R3, we deploy AR/VR BP in inwinSTACK Private Lab for Release. The detailed hardware is itemized below:
Hostname | Core | RAM | HDD | NIC | Role |
Node-0 | 8 | 40GB | 3TB | 1GB | Jenkins Master |
Node-1 | 8 | 96GB | 3TB | 1GB | Tars Framework |
Node-2 | 8 | 96GB | 3TB | 1GB | Tars Node (CVB + Type4 Application + Virtual Classroom Teacher Client + Virtual Classroom Student Client) |
Hardware and Software Management
Licensing
Components | Link | License | Akraino Release target |
OpenVidu | https://github.com/OpenVidu/openvidu-vr/tree/master/openvidu-vr-room -v2.13.0 | Apache License 2.0 | R3 |
| Tars | https://github.com/TarsCloud/Tars - v2.0 | BSD 3-Clause License | R3 |
| IEC | https://gerrit.akraino.org/r/#/admin/projects/iec - v3.0 | Apache License 2.0 | R3 |