This Downstream Lab 1 infrastructure is mainly running on Arm architecture and some on x86 architecture, future plans to expand to RISC-V, MIPS, and more x86 architecture.
In April 2016, the Green Computing Consortium (referred to as "Open GCC") was established by a number of global leading manufacturers,universities and scientific research institutions. It aims to promote the construction of an open and innovative green computing industry ecology and accelerate the development of green computing architecture in key applications such as big data, enterprise level computing and cloud computing. The Green Computing Industry Consortium aggregate the advantageous resources of the global computing industry chain, promotes the interaction between industry and academia, complies with the information technology development trend of open source software and open hardware, and actively carrier out software and hardware development of plural computing architectures to provide end-users with more flexible, easier to use and manages green energy-saving enterprise-level products.
Regarding the information we introduced in the PPT on October 21, 2021. for different application scenes such as big data, distributed storage, high-performance computing, and Web applications, plural computing architectures have their unique advantages. The Consortium will continue to expand green computing performance testing for more value scenes, provide important reference data for applications through platform and scheme evaluation, recommend users with more green computing products and solutions, and facilitate user selection and adaptation.
Open GCC is positioned to work in the area of electronic information technology, support the technical development of various open source software and open hardware, gather the advantageous resources of the global industrial chain, and promotes the development of the global computing industry.
At present, the main body of the Akraino community is mainly in North America,and it is recommended that the Akraino community set up a collaboration laboratory in China. Open GCC, as a platform for China's computing industry, can be used as a carrier platform for the Akraino community in China. After the specific cooperation relationship is determined, a cooperation statement and plan will be issued to the outside world.
Open GCC has offices in Beijing and Shenzhen, China.
Based on the above,the on site exhibition hall is located in the Shenzhen Center, which will open the year-round display of the products and research results of important members and academic members. At present, the exhibition items are being settled in succession, and it is expected that they can be open to public in the second quarter of 2023. In order to better spread business information and the value of member units, the online exhibition hall is going to be set up by the Consortium will also be open to the public during this period,which will bring the visitor an all-round immersive experience. Office address: Floor 7, building 6 (B), Shenzhen-Hong Kong International Science Park,Shenzhen,China.
The organization agrees to abide local lawsand the rules of the Linux Foundation, including open policies, supplier neutrality, and other rules listed on the Akraino regional community page.
Member company of Akraino China office will adopt and/or deploy these blueprints.
Architecture: x86, Arm
Architecture: Arm
Ampere Mt. Jade server
Nvidia GPU Tesla T4
Taishan 2280 server
AMD GPU WX 5100
Workshop: Arm virtualized cloud gaming workshop
Time: March 27, 2021
Location: Shanghai, China
Attendees: Nvidia, Tencent, Baidu, Arm, Ampere, Phytium, et al
Topic: Cloud gaming solutions from different companies
Product: Nvidia vGaming, Arm server, Tencent XianYou, Baidu Red Finger, Ampere Altra, Phytium S2500
Goal: build up ecosystem connection, promote the collaboration
Exhibitions of Cloud Mobile, Cloud Desktop, on Arm servers etc. in Apsara Conference, ODCC
gaming, public cloud,
Architecture: x86, Arm
Model: PCIe Backplane named X136 in X100 series by Socnoc.
Workshop: DATA CONNECTING THE WORD, EDGE COMPUTING THE FUTURE
Time: TBD
Location: Hefei China,
Attendee: To be confirmed,
Topic: Demo show & New Product Announcement,
Product: 8 channels PCIe Backplane,
Goal: Edge computing group to shape a new rack & cloud service.
To be confirmed
Smart cities, AI Transportation, Energy manufacturing, Industries communication.
Architecture: x86, Arm
Architecture: x86, Arm
Architecture: x86, Arm
Federated ML Scheduling platform
Factory warehouse manage middleware
Architecture: x86, Arm
Yishi vBus vehicle middleware
TI
AutoSAR (AUTomotive Open System ARchitecture)
PCEI can be installed/enabled with Edge Multi-Cluster Orchestrator and accessible on common hardware and network environment.
PCEI enabler relieves users form troubles of API interoperability including API definition, API gateway functions (AAA, policy, security) and providing a secure, controllable, tracable, scalable and measureabler way to access the APIs from diverse public edge cloud service providers. So far, PCEI has already finished these follwing onboarding and deployment of cloud natvie Public Cloud Edge (PCE) Apps: Deploying Azure IoT Edge with PCEI and Deploying AWS GreenGrassCore with PCEI, and a 3rd-Party Edge (3PE) App: ETSI MEC Location API App. We hope to collaberate with Teclos and hyperscalers in China to test the end-to-end operation of the Apps on their edge infrastructure: operator`s edge infrastructure or public Clouds (Alibaba cloud or Tencent cloud).
Edge computing; Public Cloud;
Architecture: x86, Arm
Architecture: x86, Arm
Architecture: x86, Arm
Architecture: x86, Arm
Architecture: x86
vMX: Juniper virtualized MX router
Architecture: x86, Arm
The Blueprint Validation Framework offers a set of tools that can be used to test Akraino deployments on different layers (hardware, os, k8s, openstack, etc).
The framework provides tests at different layers of the stack, like hardware, operating system, cloud infrastructure, security, etc. Since the project is constantly evolving, the full list of available tests can be found in the projects repo, where the tests are located under their respective layer. Each layer has its own container image built by the validation project. The full list of images provided can be found in the project’s DockerHub repo.
Architecture: x86, Arm
Randy Stricklin Daniil Egranov Wenhui Zhang
If you are working on driver code, Vuls and Lynis are needed.
If you are developing container based application code, Vuls, Lynis and Kuber-Hunter are needed.
If you are developing VM based application code, Vuls (testing setup inside each VM) and Lynis (testing setup inside each VM) are needed.
Vuls scan usually takes around 10 to 20 mins.
Kuber-Hunter usually takes about 10 mins.
Lynis scan usually takes about 2 mins.
Shenzhen GCC laboratory, exhibition hall and office environment (over 1,000 m²) will be put into use at the end of November. The Akraino open source project can be deployed to the GCC laboratory and displayed in the exhibition hall.
Location: Shenzhen-Hong Kong International Technology Park
No. 3, Binlang Road, Futian District, Shenzhen City, Guangdong Province, China
Connectivity: 5G coverage is being developed by China Telecom, China Unicom, and China Mobile
Technical blogs can be published at Arm Software Developers WeChat Official Account, Aijishu Arm Software Developers column, Communication World, OpenGCC WeChat Official Account, etc.
Presentation from Akraino China Office to industry events like OpenGCC Summit, Global Edge Computing Conference, ODCC etc.
Akraino to actively participate in the Open Green Computing Consortium ecosystem building activities, such as the Summit. We can sign up to participate, or can be the main participant in the main forum to make a speech or report. For example, we can participate in white papers, conference and other industrial voice, we have done Arm. Kirin special. We would love to have
Akraino participation and any suggestions.
Some videos are available in LF Edge YouTube channel, can be republished to the following video website.