- On January 2, the Future Network Test Facility for Critical National Science and Technology Infrastructure (CENI) was announced to be fully completed.
- On January 3, the world's first optoelectronic fusion deterministic new arithmetic network infrastructure based on CENI facilities was officially opened for application demonstration.
This is the world's first
Realization of photovoltaic fusion determinism
of a new computing network infrastructure
Wide-area non-destructive bearer case formally landed
It will lay a solid foundation for China's new network infrastructure field to realize from technological breakthroughs to industrial leadership, and then steadily move towards the global leading position.It demonstrated the milestone breakthroughs of the future network in terms of coverage, arithmetic access, technological innovation and industrial value.
Future Network Experimental Facility (CENI)
It is our information and network field
The first national major scientific and technological infrastructure
It is essentially an experimental network platform to comprehensively enhance China's network innovation capability and strengthen the core competitiveness of the network industry.
The national major scientific and technological infrastructure is called "big scientific devices", which is of great significance for enhancing China's original innovation ability, realizing the leap in key fields, guaranteeing the long-term development of science and technology, and realizing the goal of moving from a big scientific and technological country to a strong scientific and technological country, and it is a veritable "weapon of the state". It is a veritable "national important weapon".
In February 2013, the State Council No. 8 will be the future network test facilities in the "Twelfth Five-Year Plan" focus on the construction of national major scientific and technological infrastructure. 2015, CENI landed in Nanjing Jiangning. In the city's science and technology conference held on January 2 this year and industrial science and technology innovation work to promote the meeting, the future network test facility of national major scientific and technological infrastructure (CENI) announced full completion.
At present, based on the CENI facility, a deterministic computing network has been successfully built for heterogeneous computing power to realize wide coverage, large throughput and super-converged connection scheduling.Realization of the "one network" computing network service capability of "one jump into the calculation, one key to adjust the calculation, one network access".
The first phase of the project, built by Jiangsu Future Network Group in conjunction with Zijinshan Laboratory, covers nine cities in China.The network comprehensively covers Beijing, Nanjing, Shanghai, Wuhan, Guiyang, Hangzhou, Suzhou, Zhangjiakou, Qingyang and other key regions, and forms a synergistic linkage with national arithmetic networks such as the CENI project of national large scientific devices, so that the service scope has been further expanded.
Currently accessing a total of 106,000P of arithmetic power
A large pool of computing resources has been built
Together with Huawei Rise, Baidu Kunlun Core, SkyQuest, Arithmetic Interconnect and other leading domestic GPU companies, Xinhua San and ZTE equipment manufacturers, and 23 computing power access units, we jointly promoted the deep integration of the network and diversified arithmetic power, and constructed a powerful heterogeneous arithmetic power synergy ecology; connecting heterogeneous arithmetic power, deploying a deterministic arithmetic network scheduling platform, and realizing arithmetic network synergistic on-demand scheduling, arithmetic network integration with one-hop computing, and heterogeneous arithmetic network convergence computing. It also connects heterogeneous computing power and deploys a deterministic computing network scheduling platform to realize on-demand scheduling, one-hop computing, and heterogeneous computing network convergence.
Optical-electrical fusion deterministic new computing network infrastructure breaks through the bottlenecks of optical-electrical signal separation, high cost, high energy consumption, low efficiency, etc. existing in the traditional network architecture, and builds a new type of network with the deterministic performance of over 2000 kilometers of lossless bearer without electrical relay, single-wave and single-port 400/800G rate, and less than 5-microsecond jitter throughout the network.It is the first in the industry to realize a high quality network transmission capability with a packet loss rate of less than 1 in 100,000 and a transmission efficiency greater than 90%.
A series of world-leading key capabilities meet the urgent demand for service-customizable high-performance networks in key areas such as high-throughput networks for large-model training, highly resilient networks for AI intelligences' reasoning, high-speed bearer networks for data elements circulation, high-availability networks for industrial control, and high-reliability networks for governmental special-purpose networks.
Liu Yunjie, academician of the Chinese Academy of Engineering and chief scientist of the Zijinshan Laboratory, said that as the world's first wide-area non-destructive bearing case to realize the optoelectronic fusion of deterministic new arithmetic network infrastructure.The future network will provide strong technical support for national key projects and industries such as "East Counts, West Counts", AI-driven arithmetic economy, and industrial Internet.Promote the deep integration of network technology and the real economy, and contribute more "Nanjing wisdom" and "Jiangsu program" to the national digital transformation and high-quality development.
