[Good News] Jingsilicon was shortlisted for "Shanghai 2022 Technology Entrepreneurship Innovation Fund Plan for Technology-based Small and Medium Enterprises" and "The 11th China Innovation and Entrepreneurship Competition National Competition"

19 Sep,2022

On September 5th, the list of proposed projects for the 2022 Technology Innovation Fund for Science and Technology-based Small and Medium Enterprises in Shanghai was announced. Jingsilicon's "5G based on Jingsilicon's intelligent solid-state circuit breaker" was announced. Deep energy-saving AI system" was honored to be shortlisted. The "Innovation Fund Plan" was organized and carried out by the Shanghai Municipal Science and Technology Commission to encourage technological innovation of enterprises.

 

 

 

On September 9, the 11th China Innovation and Entrepreneurship Competition National Competition announced the list of shortlisted companies, and Jingsilicon successfully got the tickets to advance to the national competition. The competition will be jointly held by the Ministry of Science and Technology, the Ministry of Finance, the Ministry of Education, the Central Internet Information Office and the All-China Federation of Industry and Commerce. The competition is guided by Xi Jinping Thought on Socialism with Chinese Characteristics for a New Era, and thoroughly implements major decisions, deployments and innovations of the CPC Central Committee and the State Council. Drive the development strategy, adhere to the concept of "government guidance, public welfare support, and market mechanism", focus on national strategies and major needs, highlight key areas of strategic emerging industries, deploy innovation chains around the industrial chain, and deploy industrial chains around the innovation chain , boost the key core technology research, promote the industrialization of scientific and technological achievements, promote the integration and development of large and medium-sized enterprises, build a platform for the aggregation of innovation elements with enterprises as the main body, market-oriented, and in-depth integration of production, education and research, and vigorously promote the national high-tech zone. Industrial collaborative innovation and regional Coordinate development, promote scientific and technological innovation and entrepreneurship in depth, continuously stimulate the vitality of market entities, and improve the modernization level of industrial development.

  

 

 

Jingsilicon's selected project this time is "5G deep energy-saving AI system based on Jingsil intelligent solid-state circuit breakers". With the advent of the 5G era, equipment connections are becoming more and more The growth in connectivity is accelerating, driving explosive growth in mobile data traffic. In order to meet the needs of future 5G services and data traffic, 5G needs to use more spectrum resources and larger system bandwidth. The number has doubled, and the introduction of Massive Multiple Input Multiple Output (Massive MIMO) technology has greatly increased 5G energy consumption. Considering equipment energy consumption and base station coverage, 5G power consumption is expected to be 4G. more than 9 times. Based on this estimate, it is expected that the next five years will significantly increase from the current 27 billion kWh/year to 250 billion kWh/year (about 3% of the total electricity consumption of the whole society). Therefore, energy saving and consumption reduction have become the top priority of the communication industry that cannot be ignored. heavy.

 

 

 

In the energy consumption of the base station, the power consumption of the main equipment accounts for more than 50% of the power consumption of the base station, and the Active Antenna Unit (AAU) accounts for the power consumption of the main equipment. 80%, so the energy-saving technology is mainly for the AAU part. Currently, device-level and site-level energy saving and consumption reduction can be achieved through low-power hardware, symbol shutdown, and deep sleep technologies. However, the existing general models used in traditional base station energy-saving technologies mainly rely on simple models or manually set thresholds to decide whether to switch on or off. , the energy saving effect is limited. All parameters are uniformly set by the base station, which cannot well adapt to today's complex and changeable environment, and cannot solve the problem of independent selectivity of energy-saving strategies of each base station in different environments, and it is difficult to achieve a balance between user experience and energy-saving effect. Artificial Intelligence (AI) technology can make base station energy-saving technology more intelligent. Through the calculation of AI model, under the premise of ensuring user experience, the optimal solution for base station energy-saving can be found, so as to achieve the highest operating efficiency of the entire network. The energy-saving target with the best comprehensive energy-saving efficiency. Therefore, the trend of AI intelligent energy-saving technology is unstoppable. On the other hand, in order to achieve and maximize AI energy-saving effects, intelligent hardware that can sense measurement, edge computing, and multi-dimensional energy saving is also essential.

 

 

 

The 5G deep energy-saving AI system developed by Jingsilicon Intelligent is based on self-developed new intelligent solid-state circuit breaker hardware and AI software energy-saving technology. It will realize automatic and intelligent management of 5G base station energy consumption, improve 5G wireless network energy efficiency, reduce 5G network operating costs, and escort 5G network deployment and intelligent operation and maintenance. In this new study of solid-state hardware combined with AI software, the new software enables the 1s and 0s of algorithms, firmware, software, embedded machine learning and artificial intelligence to be more fully utilized in applications, and the solid-state architecture enables this The breakthrough was fully realized. This combined architecture enables software intelligence to be embedded directly into electrical products in the electrical infrastructure, enabling efficient, safe and intelligent digital power distribution and energy savings.