8 January, Ministry of Industry and Information Technology, etcAI By 2027, the country's critical core of artificial intelligence had achieved a secure and reliable supply, and industry size and enabling levels were among the world's highest. Promotion of three to five generic large models for application in manufacturing depth, leading to a unique, fully-covered industry-wide large model, the creation of 100 high-quality data sets in industrial areas and the promotion of 500 typical applications. Two to three eco-led enterprises with global influence and a group of new and specialized SMEs were nurtured, and a group of “intellectual, well-established” Enabling Applications Service providers were created, selecting 1,000 tree-tailored firms. The creation of an open-source, global-leading ecology, and the overall enhancement of security governance capacity contribute to China ' s programme for artificial intelligence development。
1AI NOTED THE OBSERVATION THAT THE PROVISION OF ARTIFICIAL INTELLIGENCE IS ENHANCED. THE PROMOTION OF THE SOFT AND HARD CO-DEVELOPMENT OF SMART CHIPS SUPPORTS THE BREAKTHROUGH OF KEY CORE TECHNOLOGIES SUCH AS HIGH-END TRAINING CHIPS, END-SIDE REASONING CHIPS, ARTIFICIAL INTELLIGENCE SERVERS, HIGH-SPEED INTERCONNECTIONS AND SMART CLOUD OPERATING SYSTEMS. AN ORDERLY ROLL-OUT OF THE LAYOUT OF THE HIGH-LEVEL COMPUTING FACILITY, THE ACCELERATION OF THE CONSTRUCTION OF THE COMPUTER CONNECTIVITY PLATFORM, THE NATIONAL INTEGRATED COMPUTING NETWORK MONITORING AND MOVEMENT CONTROL PLATFORM, THE PILOTING OF THE INTELLECTUAL COMPUTING CLOUD SERVICE, THE PROMOTION OF THE ONE-SIZE MODEL, THE EDGE COMPUTING SERVER, THE INDUSTRIAL CLOUD COMPUTING CAPABILITY DEPLOYMENT AND THE UPGRADING OF THE RESOURCE SUPPLY CAPACITY。
The development of high-level industry models was noted. Support model training and reasoning innovations to develop high performance algorithm models adapted to real-time, reliable and safe characteristics of manufacturing. Development of large models of priority industries and of a cloud-side-end model system to continuously enhance broader capabilities. Development of small-scale industry-specific scenario models that encourage synergistic innovation. Promote light quantitative deployment of models to accelerate application in industrial landscapes. Modelled public service platforms providing high-level models and supporting tool services。
It was noted that the development of an iterative intelligent equipment was promoted. • Accelerate the use of artificial intelligence-enabled industrial machines, industrial robots, and develop a new generation of artificial intelligence-based numerical control systems to enhance autonomous decision-making, analysis and implementation. Accelerate the development of surgical robots, smart diagnostic systems, etc., and accelerate the innovation and clinical application of smart medical equipment products. To promote the integration of artificial intelligence technology into the development, manufacture, operation and development of smart low-altitude equipment such as large aircraft and ships. Carry out smart-net vehicle product testing and safety assessments for the carrying of auto-driving functions, in order to advance product access and road access pilot。
It was noted that the development of an iterative intelligent equipment was promoted. • Accelerate the use of artificial intelligence-enabled industrial machines, industrial robots, and develop a new generation of artificial intelligence-based numerical control systems to enhance autonomous decision-making, analysis and implementation. Accelerate the development of surgical robots, smart diagnostic systems, etc., and accelerate the innovation and clinical application of smart medical equipment products. To promote the integration of artificial intelligence technology into the development, manufacture, operation and development of smart low-altitude equipment such as large aircraft and ships. Carry out smart-net vehicle product testing and safety assessments for the carrying of auto-driving functions, in order to advance product access and road access pilot。
IT WAS NOTED THAT THE UPGRADING OF THE SMART TERMINALS WAS ACCELERATED. SUPPORT TECHNOLOGICAL BREAKTHROUGHS SUCH AS END-SIDE MODELS, DEVELOPMENT OF APPLICATION TOOL CHAINS, AND DEVELOPMENT OF ARTIFICIAL INTELLIGENCE TERMINALS SUCH AS SMARTPHONES, COMPUTERS, TABLETS, SMARTHOUSES, ETC. FOCUS ON KEY SCENARIOS SUCH AS INDUSTRIAL INSPECTIONS AND TELEMEDICINE, AND ACCELERATE THE PROCESS OF INDUSTRIALIZATION AND COMMERCIALIZATION OF NEW TERMINALS SUCH AS / VIRTUAL DISPLAYS (AR / VR) WEARABLE EQUIPMENT, BRAIN INTERFACES, ETC. PROMOTE SMART PRODUCT INNOVATION, BUILD TEST BASES AND TRAINING GROUNDS FOR HUMAN ROBOTICS, CREATE HUMAN ROBOTIC POLE LINES, AND TAKE THE LEAD IN TYPICAL MANUFACTURING SCENARIOS。
It was noted that open sources were being promoted. Building high-level artificially intelligent open-source communities, deploying and implementing open-source projects to construct an open-source environment for artificially intelligents with global impact. Organization of events such as the Developer's Congress, the School Source Line, and dissemination of the open source concept and the culture of prosperity. Support the development of open-source tools, such as suites and model applications, to facilitate the deployment of artificially intelligent open-source results。
The view was expressed that it was important to promote a high level of access to niche industries. Enterprises are encouraged to customize artificial intelligence products and enabling solutions to different national and regional characteristics. The "Overseas Edition" of the New Industrialization of Artificial Intelligence was launched to support industry organizations and professional bodies in the provision of seaborne support services to enterprises, to guide them in the efficient implementation of various technical and compliance certifications and to improve the orderly development of the service industry。
It was pointed out that the establishment of mechanisms for the promotion of sectoral cooperation, co-operation and industrial synergies encouraged local adaptation of policy measures, led to the development of enterprises and prevented “inner-roll” competition in industry. The existing funding channels are integrated, and the layout supports the task of “Assisting + Manufacturing” related technology development and enabling applications. (c) Activate the National Investment Fund for the Artificial Intelligence Industry to enrich the high-quality project reserves and attract more and more orderly investment in social capital. A large-scale demonstration of new applications of new new technologies, using first-stage (set), first-end and first-version policies, will promote new technologies, new product extension and iterative upgrading to unleash domestic market demand potential. Conducting measurement of the size of the artificial intelligence industry, establishing a system of applied monitoring and evaluation indicators, improving the monitoring and analysis platform for the artificial intelligence industry and dynamic monitoring of global industrial developments。