Core Insights - The strategic significance of the national supercomputing internet core node transcends a single computing center, redefining the accessibility and infrastructure of computing power [1] - The demand for AI large models is experiencing explosive growth, but the shortage of computing resources is a critical bottleneck for industrial upgrades [1][2] - The national supercomputing internet platform aims to activate computing power value and improve resource allocation efficiency, marking a significant milestone with the core node's trial operation on February 5, 2026 [1][2] Development Timeline - The "14th Five-Year Plan" proposed the strategic goal of building a national integrated computing network, elevating computing power to the status of essential infrastructure [2] - The deployment of the national supercomputing internet began in February 2023, with significant milestones including the establishment of a national supercomputing internet consortium and the construction of core nodes [2][3] - The core node construction project commenced in October 2023, with the platform expected to connect over 30 supercomputing centers across 14 provinces [2][3] Resource Pool and Management - The national supercomputing internet has formed a heterogeneous computing resource pool with over 150,000 accelerator cards and 2 million computing cores [3] - The platform aims to unify the management of these dispersed computing resources, creating an E-level (exaflop) heterogeneous computing resource pool that continues to expand [3] AI Application and Ecosystem - The supercomputing internet serves as a core connector in the industrial landscape, facilitating the last-mile connection between computing supply and demand [4] - The platform has already served over 1 million users, processing a peak of 1.03 million jobs in a single day, significantly lowering computing costs and usage barriers [4] - The AI community within the platform provides one-stop services for developers and enterprises, enabling intelligent scheduling of computing resources [4] Regional Development and Talent Cultivation - The core node in Zhengzhou is positioned to become a hub for computing power scheduling, effectively linking green computing resources in the west with demand from the east [5] - Plans include the construction of a 160,000 square meter research space and the training of over 3,000 advanced computing talents [5] Accessibility and Efficiency - The supercomputing internet aims to make computing power as accessible as water and electricity, addressing the "last mile" issue of computing applications [6] - The platform's integrated delivery model allows users to access powerful computing capabilities easily, supporting simultaneous use by millions of users [6] Open Ecosystem and Research Support - The platform has over 32,000 developers in its AI community, with major firms contributing open-source models and datasets [7] - Significant advancements in scientific computing have been achieved, with AI models dramatically improving efficiency in various fields, including meteorology and materials research [7] Future Outlook - The construction of the supercomputing internet ensures autonomous control over computing supply in critical areas, forming a complete internal circulation system for computing power [8] - As the national strategy progresses, the construction of the integrated computing network is expected to accelerate, balancing autonomy with open collaboration [8]