Core Insights - The "Star Computing" plan by Guoxing Aerospace aims to deploy a network of satellites for AI model inference and training, marking a significant advancement in space computing capabilities [1][2] Group 1: Deployment and Achievements - In November 2025, Guoxing Aerospace successfully deployed the Qwen3 large model to the "Star Computing" plan's space computing center, achieving the world's first in-orbit deployment of a general large model from the ground to a satellite [1] - The Qwen3 model successfully executed multiple end-to-end inference tasks in space, with a total process time of under 2 minutes for data transmission and processing [1] Group 2: "Star Computing" Plan Overview - The "Star Computing" plan consists of 2,400 inference satellites and 400 training satellites, focusing on serving silicon-based intelligent systems such as autonomous vehicles, drones, and intelligent robots [2] - The satellites will be deployed in orbits ranging from 500-1,000 km, utilizing laser communication for high-speed data transmission, forming a global training and inference computing network with capabilities of 100,000 P-level inference and 1,000,000 P-level training [2] Group 3: Future Plans and Milestones - The first group of the space computing center was successfully launched in May 2025, with subsequent groups planned for deployment in 2026 [2] - By 2030, the plan aims to complete a network of thousands of satellites, with over 95% being inference satellites, and to validate large-scale training satellites in orbit [2] - By 2035, the goal is to fully establish the network to provide computing power for billions of silicon-based intelligent systems [2]

Core Insights - The article highlights the successful deployment of the Qwen3 large model by Guoxing Aerospace to a space computing center, marking the first instance of a general large model being operated on an orbiting satellite [1] - The Qwen model executed multiple end-to-end inference tasks in space, with a total processing time of under 2 minutes for data transmission and result return [1] - The article also reports on the successful connection of the "Embodied Tian Gong" robot to a new type of low-orbit satellite, enabling real-time transmission of visual data without ground network support [1] Group 1 - Guoxing Aerospace's Qwen3 model was deployed to the "Star Computing" plan's space computing center in November 2025, achieving a significant milestone in space technology [1] - The Qwen model's ability to perform inference tasks in space demonstrates advancements in satellite capabilities and artificial intelligence integration [1] - The successful connection of the "Embodied Tian Gong" robot to low-orbit satellites represents a breakthrough in robotics and satellite communication, facilitating reliable outdoor operations [1]