Core Viewpoint - The collaboration between Zhongke Shuguang and Zhongke Xingtou aims to innovate and apply "space computing" technology, enhancing capabilities in various fields such as disaster monitoring, low-altitude tourism, and commercial aerospace [1][2][3]. Group 1: Collaboration Details - Zhongke Shuguang and Zhongke Xingtou signed a cooperation agreement to develop space computing technologies, focusing on space chip research and the construction of an open and inclusive space computing network [1][4]. - The partnership is expected to create a unified cloud computing system that integrates ground and space computing systems over the next three to five years [1][3]. Group 2: Industry Context - The space sector is entering a significant digital and intelligent transformation phase, leading to the emergence of new technologies and scenarios, with "space computing" being a crucial component [2][3]. - Satellites are essential for tasks such as remote sensing, satellite internet, and disaster warning, necessitating a deep integration of "space and computing" to build a new innovation chain [2][3]. Group 3: Technological Development - The two companies plan to jointly develop high-performance, low-power, and highly reliable specialized chips for space computing applications, creating a comprehensive innovation chain from chips to applications [4][5]. - Zhongke Xingtou will provide the requirements for space computing scenarios, while Zhongke Shuguang will leverage its advanced computing expertise to lead chip and system architecture design [4]. Group 4: Broader Impact - The collaboration aims to release the potential of "space computing" by promoting partnerships across various industries, creating replicable and scalable application benchmarks in areas like emergency rescue, meteorology, and agriculture [5][6]. - The initiative will also extend to emerging fields such as low-altitude airspace management and electromagnetic sensing, enhancing capabilities in communication, environmental monitoring, and smart transportation [6][7]. Group 5: Future Prospects - The open and inclusive "space computing network" is expected to expand application scenarios, providing high-speed internet access to remote areas and enabling real-time processing of remote sensing data [7]. - The network will support real-time positioning and path optimization for autonomous vehicles and drones, as well as offer low-cost computing services to commercial aerospace enterprises, further driving the commercialization of the aerospace industry [7].