Shanghai clarifies IPO path for cash-hungry AI labs racing against US

The Shanghai Stock Exchange clarified IPO rules for unprofitable AI model developers, allowing listings on the Star Market for firms with an anticipated market cap of at least 4 billion yuan. The move aims to support cash-hungry Chinese AI labs racing against US competitors by providing capital market access for high-quality firms with commercialized large language model products.

Shanghai clarifies IPO path for cash-hungry AI labs racing against US The move aims to support listings of ‘high-quality’ AI firms that have yet to form ‘a certain scale of revenue’ The Shanghai Stock Exchange SSE has clarified rules for unprofitable artificial intelligence model developers wanting to go public, as China’s large language model LLM firms scramble for fresh capital in an intense race with US labs. LLM developers can go public on the Shanghai bourse’s Star Market under a set of listing standards that require them to have an anticipated market cap of at least 4 billion yuan US$591 million , as well as meeting certain criteria in terms of market potential, according to an exchange statement on Wednesday. The move aimed to support listings of “high-quality” AI firms that had yet to form “a certain scale of revenue”, according to the statement. AI players allowed to go public under such rules should have launched and operated at scale at least one LLM product, and need to have established “clear commercialisation arrangements”, according to the statement. LLMs have “emerged as the focal point of global technological competition”, the SSE said in a separate WeChat post on the same day. Companies should have sustained, high-intensity research and development efforts, computing power investments and specialised talent, and be “in urgent need of support from capital markets”, the WeChat post said. Also on Wednesday, the SSE amended rules for the Star Market to support listings from companies in other fields, including quantum technology, biomedicine, hydrogen and nuclear fusion energy, brain-computer interfaces, robotics, and sixth-generation mobile communications 6G , to “support high-level self-reliance and self-strengthening in science and technology”.