After long-term joint research, the Tsinghua University research team broke through the physical bottleneck of traditional chips, creatively proposed a new computing framework for optoelectronic fusion, and developed the world's first fully analog optoelectronic intelligent computing. After long-term joint research, the Tsinghua University research team broke through the physical bottleneck of traditional chips, creatively proposed a new computing framework for optoelectronic fusion, and developed the world's first fully analog optoelectronic intelligent computing. After long-term joint research, the Tsinghua University research team broke through the physical bottleneck of traditional chips, creatively proposed a new computing framework for optoelectronic fusion, and developed the world's first fully analog optoelectronic intelligent computing chip (ACCEL). Empowered by the high-speed and high parallelism of light propagation, optoelectronic intelligent computing has evolved as the potential for next-generation high-performance computing paradigm. This paper is to renew and improve the CIELAB in creative computing approach, to make it develop with the more advanced computer screen and preparing for the related. These researchers have developed an all-analog photoelectronic chip that promises to revolutionize high-speed vision tasks. In order to tackle the challenge of sensitivity to the system errors induced by inevitable manufacturing defects and misalignment during packaging, ACCEL adopts adaptive training method to. In the science fiction movie "The Wandering Earth," artificial intelligence system "Moss" is able to explore all solutions to save the Earth in just a few seconds. This miraculous scene is gradually transitioning from science fiction to reality.