Core Viewpoint - The research team has developed the world's first adaptive full-band high-speed wireless communication chip based on optoelectronic integration technology, laying a revolutionary hardware foundation for the practical application of 6G communication technology [1][2]. Group 1: Technology Breakthrough - The chip, the size of a fingernail, can dynamically allocate resources across a full frequency range from microwave, Sub 6 GHz to millimeter wave and even terahertz, achieving data transmission speeds exceeding 120 Gbps [1][3]. - The system utilizes advanced thin-film lithium niobate photonic materials and introduces a new architecture called "ultra-wideband optoelectronic fusion wireless transceiver engine," which allows for broad, rapid, and precise frequency reconstruction [2][3]. Group 2: Performance and Capabilities - The chip can generate communication signals across an ultra-wide range of 0.5 GHz to 115 GHz with high precision and low noise, overcoming the classic industry challenge of noise accumulation at high frequencies [3]. - The system demonstrates impressive performance consistency, maintaining stable communication quality across all frequency bands, with no degradation in high-frequency performance [3]. Group 3: Future Implications - This technology will enable more flexible and intelligent AI wireless networks, potentially reshaping the future landscape of wireless communication [4]. - It lays the hardware foundation for a truly "AI-native network," capable of dynamically adjusting communication parameters to adapt to complex electromagnetic environments [4]. - The breakthrough is expected to drive upgrades in key components such as broadband antennas and optoelectronic integrated modules, leading to a comprehensive transformation across the entire industry chain [4].