刚刚，马斯克切脑全场震撼！插脑只要1.5秒，26年治愈失明，28年全人类变AI

Core Viewpoint - Neuralink's recent presentation showcased significant advancements in brain-machine interface technology, with a bold three-year roadmap aiming to enhance human capabilities and integrate AI with human consciousness by 2028 [2][11]. Group 1: Current Developments - Neuralink has successfully implanted devices in seven individuals, allowing them to interact with the physical world through thought, including playing video games and controlling robotic arms [4][11]. - The N1 implant enables individuals with severe disabilities, such as spinal cord injuries, to regain control over their environment, exemplified by a participant who can now play games and design 3D parts using CAD software [14][21]. Group 2: Future Goals - The ultimate goal of Neuralink is to create a full-brain interface that allows for high-bandwidth communication between the human brain and external machines, potentially transforming human interaction and capabilities [60][63]. - The three-year plan includes milestones such as implanting devices in the speech cortex to decode conscious words by Q4 2025, increasing electrode counts to 25,000 by 2028, and achieving multi-device implants for comprehensive brain access [75][78]. Group 3: Technological Innovations - The second-generation surgical robot has improved the speed of electrode implantation from 17 seconds to just 1.5 seconds per electrode, enhancing the efficiency of the procedure [80][82]. - Neuralink's N1 implant introduces a new mode of brain data transmission, effectively linking human neural networks to machine learning models, which could revolutionize human-computer interaction [83][84].