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The iFixit Teardown BreakthroughApple's latest offering, the MacBook Neo, is generating significant buzz not for its raw power, but for its design philosophy. According to a comprehensive teardown by the repair advocacy website iFixit, the Neo is the most repairable MacBook in approximately fourteen years. This marks a pivotal shift from the company's previous strategy of using adhesives to secure internal components.Battery Innovation: The most significant technical breakthrough is the battery installation method. Unlike previous models where batteries were glued into place, the Neo's battery is held by a tray secured with 18 screws.Community Reaction: iFixit noted that this 'screws still beat adhesive' approach 'sent cheers across the iFixit office,' highlighting the repair community's enthusiasm for user autonomy.Component Accessibility: The device features a flat disassembly tree, making it easier to replace the display and keyboard compared to previous iterations.The 6/10 Score and Technical ImplicationsDespite these improvements, the MacBook Neo received a repairability score of 6 out of 10. While iFixit described this as a 'strong score' for a MacBook, it confirms that the device is not fully repairable.Remaining Limitations: The device still utilizes soldered RAM and storage, preventing users from upgrading these components after purchase.Strategic Layout: iFixit praised the internal layout as 'unusually sensible,' noting that parts that typically fail first—such as the battery and ports—are now modular and easier to reach.Repair Assistant: The system's Repair Assistant appears to be more accepting of replacement parts, reducing friction for authorized repairs.Reversing the 2012 Glue StrategyThe Neo's design represents a stark reversal of Apple's 2012 strategy. When Apple introduced the Retina Display MacBook Pro, it moved aggressively toward centralized repair, removing DIY accessibility and gluing down critical components like memory and batteries. That model received a 1 out of 10 score from iFixit.This new approach suggests Apple is responding to the 'Right to Repair' movement and state legislation, such as laws in Oregon, which have pressured the company to lift restrictions on repairing devices using older parts.The Future of Right to RepairThe MacBook Neo serves as a proof-of-concept that repairability can be integrated into high-end consumer hardware without sacrificing build quality. As the electronics industry faces increasing scrutiny over e-waste and planned obsolescence, this design pivot could signal a broader industry trend toward modular and serviceable devices.

Researchers at Cortical Labs in Melbourne have created a 'biological computer' using living human tissue, which can play the 1993 shooter game Doom. The team used 10ml of blood from CEO Hon Weng Chong to harvest 100 white blood cells, which were then reprogrammed into induced pluripotent stem cells (iPSCs). These cells were used to create a dish of 200,000 neurons that can interface with a computer system.The brain cells were taught to play Doom by encoding game state information, passing it through a neural network, and converting it into signals the neurons can understand. The neurons then fire an output, which the system decodes and converts back into actions in the game. This process is similar to how humans operate, with information going into the retina, being converted into electrical signals, processed in the brain, and resulting in an output.While the achievement has sparked concerns about sentience and consciousness, Chong believes the brain cells are not conscious, stating, 'At first it didn’t know how to move, aim or shoot. Then it would shoot two enemies and stop. So it’s definitely learning.' The next step could be integrating this technology with Neuralink, a brain-machine interface developed by Elon Musk.The application of biological computing lies not in gaming, but in medicine, such as disease modeling for conditions like epilepsy. This technology could allow for personalized drug testing and tailored treatments. Meanwhile, Eon Systems in San Francisco has created a virtual insect brain that can behave like a real fly, challenging the assumption that intelligence must be acquired.Biological systems like these could eventually power robots, drones, and other machines that need to navigate complex environments. As Chong notes, 'Abstract reasoning, mathematics and language are relatively recent in evolutionary terms... but motor control and probabilistic decision-making are things we’ve inherited through millions of years of evolution.' While we're far from uploading human consciousness into the internet, this technology marks a significant step in the development of biological computing.