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A groundbreaking development by an MIT-led team could potentially revolutionize machine-learning programs, making them several orders of magnitude more powerful than current models like ChatGPT. The team’s system operates using light-based computations instead of traditional electronics, resulting in significantly improved energy efficiency and compute density.In a publication in Nature Photonics, the researchers reported their first experimental demonstration of the new system. Instead of relying on electrons, their method harnesses the movement of light using hundreds of micron-scale lasers. This breakthrough approach brings remarkable improvements, with over 100-fold enhancement in energy efficiency and a 25-fold improvement in compute density compared to state-of-the-art digital computers used for machine learning.The system’s potential for advancement is staggering, with the team projecting “substantially several more orders of magnitude for future improvement.” This breakthrough has the potential to pave the way for large-scale optoelectronic processors that could accelerate machine-learning tasks across a range of devices, from data centers to small, decentralized edge devices like cell phones.Towards a More Powerful ChatGPTCurrently, machine-learning models, like ChatGPT, face limitations in size due to the constraints of today’s supercomputers. Training larger models becomes economically unviable. However, the newly developed technology could provide a significant leap forward, making it feasible to explore machine-learning models that were previously out of reach.With a machine-learning model that is 100 times more powerful, the capabilities of the next-generation ChatGPT become a realm of exciting possibilities. Researchers can unlock discoveries and innovations that were previously unimaginable.This accomplishment is the latest in a series of remarkable achievements by the MIT-led team. Building on theoretical work in 2019, they have now realized the first experimental demonstration of their light-based system. The collaboration and contributions of experts from different institutions have played a crucial role in this breakthrough.Advantages of Light-Based ComputingUsing light instead of electrons for DNN computations holds immense potential for overcoming current bottlenecks. Optics-based computations have the advantage of consuming significantly less energy compared to electronic-based systems. Additionally, optics enable much larger bandwidths, meaning more information can be transferred over smaller areas.However, previous optical neural networks (ONNs) faced significant challenges, such as energy inefficiency and bulky components. The new compact architecture developed by the researchers successfully overcomes these issues. Their approach, based on state-of-the-art vertical surface-emitting lasers (VCSELs), resolves all previous challenges and more.Image:”Artificial Intelligence & AI & Machine Learning” by mikemacmarketingA Bright Future for Machine LearningWhile there is still progress to be made before practical, large-scale, and cost-effective devices can be realized, researchers are optimistic about the potential of systems based on modulated VCSEL arrays. The efficiency and speed of optical neural networks like the one developed by the MIT-led team could significantly accelerate the large-scale AI systems used in popular textual models like ChatGPT.The future looks promising for the integration of light-based computing in the world of machine learning. As this technology continues to advance, it could revolutionize the capabilities of AI systems and open up new frontiers of discovery and innovation. As tech enthusiasts, we are eager to see what is coming in the next years!
Filed in Robots. Read more about ChatGPT and Machine Learning.
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