How Tokenizers Are Transforming AI Image Editing and Generation Recent innovations from MIT researchers are leveraging the hidden potential of neural networks called tokenizers for fast, flexible, and resource-efficient image manipulation. Tokenizers: More Than Co... AI computer vision image editing image generation machine learning MIT research neural networks tokenizers
MIT Introduces Precision in Genome Editing: Anti-CRISPR Protein Delivery System A recent breakthrough by MIT and Harvard scientists is set to enhance the safety and accuracy of the widely used CRISPR-Cas9 gene-editing tool, setting the stage for more effective gene therapies. Und... anti-CRISPR biotechnology CRISPR gene therapy genome editing MIT research precision medicine protein delivery
MIT's CodeSteer Helps Language Models Outsmart Complex Problems Large language models (LLMs) have dramatically changed our relationship with AI, offering impressive fluency in language understanding and generation. Yet, when these models confront tasks that demand... AI coaching algorithmic tasks artificial intelligence code generation large language models machine learning MIT research symbolic reasoning
MIT’s CodeSteer Is Coaching AI to Outsmart Complex Problems MIT researchers have built CodeSteer, a smart assistant designed to help large language models (LLMs) seamlessly alternate between generating text and writing code by utilizing a "coach" to evaluate t... AI code generation CodeSteer large language models machine learning MIT research problem solving symbolic reasoning
Astrocytes: The Brain's Secret to Massive Memory Storage? For decades, scientists believed that neurons did all the heavy lifting when it comes to memory. But a new wave of research from MIT is turning that idea on its head. The spotlight is now on astrocyte... artificial intelligence astrocytes brain cells dense memory memory MIT research neuroscience
MIT Physicists Unveil a Superconductor That Doubles as a Magnet MIT physicists have turned a once-unthinkable scenario into reality by discovering a “chiral superconductor” that is also intrinsically magnetic. Even more remarkable, this quantum phenomenon was foun... graphene magnetism materials science MIT research quantum physics superconductivity topological materials