👉 Magnet computing is an innovative computational paradigm that leverages the principles of magnetism to perform data processing and storage, offering a fundamentally different approach from traditional electronic computing. In magnet computing, information is encoded in the magnetic states of materials, such as the orientation of magnetic domains in ferromagnetic or antiferromagnetic materials. This allows for data to be stored and manipulated using magnetic fields, which can be generated, modulated, and read out with high precision and efficiency. Magnet computing promises significant advantages in terms of energy consumption, as magnetic operations generally require less power compared to electronic ones, and it offers the potential for parallel processing at a scale that could revolutionize fields like artificial intelligence, big data analytics, and high-performance computing. By utilizing the inherent properties of magnetic materials, magnet computing aims to overcome some of the limitations faced by conventional computing architectures, particularly in terms of power efficiency and scalability.
