![\"New](\"https:\/\/www.newsbeep.com\/us\/wp-content\/uploads\/2025\/09\/new-approach-to-energy.jpg\" "\\"Proposal")
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Proposal of a spintronic chip for efficient neuromorphic computing. Credit: Communications Physics (2025). DOI: 10.1038\/s42005-025-02257-0<\/p>\n
The rapid development of artificial intelligence (AI) poses challenges to today’s computer technology. Conventional silicon processors are reaching their limits: they consume large amounts of energy, the storage and processing units are not interconnected and data transmission slows down complex applications.<\/p>\n
As the size of AI models is constantly increasing and they are having to process huge amounts of data, the need for new computing architectures is rising. In addition to quantum computers, focus is shifting, in particular, to neuromorphic concepts. These systems are based on the way the human brain<\/a> works.<\/p>\n This is where the research of a team led by Dr. Tahereh Sadat Parvini and Prof. Dr. Markus M\u00fcnzenberg from the University of Greifswald and colleagues from Portugal, Denmark and Germany began. They have found an innovative way to make computers of tomorrow significantly more energy-efficient. Their research centers around so-called magnetic tunnel junctions (MTJs), tiny components on the nanometer scale.<\/p>\n “These components not only store information, they can even process it, just like nerve cells. This makes them ideal for novel computing concepts that are based on the way the brain works, what we call ‘neuromorphic computing,'” explains Dr. Tahereh Sadat Parvini, postdoc at the University of Greifswald and co-author of the paper that was recently published<\/a> in Communications Physics.<\/p>\n The research team developed a hybrid opto-electrical excitation scheme that combines electrical currents with short laser pulses. This made it possible to generate particularly high thermoelectric voltages in the MTJs\u2014an important prerequisite for the targeted simulation of synapse behavior.<\/p>\n The physicists<\/a> were able to identify three particularly remarkable properties: First, the generated voltage can be adjusted flexibly depending on the electrical current, similar to the weight of a synapse in the brain. Second, spontaneous “spike” signals occurred, which are similar to the way information is exchanged between nerve cells. Third, in computer simulations<\/a>, a simple neuromorphic network based on this technology already achieved a recognition accuracy of 93.7% for digits that had been written by hand.<\/p>\n “Our results show that MTJs with optical-electrical control represent a compact and energy-saving platform for the next generation of computing,” summarizes Prof. Dr. Markus M\u00fcnzenberg. “As the technology is compatible with today’s semiconductor technology, we believe that in the future, it could be used in everyday devices as well as high-performance computers.”<\/p>\n More information: Provided by \t\t\t\t\t\t\t\t\t\t\t\t\t<\/a><\/p>\n \n Citation: \n This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
\n\t\t\t\t\t\t\t\t\t\t\t\tFelix Oberbauer et al, Magnetic tunnel junctions driven by hybrid optical-electrical signals as a flexible neuromorphic computing platform, Communications Physics (2025). DOI: 10.1038\/s42005-025-02257-0<\/a><\/p>\n
\n University of Greifswald<\/a>
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\n Magnetic tunnel junctions mimic synapse behavior for energy-efficient neuromorphic computing (2025, September 18)
\n retrieved 18 September 2025
\n from https:\/\/techxplore.com\/news\/2025-09-magnetic-tunnel-junctions-mimic-synapse.html\n <\/p>\n
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