A low-energy challenger to the quantum computer also works at room temperature. The researchers have shown that information can be transmitted using magnetic wave motion in complex networks. A ...

Following the breakthrough, researchers at the University of Gothenburg are now building networks of hundreds of thousands of oscillators to develop the next generation of Ising machines. Because the ...

Coherent Ising machines (CIMs) represent an innovative class of computing systems that leverage networks of coupled oscillators—often realised using optical, electronic or quantum circuits—to solve ...

A team of researchers at Queen's University has developed a powerful new kind of computing machine that uses light to take on ...

(a) This diagram depicts fully connected neurons or spins, where each element interacts with every other. (b) Although each spin can only take one of two values, the activation function used to update ...

Ising machines demonstrate significant potential to tackle computationally complex challenges, including combinatorial optimization problems related to logistics, manufacturing, finance, and AI. The ...

The Ising model in physics describes how subatomic particle spins interact and arrange themselves inside a magnetic material. Ising machines, derived from the model, are one example of the emerging ...

Researchers at the NTT Research Physics and Informatics (PHI) Lab and Tohoku University co-author paper outlining the capabilities of single photon Coherent Ising Machines (CIM). Paper reports ...

A new type of computer uses oscillators in special materials to find the most efficient solutions to complex scheduling and routing problems at room temperature. (Nanowerk News) A line of engineering ...

Researchers from the Department of Electrical Engineering at Tokyo University of Science in Japan have developed what “a novel approach” to combinatorial optimisation problems (COPs). COPs are ...