Your brain calculates complex physics every day and you don't even notice. This neuromorphic chip taps into the same idea.

More than 900 students at UC San Diego needed catch-up math classes in the fall of 2025 compared to 32 five years earlier.

Neuromorphic computers modeled after the human brain can now solve the complex equations behind physics simulations — something once thought possible only with energy-hungry supercomputers. The ...

Edward Goldsmith Although he was born in London and raised in Cambridge, Edward Goldsmith thinks more fondly of America than ...

Mathematicians finally understand the behavior of an important class of differential equations that describe everything from ...

In this research, the Differential Transformation Method (DTM) has been utilized to solve the hyperbolic Telegraph equation. This method can be used to obtain the exact solutions of this equation. In ...

Abstract: Difference Equations appear very often in discrete mathematics and computational science, as they describe how the future values of a system depend on their past values. Solving such ...

To mathematicians, equations are art. Just as many are moved by a painting or piece of music, to those who appreciate and understand math, expressions of numbers, variables, operations and relations ...

Abstract: Solving partial differential equations (PDEs) is a fundamental task for computational electromagnetic and mechanical wave modeling, which hold utmost significance in remote sensing and ...