Raipur: The three-day international conference on Mathematical Modelling, Computational Intelligence Techniques, and ...

In this Python astrophysics tutorial, I walk you through calculating the gravitational field produced by a ring of mass. Using numerical methods and Python libraries, we explore how to compute ...

A researcher from the University of Tokyo and a U.S.-based structural engineer developed a new computational form-finding ...

BQP implemented VQLS-based approach that reduces circuit size, optimizes qubit usage and lowers number of trainable ...

A new NURBS-based algorithm is revolutionizing gridshell design by enabling faster, smoother, and more flexible shape-finding ...

In this tutorial, I demonstrate how to solve boundary value differential equations using the Finite Difference Method in Python. Learn step-by-step how to implement this numerical technique, ...

A scientist in Japan has created a technique that uses fMRI brain scans and artificial intelligence to generate sentences ...

The gravitational wave is a prediction of the general theory of relativity that can be detected by measuring the relative distance between two test masses (TM) along the geodesics. The TM is fixed by ...

A much faster, more efficient training method developed at the University of Waterloo could help put powerful artificial ...

This episode of Quantcast Master’s Series – part of the Tomorrow’s Quants project – welcomes Jack Jacquier, director of the ...

Researchers propose a synergistic computational imaging framework that provides wide-field, subpixel resolution imaging ...

Layered metasurfaces trained as optical neural networks enable multifunctional holograms and security features, integrating ...