Computational electromagnetics applies advanced numerical methods to solve Maxwell’s equations in complex geometries, enabling accurate simulations of electromagnetic phenomena across diverse scales.

Infrastructures often suffer severe damage due to geotechnical hazards of both natural kinds such as floods or earthquakes and man-made ones like underground construction work and excavations. The ...

GEM is a comprehensive electromagnetic gyrokinetic delta-f particle code that includes the full dynamics of gyrokinetic ions and drift-kinetic electrons. Magnetic perturbations perpendicular to the ...

A wave breaks on the shore, sending up splashes of water and spray and creating eddies in the surrounding air. However, the digital simulation of this everyday natural occurrence is anything but ...

A new learning system improves robots' abilities to mold materials into target shapes and make predictions about interacting with solid objects and liquids. The system, known as a learning-based ...

Brad Settlemyer had a supercomputing solution in search of a problem. Los Alamos National Lab, where Settlemyer works as a research scientist, hosts the Trinity supercomputer—a machine that regularly ...

There have been many attempts at teaching robots how to grab delicate objects, but they tend to rely on rough approximations that quickly fall apart in real life. MIT researchers may have a better ...

Altair, a global leader in computational intelligence and now part of leading technology company, Siemens, announced the ...