Terahertz light can reversibly switch an unusual form of structural order in solids—called ferroaxiality—between clockwise and counterclockwise rotational patterns. Modern society relies on digital ...

This innovation successfully addresses the challenge of dual-mode operation in non-volatile memory, offering compatibility with silicon-based semiconductor processes for large-scale integration. The ...

Forbes contributors publish independent expert analyses and insights. This is the second in a set of four blogs about projections for digital storage and memory for the following year that we have ...

The rapid evolution of persistent memory (PM) technologies has spurred a significant shift in how data structures and algorithms are designed and implemented. Persistent memory, offering ...

The idea of combining memory and storage into one component has been around for a long time, but up until now, it was nowhere near becoming a reality. However, that might be about to change.

A long-running problem in the computer world is that DRAM is the fastest memory available but also volatile, so it can't hold onto its data when power is shut off. This makes it useless for data ...

New chip making techniques, faster SSD storage, and the use of AI and machine learning are some of the latest innovations helping increase the performance and efficiency of modern computers, and now a ...

In this interview, Arnaud Furnémont, vice president of R&D memory and compute at imec, reviews imec’s memory and storage roadmaps and explains how these respond to the industry’s need for ever more ...

Researchers from Lancaster University have developed a new type of computer memory product that they say combines the best features of DRAM memory and SSD storage…. and then surpasses them. Like flash ...

Researchers achieved ultrafast, stable switching of ferroaxial states using polarized terahertz light, paving the way for next-gen data storage. (Nanowerk News) Ferroic materials such as ferromagnets ...