Magnetoresistive random-access memory, or MRAM, promises to make computers more efficient and powerful, but a few hurdles still need to be cleared.

MRAM can be energy-intensive, but a new generation of this technology will enable greater computing power and resilience, as well as much lower energy requirements.

[smbaker] is placing his magnetic bubble memory module to work in a Heathkit H8, an Intel 8080-based microcomputer from the the late 70s. The video goes into great detail on the theory of how thes ...

The finding could one day be harnessed in ultrafast computing memory, the researchers say. The scientists formulated a new equation that describes the link between the amplitude of the magnetic ...

Researchers at the Max Planck Institute for the Structure and Dynamics of Matter (MPSD) have developed an innovative method to study ultrafast magnetism in materials. They have shown the generation ...

Core memory, magnetized memory using tiny magnetic rings suspended on a grid of wires, is now more than five decades obsolete, yet it exerts a fascination for hardware hackers still. Not least ...

report_id=Pol857 Magnetic RAM, also known as magneto resistive RAM, is a type of non-volatile RAM that stores data using magnetic charges. Magneto resistive RAM is the result of the merging of static ...

The ability to control magnetism with laser pulses, without the need for external magnetic fields, could enable the creation of highly efficient, non-volatile memory devices that are faster ...

NXP Semiconductors has introduced the S32K5 family of automotive microcontrollers (MCUs), marking the industry's first 16nm FinFET MCU with embedded magnetic RAM (MRAM). This new MCU family is ...

These rapid transients are of great interest for fundamental research into non-equilibrium states of matter and for potential applications in next-generation magnetic memory, where faster writing ...