A research team, led by the University of Cambridge, has developed a novel computer memory design, which promises to significantly improve performance while reducing the energy demands of internet and ...

Memory technology has evolved quickly in recent years, driven by the need to improve on traditional systems. One promising candidate, Magnetoresistive Random Access Memory (MRAM), is gaining attention ...

Picture the smartphone in your pocket, the data centers powering artificial intelligence, or the wearable health monitors that track your heartbeat. All of them rely on energy-hungry memory chips to ...

Power management has received increasing focus in microelectronic systems as the need for greater power density, efficiency and precision have grown apace. One of the important ongoing trends in ...

(Nanowerk News) We are tasking our computers with processing ever-increasing amounts of data to speed up drug discovery, improve weather and climate predictions, train artificial intelligence, and ...

Computer memory could one day withstand the blazing temperatures in fusion reactors, jet engines, geothermal wells and sweltering planets using a new solid-state memory device developed by a team of ...

When researchers make electronics on flexible substrates, device performance typically suffers. A new, flexible version of a promising class of computer memory bucks that trend, using one-tenth to one ...

Universal memory promises to replace both RAM and flash storage in computers with a better, faster and more energy-efficient alternative — and researchers have just moved this one step closer to ...

Ferroelectric random access memory, or FeRAM, has long promised to offer a low-power alternative to flash computer memory, but its limited endurance cannot offset its deficiency in density such that ...

Of all the PC-related things to come out of CES this year, my favorite wasn’t Nvidia’s graphics cards or AMD’s newest Ryzens or Intel’s iterative processor refreshes or any one of the oddball PC ...