Organic transistor memory devices integrate organic semiconducting materials with field‐effect transistor architectures to achieve nonvolatile data storage. These devices harness charge trapping ...

In the era of big data and machine learning technology, performing low-power in-memory computing operations is becoming an increasingly important requisite. While much advance has been achieved in ...

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 ...

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 ...

Ultra-heat resistant computer storage can operate at Venus-like temperatures and may be used in extreme conditions such as nuclear plants and even for future NASA missions. When you purchase through ...

With transistors and logic gates as our basic building blocks, we can begin to construct the actual circuits that make up computer memory. One of the simplest memory circuits is the AND gate, which ...

Phase separation, when molecules part like oil and water, works alongside oxygen diffusion to help memristors -- electrical components that store information using electrical resistance -- retain ...

Electronic devices power everyday life, from smartphones to medical sensors. Yet, as these gadgets grow in number, so does the mounting challenge of electronic waste, or e-waste. Physically transient ...

Researchers have developed a new type of memory device that they say could reduce the energy consumption of artificial intelligence (AI) by at least 1,000. Called computational random-access memory ...

UD’s Tingyi Gu receives NSF CAREER award to study materials that can create more reliable, less energy-intensive forms of computer memory To develop the types of high-speed, energy-efficient ...