On Oct. 3, 1950, three Bell Labs scientists received a patent for a "three-electrode circuit element" that would usher in the transistor age and the era of modern computing.

Magnetic transistors have been a hot topic for years, but a breakthrough led by researchers at MIT with chromium sulfur bromide (CrSBr) could push us closer to realizing more energy-efficient and ...

Researchers from Massachusetts Institute of Technology (MIT) and University of Chemistry and Technology Prague created a magnetic transistor with built-in memory using a novel magnetic material and an ...

A Nature paper describes an innovative analog in-memory computing (IMC) architecture tailored for the attention mechanism in large language models (LLMs).

A single organic device reconfigures as transistor, rectifier and logic gate, offering compact circuits with higher functional density for flexible and lightweight electronics.

A Planet Analog article, “ 2N3904: Why use a 60-year-old transistor? ” by Bill Schweber, inspired some interest in this old transistor and how it’s commonly used, and if any uncommon uses might exist.

MIT researchers with colleagues from the University of Chemistry and Technology in Prague have used 2D CrSBr, a van der Waals antiferromagnetic semiconductor, to create a transistor that could enable ...

A new study has uncovered the remarkable potential of biomolecular computing that could provide innovative solutions in next generation of integrated circuits. In their article published in Materials ...

MIT engineers developed a magnetic transistor that could lead to smaller, faster, and more energy-efficient electronics, using a magnetic semiconductor material.

Probabilistic Ising machines (PIMs) are advanced and specialized computing systems that could tackle computationally hard problems, such as optimization or integer factorization tasks, more ...