Transistors, the building blocks of modern electronics, are typically made of silicon. Because it's a semiconductor, this material can control the flow of electricity in a circuit. But silicon has ...
A Nature paper describes an innovative analog in-memory computing (IMC) architecture tailored for the attention mechanism in ...
MIT researchers with colleagues from the University of Chemistry and Technology in Prague have used 2D CrSBr, a van der Waals ...
Space on MSN
How do particle colliders work?
As the name suggests, particle accelerators involve accelerating subatomic particles to incredibly high speeds and smashing ...
A new study has uncovered the remarkable potential of biomolecular computing that could provide innovative solutions in next ...
A single phototransistor mimics retinal bipolar cell function while detecting visible and infrared light, enabling low-power ...
Tech Xplore on MSN
Innovative transistor design offering advantages for controlling and reading quantum chips
The smaller electronic components become, the more complex their manufacture becomes. This has been a major problem for the ...
A Planet Analog article, “ 2N3904: Why use a 60-year-old transistor? ” by Bill Schweber, inspired some interest in this old ...
Interesting Engineering on MSN
MIT demonstrates magnetic transistor with 10x stronger switching and built-in memory
The MIT team turned to chromium sulfur bromide, a two-dimensional material that acts as a magnetic semiconductor. Its structure allows researchers to switch between two magnetic states with precision.
Risk is high for pioneers of chiplet stacking, but the rewards could be significant. This will get easier, though.
AZoQuantum on MSN
New Silicon-Germanium Method Unlocks Quantum Potential
For the first time, researchers at TU Wien have successfully manufactured a silicon-germanium (SiGe) transistor using an ...
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