A label-free nanopore platform uses programmable DNA circuits to build versatile molecular logic gates, forming a universal basis for scalable DNA computing and advanced biosensing applications.

In order to increase the dependability of quantum calculations, study explores the use of Shor’s algorithm in a noisy quantum ...

Over on YouTube [Usagi Electric] shows us how to make RAM for the TMS9900. He starts by remarking that the TI-99/4A computer ...

Infineon’s RIC70847 rad-hard buck controller with an integrated drive targets point-of-load power rails in commercial space ...

In the heart of East Texas sits a bargain hunter’s paradise so vast it can be seen from space—or at least from a low-flying plane with good eyesight. First Monday Trade Days in Canton transforms 450 ...

If you cultivate an interest in building radios it’s likely that you’ll at some point make a simple receiver. Perhaps a ...

We increasingly live in the world of the visceral abstract, where the technologies that shape our lives are deeply rooted in ...

New research reveals how tiny electrical gates in the brain, known as NMDA receptors, control learning, memory, and neuron ...

A tiny neural network is sufficient to control the daily rhythm of the fruit fly, Drosophila melanogaster. Researchers at the ...

This engineering exam, which is a gateway to some of the premium engineering colleges such as IITs, NITs and more, cover ...

As information zings from cell to cell inside the brain, bursts of electricity spur its transmission. At Cold Spring Harbor Laboratory (CSHL), scientists have turned their attention to the tiny pores ...