Electronic computers, like those we all use today, historically followed Moore's Law: the power of machines doubled every two years. But in recent years, progress has slowed as the miniaturisation ...

Faster Computers, Electronic Devices Possible After Scientists Create Large-area Graphene On Copper Date: May 11, 2009 Source: University of Texas at Austin Summary: The creation of large-area ...

Crash Course Computer Science is available to stream on pbs.org and the free PBS App, available on iPhone, Apple TV, Android TV, Android smartphones, Amazon Fire TV, Amazon Fire Tablet, Roku ...

The creation of large-area graphene using copper may enable the manufacture of new graphene-based devices that meet the scaling requirements of the semiconductor industry, leading to faster ...

The future may involve larger CPUs but with a much lower density of transistors. Why? Because of optics. The idea of purely optical computers—and hybrid electronic-optical computers—is not new.

To be competitive with electronic computers in terms of speed and computation, and explore very large numbers of possible solutions in parallel, network-based biocomputation needs to be scaled up.

Computers progressed from cumbersome electronic renderings of electromechanical machines to highly flexible and user-friendly machines.

A new travel regulation affecting 10 airports in the Middle East puts the focus on laptops, cameras, and other large electronics as possible explosives. Read on.

Quantum computing experiments now have a new control and readout electronics option that will significantly improve performance while replacing cumbersome and expensive systems.

Technology Light-based computers are getting close to a commercial launch Computers that use photons rather than electrons to manipulate data promise greater speed and energy efficiency, and the ...