Innovations in materials science, quantum computing, and nanotechnology promise to sustain the trajectory of rapid progress in computing capabilities, even as the semiconductor industry evolves beyond ...

and the ability to meet future challenges beyond Moore’s Law. “The development of the IC and semiconductor industry today requires collaboration of many fundamental disciplines, such as ...

Spintronics is the combination of electronics and magnetism at nanoscale and could allow electronic development at speeds exceeding Moore’s law, which observes that computer processing power roughly ...

And now that Moore’s Law is dead, how will SoC designers continue to survive ... Interestingly, refactoring will now help the hardware world move beyond the free lunch era. The short answer is not yet ...

Beyond just manufacturing concerns ... the fundamental limits of physics have nearly taken us to the end of Moore’s law, but with the ever-present demand for better, smarter, and faster ...

Moore’s Law states the number of transistors on an integrated circuit will double about every two years. This law, coined by Intel and Fairchild founder [Gordon Moore] has been a truism since it ...

The immediate pursuit of Moore’s Law makes sense for companies that require the performance and density that come with leading-edge process technology, and that can afford the costs of creating large, ...

Back in the 1960s, it seemed like better communications could solve all our problems. Don’t blame the technology for the failure of that dream, says Annalee Newitz ...

For the longest time, there's been a golden rule in technology, often shorthanded as Moore's Law: Every year, transistors get smaller, and devices get faster and more capable as a result.

That's taller than three Saturn V rockets, stacked on top of each other. Using Moore's law, that would jump to six Saturn V rockets in two years and twelve in another two years. Bringing that ...