The lead-up to the 50 th anniversary of Moore’s Law resulted in a deluge of news stories, reminiscences and analysis. Was that necessary or even appropriate? Actually, yes, especially as you realize ...

Gordon Moore wasn’t overly enthused when he was asked to write an article to celebrate the 35th anniversary of Electronic Magazine in 1965. "I was given the chore of predicting what would happen in ...

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. Do you ...

The concept of Moore's Law was first introduced by Gordon Moore, co-founder of Intel, in 1965. Moore's prediction that the number of components (transistors) on a chip would double every year has been ...

A lot has been said about Moore’s Law over the last decade. Most of it has had to do with it either being dead or at the very least slowing down. Clearly there are still breakthroughs being made in ...

When you’re strapping on the latest smart watch or ogling an iPhone, you probably aren’t thinking of Moore’s Law, which for 50 years has been used as a blueprint to make computers smaller, cheaper and ...

The understated Nvidia CEO Jensen Huang claims that the performance of his company's AI chips is advancing faster than the rates historically set by Moore's Law. Talking to TechCrunch Huang said: "Our ...

The advancement of semiconductor technology kept pace with Moore's Law until around the year 2000, when physical limitations created a significant bottleneck. However, a 2007 breakthrough in ...

Next month, the worldwide semiconductor industry will formally acknowledge what has become increasingly obvious to everyone involved: Moore's law, the principle that has powered the ...

Moore’s Law was a ten-year forecast on transistors that instead held true for decades. We are reaching the physical limit of how powerful the same size of computer chip can be. For those who seek the ...

Rule for advancing computing power continues to hold true 50 years later. SUNY College of Nanoscale Science and Engineering's Michael Liehr, left, and IBM's Bala Haranand look at wafer comprised of ...