In a world first, a team led by researchers at Penn State used two-dimensional materials, which are only an atom thick and retain their properties at that scale, unlike silicon, to develop a computer capable of simple operations. The advancement, published in Nature, represents a major leap toward the realization of thinner, faster and more energy-efficient electronics, the researchers said.
A promising start, but a thousand transistors at 25 kilohertz puts it where silicon tech was 60 years ago, so they’ve a long, long way to go.
If you’re talking about the desire to replace today’s modern CPUs, sure. However, in the world of electronics there are lots and lots of support electronics and ICs that run way slower than 25kHz. All of this assumes the technology can scale for cost effective manufacturing yields at this current speed. If its both expensive AND slow, it will have far fewer use cases.
The article seems to imply that the intention is to replace silicon entirely, but agreed, there might be niches where it can replace silicon even if full replacement might be unrealistic.
If you’re talking about the desire to replace today’s modern CPUs, sure. However, in the world of electronics there are lots and lots of support electronics and ICs that run way slower than 25kHz. All of this assumes the technology can scale for cost effective manufacturing yields at this current speed. If its both expensive AND slow, it will have far fewer use cases.
The article seems to imply that the intention is to replace silicon entirely, but agreed, there might be niches where it can replace silicon even if full replacement might be unrealistic.