What is neuromorphic computing? Everything you need to know about how it is changing the future of computing
Neuromorphic computing could completely transform everything about the technology industry from programming languages to hardware.
Neuromorphic computing could completely transform everything about the technology industry from programming languages to hardware.
One of the leading candidates to replace silicon CMOS transistors is carbon nanotubes. But there are still lots of issues with both the basic materials and device structure. Now IBM says it has solved one of the big ones.
So-called 'wonder material' graphene may be many things, but a replacement for silicon? Not so much, says the head of the graphene flagship that won €1bn in funding last month.
Carbon nanotubes may take over from silicon as processors get smaller and more energy-efficient, and IBM has just announced a fresh breakthrough in making the technology viable.
Moore's Law won’t suddenly end, but it is slowing down. The question is: What's next? IEDM, which takes place next week in San Francisco, is devoted to answering that question making it a great place to get a peek at the technologies that could power tomorrow's laptops and smartphones.
Intel researchers believe they have a workable manufacturing method for 10nm processors, paving the way for future chips that consume less power and have greater performance than their forebears.
The University of South Wales believe they have developed a method to build the smallest transistor possible.
In an about-face move, IBM has revealed that graphene can't fully replace silicon inside CPUs reports Bit-tech, a UK-based hardware enthusiast site. The reason? A graphene transistor can't actually be completely switched off.
IBM Research has demonstrated a radio-frequency graphene transistor with the highest frequency (100 GigaHertz) so far.