System lets researchers explore phase transitions in a quantum system.
Test tube chemistry using synthetic DNA molecules can be utilized in complex computing tasks to exhibit artificial intelligence
South Korean researchers used carbon nanotubes and AI to create an ultra-thin portable keyboard that can be crumpled up like paper without breaking it.
US engineers have just unveiled Summit, a supercomputer which is capable, at peak performance, of 200 petaflops—200 million billion calculations a second.
The three supercomputer clusters are located at the University of Edinburgh, the University of Bristol and the University of Leicester, and will run more than 12,000 Arm-based cores.
A new quantum device entangles 20 quantum bits together at the same time, making it perhaps one of the most entangled, controllable devices yet.
The world could have more than 50 billion connected devices by 2020 — seven times the amount of people on Earth.
Using nine different cell populations assembled into 3D cultures, the team of synthetic biologists has managed to get them to behave like a very simple electronic computational circuit.
Following three years of extensive research, physicists have created technology that will enable our computers to run 100 times faster through terahertz microchips.
In the next five years, tiny computers - smaller than a grain of salt - will be tackling issues of counterfeit and food safety among others, tech giant IBM has predicted.
The Cray XC50 supercomputer's mission is to advance nuclear fusion research and development.
Researchers have produced a 'human scale' demonstration of a new phase of matter called quadrupole topological insulators that was recently predicted using theoretical physics.
The field of competitors looking to bring exascale-capable computers to the market is a crowded one, but the United States and China continue to be the ones that most eyes are on.
Researchers from two teams now working with Intel have reported advances in a new quantum computing architecture, called spin qubits.
A team from Australia have found a "quantum hack" - a way to modify qubit surface codes, improving quantum error correction by up to four hundred per cent.
