Scientists achieve groundbreaking room-temperature quantum coherence for 100 nanoseconds, propelling molecular qubits closer to practical quantum computing.
Researchers at Shanghai Jiao Tong University has demonstrated a DNA computer that can solve quadratic equations with 30 logic gates.
The Frontier supercomputer has now become the world's first known supercomputer to demonstrate a processor speed of 1.1 exaFLOPS (1.1 quintillion floating point operations per second, or FLOPS).
A new type of nanodevice for computer microprocessors is being developed that can mimic the functioning of a biological synapse -- the place where a signal passes from one nerve cell to another in the body.
A microchip containing 1,000 independent programmable processors has been designed. The energy-efficient "KiloCore" chip has a maximum computation rate of 1.78 trillion instructions per second and contains 621 million transistors.
Scientists have developed a new material, called 'rewritable magnetic charge ice,' that permits an unprecedented degree of control over local magnetic fields and could pave the way for new computing technologies.
An international group of mathematicians at Dartmouth College and other institutions have released a new online resource that provides detailed maps of previously uncharted mathematical terrain.
Cambridge to research future computing tech that could "ignite" a technology field A Cambridge-led project aiming to develop a new architecture for future computing based on superconducting spintronics - technology designed to increase the energy-efficiency of high-performance computers and data storage - has been announced. A project which aims to establish the UK as an international leader in the development of “superconducting spintronics” – technology that could significantly increase the energy-efficiency of data centres and high-performance computing – has been announced.
Researchers have developed a new approach to preserving superposition in a class of quantum devices built from synthetic diamonds. The work could ultimately prove an important step toward reliable quantum computers.
As optical computing becomes a more realistic prospect, lasers will be required to connect components inside our devices. Now, a new silicon-based laser could make it far easier for researchers to replace wires with beams of light.
