Computing
WHY THIS MATTERS IN BRIEF The more Qubits a quantum computer can run the more powerful it becomes, this breakthrough could give researchers a new…
WHY THIS MATTERS IN BRIEF Many of todays technology advances, such as AI and materials science, have been made possible by the dramatic increase…
WHY THIS MATTERS IN BRIEF Quantum computers are millions of times more powerful than todays traditional computers, if they can be developed and bought into…
WHY THIS MATTERS IN BRIEF Neuromorphic chips that mimic how the human brain operates and carries out tasks still rely on silicon, moving to optical,…
WHY THIS MATTERS IN BRIEF Stable Qubits will help people store and manipulate information that can then be processed millions of times faster by Quantum…
WHY THIS MATTERS IN BRIEF A chemical computer, one that doesn’t use electrical signals to communicate, means that we now, potentially, have a way to…
WHY THIS MATTERS IN BRIEF Nanoscale computers could work inside, or outside the body to help control, direct and interact with other atomic, molecular or…
WHY THIS MATTERS IN BRIEF Being able to model the human brain will help us create better treatments for neurological conditions, and might also help…
WHY THIS MATTERS IN BRIEF New breakthrough paves the way for the first practical quantum computers. Quantum computers are a reality but unlike the…
WHY THIS MATTERS IN BRIEF Berkeley Lab breakthrough might help to reboot Moores Law. Transistor size is an important part of improving the price-performance of…
The oceans are home to coral reefs, ship wrecks and now – datacenters Continuing its long tradition of datacenter experimentation in the name of efficiency,…
Microsoft has been toying around with FPGAs and now they’re on track to turn Azure into the world’s biggest supercomputer Microsoft is embarking on a major…
