In the strange world of quantum computing, randomness isn’t just noise. It’s a powerful resource. Whether you’re designing ...

Semiconductor processing is notoriously challenging. It is one of the most intricate feats of modern engineering due to the ...

Working in tandem, a quantum computer and a supercomputer modelled the behaviour of several molecules, paving the way for ...

Quantum machine learning (QML) is transitioning from research to practical business applications. Discover how QML is ...

Despite the impressive and undeniable strides quantum computing has made in recent years, it’s important to remain cautious ...

CSIRO researchers have used quantum machine learning to enhance semiconductor fabrication—a world-first that could reshape ...

In a first, Australian scientists turned to quantum machine learning to model semiconductor design, outperforming classical ...

Quantum researchers finally captured the field’s “holy grail,” showing real machines can beat classical computing ...

A research team has achieved the holy grail of quantum computing: an exponential speedup that’s unconditional. By using clever error correction and IBM’s powerful 127-qubit processors, they tackled a ...

D-Wave Quantum (NYSE: QBTS), an early mover in the quantum computing market, went public by merging with a special purpose ...

While randomising a deck of cards gets more difficult as you add more cards, it turns out that the same isn't true for the ...

For over a decade, researchers have considered boson sampling—a quantum computing protocol involving light particles—as a key ...