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

Many see quantum computing's advent as marking a paradigm shift from classical, or conventional, computing. Conventional computers process information in the form of digital bits (0s and 1s ...

He calls the back and forth between the quantum- and classical-computing communities a “symbiotic relationship,” in which the two sides challenge each other by developing ever-more sophisticated ...

[Related: In photos: Journey to the center of a quantum computer] However, classical computers have an upper limit when it comes to these types of problems, especially when the models become more ...

Quantum computers still face a major hurdle on their pathway to practical use cases: their limited ability to correct the ...

An article on quantum machine learning research is published in Frontiers in Physics. Neural networks are now commonly used to solve a wide range of computational problems. At this stage, the power of ...

Quantum hardware, on the other hand, taps into the weirdness of quantum mechanics to solve problems too impractical for classical computers. That’s because quantum bits, aka qubits, can exist as ...

To somewhat work around these limitations, IBM has now pitched the idea of a hybrid quantum-classical computer (marketed as ‘quantum-centric supercomputing’), which as the name suggests ...

They have proven, for the first time, that a quantum computer can generate bits of randomness that are certifiably random—verified using classical supercomputers. This breakthrough goes beyond ...

When someone says that quantum computers are "exponentially" more powerful than classical computers, this is precisely what they mean. The potential Quantum computing's big potential ...

Many see quantum computing's advent as marking a paradigm shift from classical, or conventional, computing. Conventional computers process information in the form of digital bits (0s and 1s ...