Quantum computers hold incredible promise, but one major challenge still stands in the way: their struggle to correct errors ...

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

Understanding randomness is crucial in many fields. From computer science and engineering to cryptography and weather ...

Quantum computing can boost the accuracy of battery material simulations, optimize power grid flows and enhance the design of ...

Quantum computing is a futuristic technology that's with a lot of potential. What does it hold for marketers? The post What ...

Most quantum computers, including IBM's, work with less than 100 qubits, ... quantum simulation is likely to be one of the first applications of the technology to witness real-world impacts. ...

More information: Hans Hon Sang Chan et al, Grid-based methods for chemistry simulations on a quantum computer, Science Advances (2023). DOI: 10.1126/sciadv.abo7484 ...

Quantum computing made simple-ish. Put simply (or as simply as possible), traditional computers run on binary systems where a ‘bit’ can only be a value of 0 or 1, thus the scale of any ...

A typical quantum computing algorithm assumes that all computational operations, termed gates, are done using either an individual qubit or pairs of qubits (these are termed one- or two-qubit gates).

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

Topological quantum simulation unlocks new potential in quantum computers Date: August 30, 2024 Source: National University of Singapore Summary: Researchers have successfully simulated higher ...

Quantum computers treat electrons as probabilities that are best conceived of as waves—the electron isn’t in one place ... How Do We Know We’re Not Living Inside A Massive Computer Simulation?