This breakthrough not only enhances the simulation efficiency of quantum computing but also provides new insights for the design and optimization of future quantum algorithms.

Quantum infrastructure software is redefining quantum computing by automating calibration, optimizing workloads, and letting ...

Quantum computing is advancing with superconducting chips, simulators and a hybrid model bridging today’s systems with future hardware.

Performing the same simulation with a traditional quantum computer (without using bosonic modes) would require 11 qubits, and to carry out roughly 300,000 “entangling” operations without errors.

The researchers used a D-Wave quantum annealer equipped with 5,564 superconducting flux qubits, linked through the Jülich UNified Infrastructure for Quantum computing (JUNIQ).

Computer simulations of high-energy particles are pushing the boundaries of what we can learn about the interactions that happen inside particle colliders ...

Quantum computing can enable direct simulation of quantum dynamics, capturing interactions between electronic and nuclear components more accurately than classical methods.

As quantum computing develops, scientists are working to identify tasks for which quantum computers have a clear advantage over classical computers. So far, researchers have only pinpointed a ...

The researchers used a D-Wave quantum annealer equipped with 5,564 superconducting flux qubits, linked through the Jülich UNified Infrastructure for Quantum computing (JUNIQ).