Quantum computing is one of the most exciting frontiers in modern technology, enabling us to solve problems that classical ...

Solving for a system's wave function. In quantum chemistry, a key value that unlocks all kinds of information about a system is the ground state, the lowest possible energy level of a system.

Unlike classical bits, Li said, qubits can exist in multiple states simultaneously, creating a vast computational space. The rise of quantum computing marks the second quantum revolution. The first ...

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 ...

Quantum computers excel at solving complex problems in drug discovery and optimization as well as modeling advanced materials, whereas classical computers focus on general-purpose computing tasks.

Hybrid quantum-classical computing (“HQC”) involves using both quantum computing and classical computing together in a system for one to address the shortcomings of the other.

The Quantum Leap: Charting the Future of Computing Global breakthroughs in hardware, simulation and research are pushing quantum computing closer to solving complex, real-world problems.

D-Wave's quantum computer reportedly performed a quantum simulation faster than classical computers, simulating quantum dynamics of spin glasses to describe magnetic materials.

The quantum computers of the future are expected to solve problems that are far beyond the reach of today’s most powerful supercomputers — a point known as “quantum advantage.” ...

Nvidia CEO Jensen Huang is growing more bullish about quantum computing — and he expects they'll start solving real-world problems in the coming years. "Quantum computing is reaching an ...

A quantum device can identify key values related to the movements of electrons within chemical systems, enabling classical computers to solve for ground-state energies with less heavy lifting ...