Quantum advantage: Schematic diagram of the Zuchongzhi-3 chip ... which resource requirements grow as problems become more complex. Evidence that a quantum computer can solve a problem faster than a ...

As quantum computing hardware advances, the demand for scalable, precise, and fully automated verification techniques for ...

A schematic diagram of the chip used in the superconducting quantum computer prototype Zuchongzhi 3.0. XINHUA HEFEI — Chinese scientists have unveiled a superconducting quantum computer ...

Typical superconducting quantum circuits, such as qubits—basic processing units of a quantum computer, must be operated at very low temperatures, of a few 10s of millikelvin, or hundredths of a ...

Transistors are the fundamental building blocks behind today's electronic revolution, powering everything from smartphones to ...

The researchers first determined these circuits for small systems using classical computers. Next, they took advantage of the quantum circuits' scalability to prepare a simulation for large ...

This 10-atom version is right on the limit of what classical computers can simulate, so the team’s plans for a 20-atom quantum circuit would allow for simulation of more complex molecules for ...

Usually, I reflexively delete press releases. This one was no different, but as the message vanished, the subject line registered—“IonQ… quantum computing.” It took a second, but I ...

Stabilizer states are a class of states that can be effectively simulated on classical computers ... Now if you had a quantum ...

You need a 64-bit VM to compare to a 1024-qubit quantum computer. Comparing virtual-circuit performance was a challenge. Finding the right way to do it helped, since quantum computers and ...