Scientists have developed a powerful new tool for finding the next generation of materials needed for large-scale, fault-tolerant quantum computing. The significant breakthrough means that, for the ...

“An Automata-Based Framework for Verification and Bug Hunting in Quantum Circuits” by Lengál et al., applies techniques ...

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

Classical AI is not a competitor to quantum; it’s a critical enabling technology for realizing quantum’s potential.

In an age where businesses run on code and secrets travel across fiber optics, the idea that a "quantum crisis" could ...

Superconductivity is an advantageous property observed in some materials, which entails an electrical resistance of zero at ...

Abstract: We investigate the feasibility of computing quantum gate-circuit emulation (QGCE ... Arguably, this belief is due to analogical reasoning: The classical Boolean equivalents of QGCE and QGCC ...

Silicon spin qubits could soon help unlock the next stage of quantum computing. For decades, scientists have tried to harness ...

Quantum computing, machines built on the counterintuitive laws of sub-atomic physics, promises raw processing muscle so immense it can crack today’s “unhackable” encryption in seconds.  The same ...

Instead of using quantum gates, computation in PQCs relies on local measurements of a highly entangled quantum state, called a cluster state. That requires single-photon sensors. In addition to ...