There are similarities and differences between what the company is talking about today and IBM's recent update of its roadmap ...

Quantum computing won’t deliberately delay outcomes, but it is indicative of the business model challenge for consumption pricing. I believe that pricing for quantum computing will follow a use ...

A quantum computer came up with better answers to a physics problem than a conventional supercomputer. A model of the interior of a quantum computer at the IBM Thomas J. Watson Research Center in ...

While China has invested aggressively in quantum hardware and research, the likes of U.S., Europe, and Canada aren’t left far behind. Fine-tuning is the process of taking a pre-trained language ...

A quantum circuit (left) is passed to an encoder (top) that creates a feature set for the ML model (right) based on the circuit and the quantum processor unit (QPU) targeted for execution.

To address this, California-based Atom Computing is working alongside Microsoft. In September 2024, Microsoft announced a collaboration with Atom to build the world’s most powerful quantum ...

Where bits are used in classical computing to process data in binary states of 1 or 0, and in sequence, quantum computing uses qubits (which rely on the laws of quantum mechanics) to encode data ...

This simple yet elegant binary design has powered decades of innovation and progress. Quantum computing flips this model entirely. It steps into the fascinating, albeit spooky, ...

Quantum machine learning could classify larger datasets in less time, and quantum neural networks could process information in ways that classical neural networks cannot. While existing AI tools are ...

Quantum computing ditches transistors and instead encodes information using qubits, which act like artificial atoms. Qubits aren't binary—they can be zero or one or anything in between.