AI focuses on learning patterns from data to make decisions; quantum computing focuses on raw computational power for complex problems like molecular simulation and code-breaking.

Qubits differ from classical bits, which are coded as only 0 or 1. A qubit can be a combination of both 0 and 1 simultaneously. One way to think of it is as a coin spinning between a 0 and a 1 axis.

The start of construction of the campus hinges on state environmental officials approving plans to remediate the site and protect area residents.

Prof Abhay Karandikar, Secretary, Department of Science and Technology, speaks about the National Quantum Mission and how ...

The launch of Digital Asset Haven positions IBM as a key player in the fast-growing tokenization market. IBM is also seeing ...

Physicist Mir Faizal, Adjunct Professor with UBC Okanagan’s Irving K. Barber Faculty of Science, was not out to shatter the ...

If we become quantum tomorrow, data is lost today. Quantum comes down to size and efficiency. Current computers approach ...

Borderless Capital’s Amit Mehra told Cointelegraph that quantum computing is still in its infancy but could threaten Bitcoin ...

In this week’s edition of The Prototype, we look at why AI models struggle with finance, a revolutionary superconducting ...

The uncertainty inherent to quantum mechanics has long left physicists wondering whether the observations we make on the ...

This year’s prize went to John Clarke (UC Berkeley), Michel H. Devoret (Yale and UC Santa Barbara), and John M. Martinis (UC ...

Philip Ball dives into the challenges in developing quantum computing, and building up investments and users for the tech ...