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Getting started in quantum computing



To the untrained eye, a circuit built with IBM’s online Quantum Experience tool looks like something out of an introductory computer-science course. Logic gates, the building blocks of computation, are arrayed on a digital canvas, transforming inputs into outputs.

But this is a quantum circuit, and the gates modify not the usual binary 1 or 0 bits, but qubits, the fundamental unit of quantum computing. Unlike binary bits, qubits can exist as a ‘superposition’ of both 1 and 0, resolving one way or the other only when measured. Quantum computing also exploits properties such as entanglement, in which changing the state of one qubit also changes the state of another, even at a distance.

Those properties empower quantum computers to solve certain classes of problem more quickly than classical computers. Chemists could, for instance, use quantum computers to speed up the identification of new catalysts through modelling

“The stage of quantum computers now is something like classical computing in the late 1980s,” says Sara Metwalli, a quantum-computing researcher at Keio University in Tokyo. “Most of the work done now is to prove that quantum, in the future, may have the ability to solve interesting problems.”

Fast-moving field

Still, progress is happening fast. IBM hopes to have a 1,000-qubit machine by 2023, and quantum-computing advocates enthuse that the field is ripe for development. For those who want to see what the fuss is about, a growing collection of online tutorials, programming languages and simulators are making it easier than ever to dip their toes into quantum computing.


About Suraj singh

Suraj singh
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