Renneder@sh.itjust.worksM to BecomeMe@sh.itjust.works · 1 year agoIs quantum computing hype or almost here?bigthink.comexternal-linkmessage-square3fedilinkarrow-up113arrow-down10
arrow-up113arrow-down1external-linkIs quantum computing hype or almost here?bigthink.comRenneder@sh.itjust.worksM to BecomeMe@sh.itjust.works · 1 year agomessage-square3fedilink
minus-squareRenneder@sh.itjust.worksOPMlinkfedilinkarrow-up3·1 year ago• Quantum computers will not appear soon, despite optimistic forecasts. • A quantum computer uses the strangeness of quantum states to perform calculations. • Qubits are the basis of quantum computing, but they are fragile and easily destroyed. • Decoherence is a major problem that hinders quantum computing. • Noisy quantum methods (NISQ) - one of the ways to correct errors, but has not yet reached the desired level. • Alternative methods include topological states, but their implementation remains undefined. • The possibilities of quantum computing do exist, but their implementation can be difficult.
• Quantum computers will not appear soon, despite optimistic forecasts.
• A quantum computer uses the strangeness of quantum states to perform calculations.
• Qubits are the basis of quantum computing, but they are fragile and easily destroyed.
• Decoherence is a major problem that hinders quantum computing.
• Noisy quantum methods (NISQ) - one of the ways to correct errors, but has not yet reached the desired level.
• Alternative methods include topological states, but their implementation remains undefined.
• The possibilities of quantum computing do exist, but their implementation can be difficult.