一言でいうと
Coins the term 'NISQ' and sets realistic expectations for what near-term, noisy quantum devices can and cannot do.
要点
- ▸Defines NISQ: Noisy Intermediate-Scale Quantum devices with 50–100s of qubits and no error correction.
- ▸Argues NISQ devices are scientifically valuable but unlikely to deliver immediate commercial advantage.
- ▸Frames hybrid quantum-classical algorithms (like VQE and QAOA) as the near-term path.
やさしい解説
Preskill gave a name to the machines we actually have: NISQ devices — big enough to be interesting, too noisy to run long algorithms reliably. He argued we should be excited but honest: these machines are wonderful for learning and physics experiments, but the world-changing applications need error correction and many more qubits. That balance of optimism and realism still shapes how the field talks about progress.
なぜ重要か
This paper defined the vocabulary and mindset of the entire current era of quantum computing. Almost every discussion of 'what quantum computers can do today' traces back to its framing.
関連用語
NISQ
HardwareNoisy Intermediate-Scale Quantum — devices with 50–1000 qubits without full error correction.
VQE
AlgorithmsVariational Quantum Eigensolver — a hybrid quantum-classical algorithm for finding ground state energies.
QAOA
AlgorithmsQuantum Approximate Optimization Algorithm — a hybrid algorithm for combinatorial optimization problems.
Quantum Error Correction
HardwareTechniques to detect and correct errors in quantum circuits without measuring (and collapsing) the qubits.