The field of quantum computing is progressing from quantum hardware having small numbers of noisy, short-lived physical qubits, to hardware having 100s–1000s of physical qubits combined algorithmically into error-corrected, long-lived logical qubits. For TensorFlow Quantum to support QML in the early fault-tolerant quantum computing era, it should be possible to handle circuit sizes that are at least 10x what it can comfortably handle today.
The field of quantum computing is progressing from quantum hardware having small numbers of noisy, short-lived physical qubits, to hardware having 100s–1000s of physical qubits combined algorithmically into error-corrected, long-lived logical qubits. For TensorFlow Quantum to support QML in the early fault-tolerant quantum computing era, it should be possible to handle circuit sizes that are at least 10x what it can comfortably handle today.