Required for shuttling the qubits as the circuit depth now corresponds to anĪrray of physical structures. In exchangeįor simplifying run-time control, a larger number of physical structures is Repetitions of the same calculation, or small variations thereof.
Such an approach lends itself to NISQĪpplications such as variational quantum eigensolvers which require numerous Progressing qubit states through a layered physical array of structures which In which all run-time control is applied globally, reducing the required numberĪnd complexity of control and interconnect resources. We propose a NISQ processor architecture using a qubit `pipeline' Patom\"aki and 5 other authors Download PDF Abstract: Noisy intermediate-scale quantum (NISQ) devices seek to achieve quantumĪdvantage over classical systems without the use of full quantum errorĬorrection.
Download a PDF of the paper titled Pipeline quantum processor architecture for silicon spin qubits, by S.
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