A Microarchitecture for a Superconducting Quantum Processor

Fu, X.; Rol, M.A.; Bultink, C.C.; Someren, J. van; Khammassi, N.; Ashraf, I.; Vermeulen, R.F.L.; Sterke, J.C. de; Vlothuizen, W.J.; Schouten, R.N.; Almudéver, C.G.; DiCarlo, L.; Bertels, K.

A Microarchitecture for a Superconducting Quantum Processor

article

2018

Fu, X.

Rol, M.A.

Bultink, C.C.

Someren, J. van

Khammassi, N.

Ashraf, I.

Vermeulen, R.F.L.

Sterke, J.C. de

Vlothuizen, W.J.

Schouten, R.N.

Almudéver, C.G.

DiCarlo, L.

Bertels, K.

This article proposes a quantum microarchitecture, QuMA. Flexible programmability of a quantum processor is achieved by multilevel instructions decoding, abstracting analog control into digital control, and translating instruction execution with non-deterministic timing into event trigger with precise timing. QuMA is validated by several single-qubit experiments on a superconducting qubit. © 2018 IEEE.

Topics

Emerging Technologies Hardware Quantum Computing Computer hardware Digital control systems Quantum computers Analog controls Digital control Emerging technologies Micro architectures Programmability Quantum Computing Quantum processors Superconducting qubits Computer architecture

TNO Identifier

788761

Repository link

https://resolver.tno.nl/uuid:a1e4bd50-497b-4a53-98e9-f57a52bdc764

ISSN

02721732

Source

IEEE Micro, 38(3), pp. 40-47.

Pages

40-47

Files

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A Microarchitecture for a Superconducting Quantum Processor

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