A Microarchitecture for a Superconducting Quantum Processor

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.
Computer Engineering
QCD/DiCarlo Lab
FTQC/Bertels Lab
ALG/General
BUS/General
QN/DiCarlo Lab
Quantum & Computer Engineering