Abstract
The interconnection bottleneck caused by limitations of cable number,inner space and cooling power of dilution re-frigerators has been an outstanding challenge for building scalable superconducting quantum computers with the increasing number of qubits in quantum processors.To surmount such an obstacle,it is desirable to integrate qubits with quantum-classical interface(QCI)circuits based on rapid single flux quantum(RSFQ)circuits.In this work,a digital flux tuner for qubits(DFTQ)is proposed for manipulating flux of qubits as a crucial part of the interface circuit.A schematic diagram of the DFTQ is presented,consisting of a coarse tuning unit and a fine-tuning unit for providing magnetic flux with different precision to qubits.The method of using DFTQ to provide flux for gate operations is discussed from the optimization of circuit design and input signal.To verify the effectiveness of the method,simulations of a single DFTQ and quantum gates including a Z gate and an iSWAP gate with DFTQs are performed for flux-tunable transmons.The quantum process to-mography corresponding to the two gates is also carried out to analyze the sources of gate error.The results of tomography show that the gate fidelities independent of the initial states of the Z gate and the iSWAP gate are 99.935%and 99.676%,respectively.With DFTQs inside,the QCI would be a powerful tool for building large-scale quantum computers.
NETL
NSTL
万方数据