Scaling qubit-resonator architectures for co-design quantum computing

William Kindel; Hsiang-Sheng Ku; Daria Gusenkova; Nicola Wurz; Julia Lamprich; Jeroen Verjauw; Rakshyakar Giri; Michael Renger; Stefan Pogorzalek; Florian Vigneau; Ping Yang; Antti Vepsäläinen; Alessandro Landra; Vladimir Milchakov; Caspar Ockeloen-Korppi; Wei Liu; Pedro Figueroa Romero; Hermanni Heimonen; Manish Thapa; Frank Deppe; Sourav Majumder; Inés de Vega

Scaling qubit-resonator architectures for co-design quantum computing

ORAL

Abstract

Qubit-resonator quantum processing units (QPUs) are a promising architecture to enhance connectivity and realized applications specific processors in the co-design concept. Compared to a square lattice of qubits, a resonator can naturally couple to more qubits and over a greater distance. Considering many-body problems which map onto a Hamiltonian with all-to-all interacting qubits, we implement a star-topology with many qubits coupled to a central resonator. The prototypical example of this architecture is the simulation of a nanoscale NMR system consisting of an NV center coupled to multiple nuclear spins. Compared to the general-purpose square-grid topology, the star reduces the number of SWAP gates in the algorithm implementation, and thus tolerates higher gate errors for a given computational precision [1]. Here we present our results scaling the number of qubits coupled to the central resonator. We characterize our qubit-resonator QPU, and present an outlook of the future of qubit-resonator architectures for co-design quantum computing.

[1] Manuel G. Algaba & Mario Ponce-Martinez, et. al., Phys. Rev.

March 4, 2024, 4:48 PM – March 4, 2024, 5:00 PM

Presenters

William Kindel
- IQM quantum computers
- IQM Quantum Computers

Authors

William Kindel
- IQM quantum computers
- IQM Quantum Computers
Hsiang-Sheng Ku
- IQM Quantum Computers
Daria Gusenkova
- IQM quantum computers
- IQM Quantum Computers
Nicola Wurz
- IQM quantum computers
- IQM Quantum Computers
Julia Lamprich
- IQM Quantum Computers
- IQM quantum computers
Jeroen Verjauw
- IQM quantum computers
Rakshyakar Giri
- IQM quantum computers
- IQM Quantum Computers
Michael Renger
- IQM quantum computers
- IQM Quantum Computers
Stefan Pogorzalek
- IQM quantum computers
- IQM Quantum Computers
Florian Vigneau
- IQM quantum computers
- IQM Quantum Computers
Ping Yang
- IQM quantum computers
- IQM Quantum Computers
Antti Vepsäläinen
- IQM Quantum computers
Alessandro Landra
- IQM Finland Oy
- IQM Quantum Computers
Vladimir Milchakov
- IQM quantum computers
- IQM Quantum Computers
Caspar Ockeloen-Korppi
- IQM Finland Oy
- IQM Quantum Computers
- IQM quantum computers
Wei Liu
- IQM Finland Oy
- IQM Quantum Computers
Pedro Figueroa Romero
- IQM Quantum Computers
Hermanni Heimonen
- IQM Finland Oy
Manish Thapa
- IQM quantum computers
- IQM Quantum Computers
Frank Deppe
- IQM quantum computers
- IQM Quantum Computers
Sourav Majumder
- IQM quantum computers
- IQM Quantum Computers
Inés de Vega
- IQM Germany
- IQM Quantum Computers