Quantum error detection with star architecture QPU

Florian Vigneau; Sourav Majumder; Aniket Rath; Pedro Parrado; Francisco Revson Fernandes Pereira; Nicola Wurz; Michael Renger; Jeroen Verjauw; Stefan Pogorzalek; Tyler Jones; Ping Yang; Hsiang-Sheng Ku; William Kindel; Johannes Heinsoo; Frank Deppe

Quantum error detection with star architecture QPU

ORAL

Abstract

The architecture of a QPU affects the performance of quantum error correction. The Star-configuration offers higher connectivity than the square-grid topology and thus enables more hardware efficient implementation of some error correction codes. We demonstrate error detection using a four-qubit code on a star-topology QPU. Our QPU features six superconducting transmon qubits coupled to a central resonator via tunable couplers. We apply two-qubit gates between pairs via the central resonator with a specific protocol based on qubit-resonator interaction. On this hardware, we characterize the lifetime, coherence time, and perform state tomography of the logical states.

March 20, 2025, 10:12 AM – March 20, 2025, 10:24 AM

Presenters

Florian Vigneau
- IQM Quantum Computers

Authors

Florian Vigneau
- IQM Quantum Computers
Sourav Majumder
- IQM Quantum Computers
Aniket Rath
- IQM Quantum Computers
Pedro Parrado
- IQM Quantum Computers
Francisco Revson Fernandes Pereira
- IQM Quantum Computers
Nicola Wurz
- IQM Quantum Computers
Michael Renger
- IQM Quantum Computers
Jeroen Verjauw
- IQM Quantum Computers
Stefan Pogorzalek
- IQM Quantum Computers
Tyler Jones
- IQM Quantum Computers
Ping Yang
- IQM Quantum Computers
Hsiang-Sheng Ku
- IQM Quantum Computers
William Kindel
- IQM Germany GmbH
- IQM Quantum Computers
Johannes Heinsoo
- IQM Quantum Computers
Frank Deppe
- IQM Quantum Computers