Towards operating an error correcting code with noise biased bosonic qubits Part 2

Harald Putterman; Shahriar Aghaeimeibodi; Fernando G Brandão; Connor T Hann; Harry Levine; Greg MacCabe; Matthew Matheny; Hesam Moradinejad; Kyungjoo Noh; John Owens; Oskar Painter; Rishi Patel

Towards operating an error correcting code with noise biased bosonic qubits Part 2

ORAL

Abstract

Biased noise qubits can improve the hardware efficiency of error correcting codes by allowing them to primarily focus on correcting one type of error. To leverage this advantage, it is critical that the noise bias be preserved not just while idling but during all circuit operations. We perform an experiment to study the performance of an error correcting code in a biased noise architecture using transmons and cat qubits.

In the second part of the talk, we go over the error correction experiment and discuss the performance of our error correcting code.

March 7, 2024, 3:12 PM – March 7, 2024, 3:24 PM

Presenters

Harald Putterman
- AWS Center for Quantum Computing

Authors

Harald Putterman
- AWS Center for Quantum Computing
Shahriar Aghaeimeibodi
- AWS Center for Quantum Computing
Fernando G Brandão
- AWS Center for Quantum Computing
- AWS Center for Quantum Computing; Caltech
Connor T Hann
- AWS Center for Quantum Computing
Harry Levine
- AWS Center for Quantum Computing
Greg MacCabe
- AWS Center for Quantum Computing
Matthew Matheny
- AWS Center for Quantum Computing
- Caltech
Hesam Moradinejad
- AWS Center for Quantum Computing
Kyungjoo Noh
- AWS Center for Quantum Computing
John Owens
- AWS Center for Quantum Computing
Oskar Painter
- AWS Center for Quantum Computing
Rishi Patel
- AWS Center for Quantum Computing