IQI Weekly Seminar

Tuesday, September 22, 2020

1:00pm to 2:00pm

Online Event

1D Noisy Random Circuit Sampling & Experimental Aspects of Bosonic QEC

Kyungjoo Noh, Research Scientist, AWS Center for Quantum Computing,

Abstract: In the first half of the talk, I will present my recent work (https://quantum-journal.org/papers/q-2020-09-11-318/) on simulating 1D noisy RCS with matrix product operators (MPOs). I will demonstrate that, given a fixed non-zero error rate per gate, the MPO entanglement entropy peaks at an optimal circuit depth that depends only on the gate error rate and is bounded by a constant independent of the system size. Thus, above a characteristic system size, the time cost of classical MPO simulation only increases polynomially in the number of qubits. I will also briefly discuss a simple toy model based on erasure channels.

In the second half, I will give an overview of circuit-QED implementation of bosonic quantum error correction (QEC). I will review several key control techniques and discuss experimental realization of "break-even" QEC with cat, binomial, and GKP codes. I will also discuss challenges and possible future directions.

For more information, please contact Bonnie Leung by email at [email protected].

Event Series

Institute for Quantum Information (IQI) Weekly Seminar Series

Event Sponsors

Computing and Mathematical Sciences (CMS) More Events from this Sponsor

Institute for Quantum Information (IQI) More Events from this Sponsor