Characterizing Coherent Errors Efficiently Robustly

Media Summary: by Shelby Kimmel, a visiting assistant professor of computer science at Middlebury College. A talk by Sergey Bravyi at the 4th International Conference on Quantum Leakage into non-computational states threatens the stability of quantum

Characterizing Coherent Errors Efficiently Robustly - Detailed Analysis & Overview

by Shelby Kimmel, a visiting assistant professor of computer science at Middlebury College. A talk by Sergey Bravyi at the 4th International Conference on Quantum Leakage into non-computational states threatens the stability of quantum by Ken Brown, associate professor, chemistry and biochemistry, Georgia Tech University. by Xiao Yuan, research fellow in the department of materials, University of Oxford. by Robin Blume Kohout, principal member of technical staff at Sandia National Laboratories.

Speaker: Robert McDermott Host: Olivia Lanes, Ph.D. Title: Correlated Charge Noise and Relaxation

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Characterizing coherent errors efficiently, robustly, and simply

Highly Coherent Qubits and the Path to Error Correction

Sergey Bravyi: Logical state preparation subject to coherent errors

Mitigating leakage-induced correlated errors for superconducting quantum error correction

Reducing errors in near‐term quantum computers

Error mitigation in quantum simulation

Toward protecting analog simulations from errors

But what are Hamming codes? The origin of error correction

Correlated Charge Noise and Relaxation Errors in Superconducting Qubits - Robert McDermott

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Characterizing coherent errors efficiently, robustly, and simply

Characterizing coherent errors efficiently, robustly, and simply

by Shelby Kimmel, a visiting assistant professor of computer science at Middlebury College.

Highly Coherent Qubits and the Path to Error Correction

Highly Coherent Qubits and the Path to Error Correction

Highly

Sergey Bravyi: Logical state preparation subject to coherent errors

Sergey Bravyi: Logical state preparation subject to coherent errors

A talk by Sergey Bravyi at the 4th International Conference on Quantum

Mitigating leakage-induced correlated errors for superconducting quantum error correction

Mitigating leakage-induced correlated errors for superconducting quantum error correction

Leakage into non-computational states threatens the stability of quantum

Reducing errors in near‐term quantum computers

Reducing errors in near‐term quantum computers

by Ken Brown, associate professor, chemistry and biochemistry, Georgia Tech University.

Error mitigation in quantum simulation

Error mitigation in quantum simulation

by Xiao Yuan, research fellow in the department of materials, University of Oxford.

Toward protecting analog simulations from errors

Toward protecting analog simulations from errors

by Robin Blume Kohout, principal member of technical staff at Sandia National Laboratories.

But what are Hamming codes? The origin of error correction

But what are Hamming codes? The origin of error correction

A discovery-oriented introduction to

Correlated Charge Noise and Relaxation Errors in Superconducting Qubits - Robert McDermott

Correlated Charge Noise and Relaxation Errors in Superconducting Qubits - Robert McDermott

Speaker: Robert McDermott Host: Olivia Lanes, Ph.D. Title: Correlated Charge Noise and Relaxation