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#error correction

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Go to Reliably operating noisy quantum computers
Reliably operating noisy quantum computers
TQT Computation

Reliably operating noisy quantum computers

Summary The overall goal of the project is to develop practical methods to be able to reliably run useful applications on near-term quantum computers. This requires identifying and overcoming the ubiquitous errors that currently limit quantum computing capabilities. Traditional methods of quantifying errors in quantum computers fail to predict how errors affect the output of […]

January 22, 2020

PI: Joel Wallman

Skip Tags accuracy applied mathematics + 8 Additional

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Go to Benchmarking scalability and performance of quantum computers
Benchmarking scalability and performance of quantum computers

Benchmarking scalability and performance of quantum computers

Monday, November 25, 2019 En français   The finding leads the way towards establishing standards for quantum computing performance and strengthens the global effort to build a large-scale, practical quantum computer. “A consistent method for characterizing and correcting the errors in quantum systems provides standardization for the way a quantum processor is assessed, allowing progress […]

November 25, 2019

Skip Tags applied math benchmarking + 3 Additional

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QuantumIon: an open-access quantum computing platform

Summary Trapped ions are one of the most advanced technologies for quantum computing, offering multi-qubit control in a universal quantum computing architecture and the ability to perform calculations with unprecedented precision. In this project we construct a shared trapped-ion quantum computing platform, QuantumIon, that will enable a broader and interdisciplinary scientific community to access an […]

September 9, 2019

PI: Crystal Senko,

Skip Tags barium benchmarking + 10 Additional

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Novel Superconducting Qubits for Error-Corrected Processors

Summary In this project, we develop novel superconducting qubits for error-corrected processors to enable large-scale quantum computing. Our design efforts will specifically target error-corrected architectures through a variety of paths. Possible features will include built-in parity measurements and the use of bosonic codes, such as Fock state and Cat codes, as our starting focus. Early […]

June 26, 2019

PI: Christopher Wilson,

Skip Tags computation error correction + 7 Additional

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Go to Quantum Computational Resources in the Presence of Symmetry
Quantum Computational Resources in the Presence of Symmetry
TQT Computation

Quantum Computational Resources in the Presence of Symmetry

Summary Fault-tolerance is essential to the performance of quantum technologies, but known schemes are extremely resource intensive. Thus, improving existing schemes or inventing new schemes is of central importance. This joint project is based on the realization that fault-tolerance schemes make use of symmetries in fundamental ways, and that studying the problem of fault tolerance […]

March 13, 2019

PI: Joseph Emerson

Skip Tags computation condensed matter + 10 Additional

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