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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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Implementing High-fidelity Quantum Gates in Multi-level Trapped Ions

Summary   The scalability of quantum processors is limited by current error rates for single-qubit gates. By encoding more than a single bit of information within a single ion, multi-level “qudits” offer a promising method of increasing the information density within a quantum processor, and therefore minimizing the number of gates and associated error rates. […]

July 30, 2018

PI: Crystal Senko

Skip Tags benchmarking computation + 7 Additional

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