Small & Noisy Quantum Computers LANL Pushes Algorithms to Make Them Viable
Work by Los Alamos and others shows that hybrid quantum-classical algorithms can accommodate limited qubits and lack of error correction for real-world tasks.
Work by Los Alamos and others shows that hybrid quantum-classical algorithms can accommodate limited qubits and lack of error correction for real-world tasks.
Machine learning shows potential to enhance quantum information transfer RESEARCH TRIANGLE PARK, N.C. – Army-funded researchers demonstrated a machine learning approach that corrects quantum information
Hidden symmetry could be key to more robust quantum systems, researchers find Researchers have found a way to protect highly fragile quantum systems from noise,
New research to help Australia remain a key player in quantum hardware development Australia has made substantial investments in the development of quantum technologies. Yet
Cambridge Quantum Computing Posts Foundational Scientific Papers On ‘Meaning Aware’ Quantum Natural Language Processing Cambridge Quantum Computing (CQC) today announced that it has built on
Liberating Quantum Processors from Parasitic Interactions Creating perfect entanglement – a basic prerequisite for the success of quantum computers – requires full control over all
Will We Ever Get Quantum Computers? Read More… + Consider D-Wave Systems. They’ve been trying to build a QC for twenty years, and indeed do
IEEE Quantum Week: Intel Highlights Full-Stack Quantum Research What’s New: During the IEEE International Conference on Quantum Computing and Engineering this week, Intel is presenting a body
Training a Dragon: Protecting Quantum Algorithms on “Noisy” Computers Read More… Quantum computing has advanced to the point that both small- and intermediate-scale machines are
Experiment Success: Twenty Year-Old Protocol Doubles Quantum Bit – Qubit – Lifetime Quantum error correction achieved using oscillator grid states Selected notes ~ + A