A 64-qubit trapped-ion system using BF-DCQO optimizes lattice protein folding Hamiltonians for six peptides, reaching classical reference energies in multiple cases after hybrid post-processing.
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MonteQ applies Monte Carlo Tree Search in a two-level framework to optimize Pauli rotation orderings for Hamiltonian simulation, cutting CNOT counts by up to 53% versus prior compilers.
A new compiler for surface codes on QCCD trapped-ion hardware shows that 2-ion traps outperform larger traps in logical clock speed and hardware efficiency, beating prior compilers by 3.8X on average.
A 3D-printed micro-ion trap with an enlarged loading zone improves hot-ion capture by keeping the Mathieu-q parameter low enough for effective laser cooling without lowering RF voltage.
A HUBO model with three-body mutual-information terms is optimized on IonQ trapped-ion hardware and produces compact feature subsets with classification performance competitive to classical baselines on two benchmark datasets.
A survey of nine QHPC stacks identifies common patterns and proposes the openQSE reference architecture to unify interfaces for interoperability in quantum-HPC environments.
A hardware-calibrated truncated QFT reduces gate count 31-44% at 30 qubits while bounding total variation distance error by O(2^{-d}) and outperforming full QFT under moderate noise.
citing papers explorer
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Protein folding on a 64 qubit trapped-ion hardware via counterdiabatic quantum optimization
A 64-qubit trapped-ion system using BF-DCQO optimizes lattice protein folding Hamiltonians for six peptides, reaching classical reference energies in multiple cases after hybrid post-processing.
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MonteQ: A Monte Carlo Tree Search Based Quantum Circuit Synthesis Framework
MonteQ applies Monte Carlo Tree Search in a two-level framework to optimize Pauli rotation orderings for Hamiltonian simulation, cutting CNOT counts by up to 53% versus prior compilers.
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Architecting Scalable Trapped Ion Quantum Computers using Surface Codes
A new compiler for surface codes on QCCD trapped-ion hardware shows that 2-ion traps outperform larger traps in logical clock speed and hardware efficiency, beating prior compilers by 3.8X on average.
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Design and fabrication of a micro-ion trap with a 3D-printed loading zone for improved hot-ion capture
A 3D-printed micro-ion trap with an enlarged loading zone improves hot-ion capture by keeping the Mathieu-q parameter low enough for effective laser cooling without lowering RF voltage.
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Quantum Feature Selection with Higher-Order Binary Optimization on Trapped-Ion Hardware
A HUBO model with three-body mutual-information terms is optimized on IonQ trapped-ion hardware and produces compact feature subsets with classification performance competitive to classical baselines on two benchmark datasets.
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Quantum-HPC Software Stacks and the openQSE Reference Architecture: A Survey
A survey of nine QHPC stacks identifies common patterns and proposes the openQSE reference architecture to unify interfaces for interoperability in quantum-HPC environments.
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Phase-Fidelity-Aware Truncated Quantum Fourier Transform for Scalable Phase Estimation on NISQ Hardware
A hardware-calibrated truncated QFT reduces gate count 31-44% at 30 qubits while bounding total variation distance error by O(2^{-d}) and outperforming full QFT under moderate noise.