Comparative analysis of fault-tolerant interfaces for modular quantum computing using surface codes, including novel grow-and-distil protocols, to determine optimal strategies across hardware parameters for low logical error rates.
Universal high-fidelity quan- tum gates for spin-qubits in diamond
3 Pith papers cite this work. Polarity classification is still indexing.
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A Wiesner-style quantum token encoded in diamond color-center states achieves >99% gate fidelity and near-MHz acceptance rates in a model that includes realistic imperfections and cloning resistance.
A synthesis of expert insights from the ADAC Quantum Computing Working Group and member survey on the complementary roles of quantum and classical high-performance computing in future hybrid infrastructures.
citing papers explorer
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Fault-tolerant interfaces for modular quantum computing on diverse qubit platforms
Comparative analysis of fault-tolerant interfaces for modular quantum computing using surface codes, including novel grow-and-distil protocols, to determine optimal strategies across hardware parameters for low logical error rates.
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Secure Quantum Token Processing with Color Centers in Diamond
A Wiesner-style quantum token encoded in diamond color-center states achieves >99% gate fidelity and near-MHz acceptance rates in a model that includes realistic imperfections and cloning resistance.
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The Role of Quantum Computing in Advancing Scientific High-Performance Computing: A perspective from the ADAC Institute
A synthesis of expert insights from the ADAC Quantum Computing Working Group and member survey on the complementary roles of quantum and classical high-performance computing in future hybrid infrastructures.