A gadget-based simulator directly simulates high-level quantum gates via low-rank stabilizer decompositions of magic states, improving both theoretical complexity and practical runtime over standard compilation-based methods.
On the power of quantum computation,
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A review surveying coupling mechanisms in superconducting qubit-mechanical resonator hybrids and their extension to optomechanical architectures for quantum sensing applications.
Compares QFT, GHZ, and W circuits on 4-10 qubits between simulator and IBM hardware to assess noise impact and hardware compatibility in the NISQ era.
citing papers explorer
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Efficient Simulation of High-Level Quantum Gates
A gadget-based simulator directly simulates high-level quantum gates via low-rank stabilizer decompositions of magic states, improving both theoretical complexity and practical runtime over standard compilation-based methods.
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Fundamentals and Applications of Hybrid Electro- and Opto-mechanical system coupled to Superconducting Qubit: A Short Review
A review surveying coupling mechanisms in superconducting qubit-mechanical resonator hybrids and their extension to optomechanical architectures for quantum sensing applications.
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Comparing a Few Qubit Systems for Superconducting Hardware Compatibility and Circuit Design Sensitivity in Qiskit
Compares QFT, GHZ, and W circuits on 4-10 qubits between simulator and IBM hardware to assess noise impact and hardware compatibility in the NISQ era.