A hardware-based emulation framework for quantum data centers is developed by splitting qubit coupling maps on one processor and using ancilla qubits to simulate transduction and fiber noise, with demonstrations on IBM hardware and ion-trap systems for algorithms like Grover's search and QFT.
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Emulation of ring, star, and line topologies for quantum data centers on a quantum computer shows the star layout yields the best cost-fidelity trade-off under transduction and fiber noise.
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A Framework for Quantum Data Center Emulation Using Digital Quantum Computers
A hardware-based emulation framework for quantum data centers is developed by splitting qubit coupling maps on one processor and using ancilla qubits to simulate transduction and fiber noise, with demonstrations on IBM hardware and ion-trap systems for algorithms like Grover's search and QFT.
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Emulation of Optically Interconnected Quantum Data Centers Topologies for Cost-Fidelity Benchmarking
Emulation of ring, star, and line topologies for quantum data centers on a quantum computer shows the star layout yields the best cost-fidelity trade-off under transduction and fiber noise.