Qubit allocation techniques for distributed color-code logical qubits achieve a 10% reduction in nonlocal gates that scales with more qubits, plus evaluations of methods for universal gate sets including a logical-swaps approach.
Hypergraphic partitioning of quantum circuits for distributed quantum computing,
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MILP-based scheduling algorithms for heterogeneous DQC networks improve makespan, throughput, and reduce inter-QPU communication overhead compared to baselines in simulations.
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Near-Term Reduction in Nonlocal Gate Count from Distributed Logical Qubits
Qubit allocation techniques for distributed color-code logical qubits achieve a 10% reduction in nonlocal gates that scales with more qubits, plus evaluations of methods for universal gate sets including a logical-swaps approach.
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Resource Management and Circuit Scheduling for Distributed Quantum Computing Interconnect Networks
MILP-based scheduling algorithms for heterogeneous DQC networks improve makespan, throughput, and reduce inter-QPU communication overhead compared to baselines in simulations.