A resource estimation framework for distributed fault-tolerant quantum computers based on lattice surgery identifies feasible hardware configurations for eight applications across thousands of setups, showing that architecture design must be guided by resource analysis for scalability.
Automated distribution of quantum circuits via hypergraph partitioning
3 Pith papers cite this work, alongside 94 external citations. Polarity classification is still indexing.
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MCMit mitigates mid-circuit measurement errors via a new multi-control branch instruction, CNN and transformer discriminators, and software techniques, reporting up to 70% latency reduction and 80% lower logical error rates in QEC.
A time-aware beam search partitions quantum circuits across QPUs with quadratic scaling in qubits and lower communication overhead than static baselines.
citing papers explorer
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Architecting Distributed Quantum Computers: Design Insights from Resource Estimation
A resource estimation framework for distributed fault-tolerant quantum computers based on lattice surgery identifies feasible hardware configurations for eight applications across thousands of setups, showing that architecture design must be guided by resource analysis for scalability.
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MCMit: Mid-Circuit Measurement Error Mitigation
MCMit mitigates mid-circuit measurement errors via a new multi-control branch instruction, CNN and transformer discriminators, and software techniques, reporting up to 70% latency reduction and 80% lower logical error rates in QEC.
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Efficient Time-Aware Partitioning of Quantum Circuits for Distributed Quantum Computing
A time-aware beam search partitions quantum circuits across QPUs with quadratic scaling in qubits and lower communication overhead than static baselines.