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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This review surveys cryogenic electronics approaches for superconducting FTQCs and introduces a first-order resource estimation framework benchmarked on RSA-2048 scale.
Experimental optimization of tunable coupler frequencies in a multi-transmon circuit QED processor to suppress spectator-induced errors on quantum operations.
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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Integration and Resource Estimation of Cryoelectronics for Superconducting Fault-Tolerant Quantum Computers
This review surveys cryogenic electronics approaches for superconducting FTQCs and introduces a first-order resource estimation framework benchmarked on RSA-2048 scale.
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Optimizing the frequency positioning of tunable couplers in a circuit QED processor to mitigate spectator effects on quantum operations
Experimental optimization of tunable coupler frequencies in a multi-transmon circuit QED processor to suppress spectator-induced errors on quantum operations.
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