Quantum circuit partitioning is formalized as a maze path problem, revealing a percolation phase transition that separates partitionable from non-partitionable regimes when the CNOT-to-qubit ratio is near one.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Φ-DRAG derives modified analytical flux modulation protocols that suppress leakage below 10^{-4} in 15 ns iSWAP gates across varying qubit anharmonicities.
citing papers explorer
-
Quantum circuit partition as a maze: emerging percolation transition via path finding
Quantum circuit partitioning is formalized as a maze path problem, revealing a percolation phase transition that separates partitionable from non-partitionable regimes when the CNOT-to-qubit ratio is near one.
-
Simple analytical flux-tuned iSWAP pulses for leakage suppression
Φ-DRAG derives modified analytical flux modulation protocols that suppress leakage below 10^{-4} in 15 ns iSWAP gates across varying qubit anharmonicities.