For each quantum operation, we indicate all possible heralded channels along with their probabilities

Physical gate set Gathering all results from the previous sections, Table XIII summarizes the physical noisy gate set that we use in our simulation

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Two Layers, No Swaps: Biplanar SPOQC Architecture Improves Runtime of Fermi-Hubbard Simulation

quant-ph · 2026-05-06 · unverdicted · novelty 6.0

The biplanar architecture maps Fermi-Hubbard spin sectors to two planes, eliminating swaps and cutting each Trotter step depth to 4t_synth + 90 logical timesteps versus 6t_synth + 354 in single-plane methods, yielding an estimated 2-hour runtime for L=8 with 1.35 million physical qubits under a 1% 1

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Two Layers, No Swaps: Biplanar SPOQC Architecture Improves Runtime of Fermi-Hubbard Simulation quant-ph · 2026-05-06 · unverdicted · none · ref 23
The biplanar architecture maps Fermi-Hubbard spin sectors to two planes, eliminating swaps and cutting each Trotter step depth to 4t_synth + 90 logical timesteps versus 6t_synth + 354 in single-plane methods, yielding an estimated 2-hour runtime for L=8 with 1.35 million physical qubits under a 1% 1

For each quantum operation, we indicate all possible heralded channels along with their probabilities

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