Dynamarq is a new scalable benchmarking framework that defines structural features for dynamic quantum circuits and uses statistical models to predict hardware fidelity with transferable parameters.
California Institute of Technology
3 Pith papers cite this work. Polarity classification is still indexing.
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quant-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Gauge symmetry in a 3+2-particle nested-square system corrects a unified noise model on spin/position states and permits stacked implementations of stabilizer measurements, logical Hadamard, Toffoli, and adder gates using only nearest- and next-nearest-neighbor interactions.
Commutation-graph coloring yields Trotter ordering strategies whose error performance is analyzed theoretically and measured empirically on Heisenberg-style lattices.
citing papers explorer
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Characterizing and Benchmarking Dynamic Quantum Circuits
Dynamarq is a new scalable benchmarking framework that defines structural features for dynamic quantum circuits and uses statistical models to predict hardware fidelity with transferable parameters.
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Toward fault-tolerant quantum computation exploiting quantum spatial distribution and gauge symmetry
Gauge symmetry in a 3+2-particle nested-square system corrects a unified noise model on spin/position states and permits stacked implementations of stabilizer measurements, logical Hadamard, Toffoli, and adder gates using only nearest- and next-nearest-neighbor interactions.
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An Analysis of Commutation-Based Trotter Ordering Strategies on Heisenberg-Style Hamiltonians
Commutation-graph coloring yields Trotter ordering strategies whose error performance is analyzed theoretically and measured empirically on Heisenberg-style lattices.