Numerical evidence that non-stoquastic terms in quantum annealing maintain or increase entanglement and non-stabilizerness, aligning quantum performance gains with classical intractability for tensor networks and stabilizer methods.
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Deep Boltzmann Quantum States with natural-gradient optimization and annealing-like training match exact or best-known solutions for large infinite-range Ising spin glasses and solve job shop scheduling instances.
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Quantum resources in non-stoquastic quantum annealing
Numerical evidence that non-stoquastic terms in quantum annealing maintain or increase entanglement and non-stabilizerness, aligning quantum performance gains with classical intractability for tensor networks and stabilizer methods.
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Solving Classical and Quantum Spin Glasses with Deep Boltzmann Quantum States
Deep Boltzmann Quantum States with natural-gradient optimization and annealing-like training match exact or best-known solutions for large infinite-range Ising spin glasses and solve job shop scheduling instances.