Quantum Hopfield Model
Copyright policy )Quantum Hopfield Model
We find the free-energy in the thermodynamic limit of a one-dimensional XY model associated to a system of N qubits. The coupling among the σ i z is a long range two-body random interaction. The randomness in the couplings is the typical interaction of the Hopfield model with p patterns ( p < N ), where the patterns are p sequences of N independent identically distributed random variables (i.i.d.r.v.), assuming values ± 1 with probability 1 / 2 . We show also that in the case p ≤ α N , α ≠ 0 , the free-energy is asymptotically independent from the choice of the patterns, i.e., it is self-averaging.
- University of Jyväskylä Finland
- Sapienza University of Rome Italy
ta113, ta114, Physics, QC1-999, kvanttitietokoneet, neuraalilaskenta, neuroverkot, overlap parameters, free-energy, disordered systems, Soveltava fysiikka, patterns, kvantti-informaatio, self-averaging, Applied Physics
ta113, ta114, Physics, QC1-999, kvanttitietokoneet, neuraalilaskenta, neuroverkot, overlap parameters, free-energy, disordered systems, Soveltava fysiikka, patterns, kvantti-informaatio, self-averaging, Applied Physics
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