Here, we focus on the problem of minimizing complex classical cost functions associated with prototypical discrete neural networks, specifically the paradigmatic Hopfield model and binary perceptron. We show that the adiabatic time evolution of QA can be efficiently represented as a suitable Tensor Network. This representation allows for simple classical simulations, well-beyond small sizes amenable to exact diagonalization techniques. We show that the optimized state, expressed as a Matrix Product State (MPS), can be recast into a Quantum Circuit, whose depth scales only linearly with the system size and quadratically with the MPS bond dimension. This may represent a valuable starting point allowing for further circuit optimization on near-term quantum devices.

Quantum Annealing for Neural Network optimization problems: a new approach via Tensor Network simulations / Lami, Guglielmo; Torta, Pietro; Santoro, Giuseppe E.; Collura, Mario. - In: SCIPOST PHYSICS. - ISSN 2542-4653. - 14:(2023), pp. 1-36. [10.21468/SciPostPhys.14.5.117]

Quantum Annealing for Neural Network optimization problems: a new approach via Tensor Network simulations

Lami, Guglielmo
Membro del Collaboration group
;
Torta, Pietro
Membro del Collaboration group
;
Santoro, Giuseppe E.;Collura, Mario
Membro del Collaboration group
2023-01-01

Abstract

Here, we focus on the problem of minimizing complex classical cost functions associated with prototypical discrete neural networks, specifically the paradigmatic Hopfield model and binary perceptron. We show that the adiabatic time evolution of QA can be efficiently represented as a suitable Tensor Network. This representation allows for simple classical simulations, well-beyond small sizes amenable to exact diagonalization techniques. We show that the optimized state, expressed as a Matrix Product State (MPS), can be recast into a Quantum Circuit, whose depth scales only linearly with the system size and quadratically with the MPS bond dimension. This may represent a valuable starting point allowing for further circuit optimization on near-term quantum devices.
2023
14
1
36
117
10.21468/SciPostPhys.14.5.117
https://arxiv.org/abs/2208.14468
Lami, Guglielmo; Torta, Pietro; Santoro, Giuseppe E.; Collura, Mario
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/135875
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