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Approximate encoding of quantum states using shallow circuits

Matan Ben-Dov, David Shnaiderov, Adi Makmal, Emanuele G. Dalla Torre

2024npj Quantum Information18 citationsDOIOpen Access PDF

Abstract

Abstract Quantum algorithms and simulations often require the preparation of complex states through sequences of 2-qubit gates. For a generic quantum state, the number of required gates grows exponentially with the number of qubits, becoming unfeasible on near-term quantum devices. Here, we aim at creating an approximate encoding of the target state using a limited number of gates. As a first step, we consider a quantum state that is efficiently represented classically, such as a one-dimensional matrix product state. Using tensor network techniques, we develop and implement an efficient optimization algorithm that approaches the optimal implementation, requiring a polynomial number of iterations. We, next, consider the implementation of the proposed optimization algorithm directly on a quantum computer and overcome inherent barren plateaus by employing a local cost function. Our work offers a universal method to prepare target states using local gates and represents a significant improvement over known strategies.

Topics & Concepts

Quantum computerQubitQuantum gateComputer scienceQuantum algorithmQuantum phase estimation algorithmEncoding (memory)State (computer science)QuantumQuantum networkQuantum circuitQuantum stateAlgorithmQuantum mechanicsPhysicsArtificial intelligenceQuantum Computing Algorithms and ArchitectureQuantum many-body systemsTensor decomposition and applications
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