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QNEAT: Natural Evolution of Variational Quantum Circuit Architecture

Alessandro Giovagnoli, Volker Tresp, Yunpu Ma, Matthias Schubert

202315 citationsDOI

Abstract

Quantum Machine Learning (QML) is a recent and rapidly evolving field where the theoretical framework and logic of quantum mechanics are employed to solve machine learning tasks. Various techniques with different levels of quantum-classical hybridization have been proposed. Here we focus on variational quantum circuits (VQC), which emerged as the most promising candidates for the quantum counterpart of neural networks in the noisy intermediate-scale quantum (NISQ) era. Although showing promising results, VQCs can be hard to train because of different issues, e.g., barren plateau, periodicity of the weights, or choice of architecture. This paper focuses on this last problem for finding optimal architectures of variational quantum circuits for various tasks. To address it, we propose a gradient-free algorithm inspired by natural evolution to optimize both the weights and the architecture of the VQC. In particular, we present a version of the well-known neuroevolution of augmenting topologies (NEAT) algorithm and adapt it to the case of variational quantum circuits. We refer to the proposed architecture search algorithm for VQC as QNEAT. We test the algorithm with different benchmark problems of classical fields of machine learning i.e. reinforcement learning and combinatorial optimization.

Topics & Concepts

Computer scienceQuantumBenchmark (surveying)Quantum machine learningArtificial neural networkNeuroevolutionQuantum computerArtificial intelligenceTheoretical computer scienceReinforcement learningQuantum algorithmElectronic circuitField (mathematics)AlgorithmTopology (electrical circuits)MathematicsQuantum mechanicsPure mathematicsPhysicsGeographyCombinatoricsGeodesyQuantum Computing Algorithms and ArchitectureAdvanced Memory and Neural ComputingAdvancements in Semiconductor Devices and Circuit Design
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