Adiabatic Encoding of Pre-trained MPS Classifiers into Quantum Circuits
Adiabatic Encoding of Pre-trained MPS Classifiers into Quantum Circuits
Although Quantum Neural Networks (QNNs) offer powerful methods for classification tasks, the training of QNNs faces two major training obstacles: barren plateaus and local minima. A promising solution is to first train a tensor-network (TN) model classically and then embed it into a QNN.\ However, embedding TN-classifiers into quantum circuits generally requires postselection whose success probability may decay exponentially with the system size. We propose an \emph{adiabatic encoding} framework that encodes pre-trained MPS-classifiers into quantum MPS (qMPS) circuits with postselection, and gradually removes the postselection while retaining performance. We prove that training qMPS-classifiers from scratch on a certain artificial dataset is exponentially hard due to barren plateaus, but our adiabatic encoding circumvents this issue. Additional numerical experiments on binary MNIST also confirm its robustness.
Keisuke Murota
计算技术、计算机技术
Keisuke Murota.Adiabatic Encoding of Pre-trained MPS Classifiers into Quantum Circuits[EB/OL].(2025-04-12)[2025-06-17].https://arxiv.org/abs/2504.09250.点此复制
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