Quantum Circuit for Random Forest Prediction

December 28, 2023 Β· Declared Dead Β· πŸ› Russian microelectronics

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Authors Liliia Safina, Kamil Khadieva, Ilnar Zinnatullina, Aliya Khadieva arXiv ID 2312.16877 Category quant-ph: Quantum Computing Cross-listed cs.ET, cs.LG Citations 1 Venue Russian microelectronics Last Checked 4 months ago
Abstract
In this work, we present a quantum circuit for a binary classification prediction algorithm using a random forest model. The quantum prediction algorithm is presented in our previous works. We construct a circuit and implement it using qiskit tools (python module for quantum programming). One of our goals is reducing the number of basic quantum gates (elementary gates). The set of basic quantum gates which we use in this work consists of single-qubit gates and a controlled NOT gate. The number of CNOT gates in our circuit is estimated by $O(2^{n+2h+1})$ , when trivial circuit decomposition techniques give $O(4^{|X|+n+h+2})$ CNOT gates, where $n$ is the number of trees in a random forest model, $h$ is a tree height and $|X|$ is the length of attributes of an input object $X$. The prediction process returns an index of the corresponding class for the input $X$.
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