Q-Synapse: A Hybrid Quantum–AI Platform for Tumor State Classification Using Real Genomic Data
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Barack Ndenga
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Abstract
Quantum Machine Learning (QML) provides a promising computational paradigm to extract complex patterns from biomedical datasets by exploiting quantum superposition, entanglement, and parameterized variational circuits. Despite substantial theoretical work, no existing study provides a fully functional, deployable, and experimentally validated quantum–AI hybrid platform applied directly to real genomic cancer classification.
Here, i introduce Q-Synapse, the first operational prototype that integrates:
(1) an Angle-Encoded Variational Quantum Classifier (VQC) running on a Qiskit simulator,
(2) a real Artificial Intelligence feature-selection engine (GradientBoosting-based genomic ranking),
(3) PCA-driven quantum dimensionality mapping enabling training on 2–4 qubit manifolds, and
(4) a classical baseline (SVM/MLP) for scientifically rigorous benchmarking.
Using the Wisconsin Breast Cancer dataset and reduced TCGA-style gene-expression structures, Q-Synapse demonstrates that quantum circuits can achieve competitive or superior accuracy in low-dimensional genomic subspaces, with smoother convergence behavior and reduced sensitivity to noise. The integrated Streamlit interface provides real-time training visualization, confusion matrices, and feature-importance analytics, resulting in a complete, reproducible, and extensible quantum-biomedical research platform.
Keywords
Quantum Machine Learning; Variational Quantum Classifier; Genomics; Biomedical AI; Cancer Classification; Quantum AI Hybrid Systems; Streamlit; Qiskit.
Description
Q-Synapse is a hybrid quantum–AI platform designed to classify tumor states from genomic data using a Variational Quantum Classifier (VQC) and AI-based feature selection (GradientBoosting). The system includes a full Streamlit interface, classical baselines for comparison, and supports reproducible biomedical experiments. The repository contains Python scripts, a deployable interface, and a set of figures visualizing VQC architecture, AI-selected features, and model performance.