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| from sklearn.datasets import make_circles | |
| from sklearn.model_selection import train_test_split | |
| from sklearn.decomposition import PCA, KernelPCA | |
| import gradio as gr | |
| X, y = make_circles(n_samples=1_000, factor=0.3, noise=0.05, random_state=0) | |
| X_train, X_test, y_train, y_test = train_test_split(X, y, stratify=y, random_state=0) | |
| def fit_plot(n_comp, gamma, alpha): | |
| pca = PCA(n_components=n_comp) | |
| kernel_pca = KernelPCA( | |
| n_components=None, kernel="rbf", gamma=gamma, fit_inverse_transform=True, alpha=alpha | |
| ) | |
| X_test_pca = pca.fit(X_train).transform(X_test) | |
| X_test_kernel_pca = kernel_pca.fit(X_train).transform(X_test) | |
| fig1, (orig_data_ax, pca_proj_ax, kernel_pca_proj_ax) = plt.subplots( | |
| ncols=3, figsize=(14, 4) | |
| ) | |
| orig_data_ax.scatter(X_test[:, 0], X_test[:, 1], c=y_test) | |
| orig_data_ax.set_ylabel("Feature #1") | |
| orig_data_ax.set_xlabel("Feature #0") | |
| orig_data_ax.set_title("Testing data") | |
| pca_proj_ax.scatter(X_test_pca[:, 0], X_test_pca[:, 1], c=y_test) | |
| pca_proj_ax.set_ylabel("Principal component #1") | |
| pca_proj_ax.set_xlabel("Principal component #0") | |
| pca_proj_ax.set_title("Projection of testing data\n using PCA") | |
| kernel_pca_proj_ax.scatter(X_test_kernel_pca[:, 0], X_test_kernel_pca[:, 1], c=y_test) | |
| kernel_pca_proj_ax.set_ylabel("Principal component #1") | |
| kernel_pca_proj_ax.set_xlabel("Principal component #0") | |
| _ = kernel_pca_proj_ax.set_title("Projection of testing data\n using KernelPCA") | |
| return fig1 | |
| with gr.Blocks() as demo: | |
| gr.Markdown("## PCA vs Kernel PCA") | |
| gr.Markdown("Demo is based on the [Kernel PCA](https://scikit-learn.org/stable/auto_examples/decomposition/plot_kernel_pca.html#sphx-glr-auto-examples-decomposition-plot-kernel-pca-py") | |
| with gr.Row(): | |
| p1 = gr.Slider(0, 10, label="Number of PCs", value=2, step=1) | |
| p2 = gr.Slider(0, 10, label="Kernel coefficient", value=2, step=1e-3) | |
| p3 = gr.Slider(0, 1, label="Hyperparameter for ridge regression", value=0.1, step=1e-3) | |
| btn = gr.Button(value="Submit") | |
| btn.click(fit_plot, inputs= [p1,p2,p3], outputs= gr.Plot(label='Projecting data with PCA and Kernel PCA') ) | |
| demo.launch() |