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Scikit-learn for PCA | Model Building
Principal Component Analysis
course content

Contenido del Curso

Principal Component Analysis

Principal Component Analysis

1. What is Principal Component Analysis
2. Basic Concepts of PCA
3. Model Building
4. Results Analysis

bookScikit-learn for PCA

We figured out the implementation of the PCA algorithm using the numpy library. Scikit-learn can let us start using this method with just one line of code:

PCA is a scikit-learn library class. It contains more than 5 arguments, but we are most interested in only one - n_components. This argument is responsible for the number of main components that we want to get. The only condition is that the number of components must, of course, be equal to or less than the variables in the dataset. The PCA class contains 2 main methods that we will use: fit and transform. The fit() method loads the data into the class, and the transform() method transforms it, and we get the result of the PCA algorithm. If we want to combine these 2 operations, use the fit_transform() method:

If we want to get the components that the algorithm has calculated, call the .components_ attribute:

Tarea

Import the PCA class from the scikit-learn library and create a PCA model for the iris dataset with 2 components.

Switch to desktopCambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones
¿Todo estuvo claro?

¿Cómo podemos mejorarlo?

¡Gracias por tus comentarios!

Sección 3. Capítulo 1
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bookScikit-learn for PCA

We figured out the implementation of the PCA algorithm using the numpy library. Scikit-learn can let us start using this method with just one line of code:

PCA is a scikit-learn library class. It contains more than 5 arguments, but we are most interested in only one - n_components. This argument is responsible for the number of main components that we want to get. The only condition is that the number of components must, of course, be equal to or less than the variables in the dataset. The PCA class contains 2 main methods that we will use: fit and transform. The fit() method loads the data into the class, and the transform() method transforms it, and we get the result of the PCA algorithm. If we want to combine these 2 operations, use the fit_transform() method:

If we want to get the components that the algorithm has calculated, call the .components_ attribute:

Tarea

Import the PCA class from the scikit-learn library and create a PCA model for the iris dataset with 2 components.

Switch to desktopCambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones
¿Todo estuvo claro?

¿Cómo podemos mejorarlo?

¡Gracias por tus comentarios!

Sección 3. Capítulo 1
toggle bottom row

bookScikit-learn for PCA

We figured out the implementation of the PCA algorithm using the numpy library. Scikit-learn can let us start using this method with just one line of code:

PCA is a scikit-learn library class. It contains more than 5 arguments, but we are most interested in only one - n_components. This argument is responsible for the number of main components that we want to get. The only condition is that the number of components must, of course, be equal to or less than the variables in the dataset. The PCA class contains 2 main methods that we will use: fit and transform. The fit() method loads the data into the class, and the transform() method transforms it, and we get the result of the PCA algorithm. If we want to combine these 2 operations, use the fit_transform() method:

If we want to get the components that the algorithm has calculated, call the .components_ attribute:

Tarea

Import the PCA class from the scikit-learn library and create a PCA model for the iris dataset with 2 components.

Switch to desktopCambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones
¿Todo estuvo claro?

¿Cómo podemos mejorarlo?

¡Gracias por tus comentarios!

We figured out the implementation of the PCA algorithm using the numpy library. Scikit-learn can let us start using this method with just one line of code:

PCA is a scikit-learn library class. It contains more than 5 arguments, but we are most interested in only one - n_components. This argument is responsible for the number of main components that we want to get. The only condition is that the number of components must, of course, be equal to or less than the variables in the dataset. The PCA class contains 2 main methods that we will use: fit and transform. The fit() method loads the data into the class, and the transform() method transforms it, and we get the result of the PCA algorithm. If we want to combine these 2 operations, use the fit_transform() method:

If we want to get the components that the algorithm has calculated, call the .components_ attribute:

Tarea

Import the PCA class from the scikit-learn library and create a PCA model for the iris dataset with 2 components.

Switch to desktopCambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones
Sección 3. Capítulo 1
Switch to desktopCambia al escritorio para practicar en el mundo realContinúe desde donde se encuentra utilizando una de las siguientes opciones
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