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[
{
"prompt": "Funci贸n en Python para dividir un dataset (X, y) en conjuntos de entrenamiento y prueba usando Scikit-learn (test_size=0.3):",
"completion": "from sklearn.model_selection import train_test_split\n\ndef dividir_datos(X, y):\n X_train, X_test, y_train, y_test = train_test_split(\n X, y, test_size=0.3, random_state=42\n )\n return X_train, X_test, y_train, y_test\n"
},
{
"prompt": "C贸digo para inicializar un modelo de K-Nearest Neighbors (KNN) con k=5 y entrenarlo con datos de entrenamiento:",
"completion": "from sklearn.neighbors import KNeighborsClassifier\n\nknn = KNeighborsClassifier(n_neighbors=5)\nknn.fit(X_train, y_train)\n"
},
{
"prompt": "Funci贸n que calcula la precisi贸n (accuracy) de un modelo de clasificaci贸n de Scikit-learn:",
"completion": "from sklearn.metrics import accuracy_score\n\ndef calcular_precision(y_true, y_pred):\n return accuracy_score(y_true, y_pred)\n"
},
{
"prompt": "C贸digo Pandas para cargar un archivo CSV y mostrar las primeras 5 filas:",
"completion": "import pandas as pd\n\ndf = pd.read_csv('datos_ia.csv')\nprint(df.head())\n"
},
{
"prompt": "Clase en PyTorch que define un m贸dulo de Convoluci贸n (Conv2d) seguido de una funci贸n de activaci贸n ReLU:",
"completion": "import torch.nn as nn\n\nclass BloqueConv(nn.Module):\n def __init__(self, in_c, out_c):\n super(BloqueConv, self).__init__()\n self.conv = nn.Conv2d(in_c, out_c, kernel_size=3, padding=1)\n self.relu = nn.ReLU()\n\n def forward(self, x):\n return self.relu(self.conv(x))\n"
},
{
"prompt": "Funci贸n para inicializar los pesos de una red neuronal en PyTorch usando la inicializaci贸n Xavier Uniform:",
"completion": "import torch.nn.init as init\n\ndef inicializar_pesos(m):\n if isinstance(m, nn.Linear) or isinstance(m, nn.Conv2d):\n init.xavier_uniform_(m.weight.data)\n if m.bias is not None:\n init.constant_(m.bias.data, 0)\n"
},
{
"prompt": "Configuraci贸n del ciclo de entrenamiento PyTorch (Optimizer y Loss Function):",
"completion": "import torch.optim as optim\nimport torch.nn as nn\n\ncriterion = nn.CrossEntropyLoss()\noptimizer = optim.Adam(model.parameters(), lr=0.001)\n"
},
{
"prompt": "C贸digo Python/Matplotlib para mostrar la distribuci贸n de una caracter铆stica usando un histograma:",
"completion": "import matplotlib.pyplot as plt\n\ndef mostrar_histograma(data, titulo):\n plt.figure(figsize=(8, 6))\n plt.hist(data, bins=30, alpha=0.7, color='skyblue', edgecolor='black')\n plt.title(titulo)\n plt.xlabel('Valor')\n plt.ylabel('Frecuencia')\n plt.grid(axis='y', alpha=0.5)\n plt.show()\n"
},
{
"prompt": "C贸digo Numpy para normalizar un array de datos (escalar de 0 a 1):",
"completion": "import numpy as np\n\ndef normalizar_datos(arr):\n min_val = np.min(arr)\n max_val = np.max(arr)\n return (arr - min_val) / (max_val - min_val)\n"
}
]
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