Upload BERTmULT-k-MMG.ipynb
Browse files- BERTmULT-k-MMG.ipynb +382 -0
BERTmULT-k-MMG.ipynb
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| 1 |
+
{
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| 2 |
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"cells": [
|
| 3 |
+
{
|
| 4 |
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"cell_type": "markdown",
|
| 5 |
+
"id": "976841dc",
|
| 6 |
+
"metadata": {},
|
| 7 |
+
"source": [
|
| 8 |
+
"## Preparación de un dataset\n",
|
| 9 |
+
"\n",
|
| 10 |
+
"Descargamos el dataset y lo preparamos para el entrenamiento. En el caso de ejemplo, usaremos toxic-teenage-relationships, que son frases que describen si un comporamiento es tóxico o sano. Tienen una campo de texto y un campo de etiqueta, que vale 1 si es tóxico y 0 si no lo es. Acumula 268 ejemplos de entrenamiento y 66 para testear."
|
| 11 |
+
]
|
| 12 |
+
},
|
| 13 |
+
{
|
| 14 |
+
"cell_type": "code",
|
| 15 |
+
"execution_count": 2,
|
| 16 |
+
"id": "b9a1f255",
|
| 17 |
+
"metadata": {},
|
| 18 |
+
"outputs": [
|
| 19 |
+
{
|
| 20 |
+
"data": {
|
| 21 |
+
"text/plain": [
|
| 22 |
+
"{'label': 1, 'text': 'Llamar muchas veces porque no te responden los mensajes'}"
|
| 23 |
+
]
|
| 24 |
+
},
|
| 25 |
+
"execution_count": 2,
|
| 26 |
+
"metadata": {},
|
| 27 |
+
"output_type": "execute_result"
|
| 28 |
+
}
|
| 29 |
+
],
|
| 30 |
+
"source": [
|
| 31 |
+
"from datasets import load_dataset\n",
|
| 32 |
+
"data_files = {\"train\": \"train.csv\", \"test\": \"test.csv\"}\n",
|
| 33 |
+
"dataset = load_dataset(\"toxic-teenage-relationships\", data_files=data_files, sep=\";\")\n",
|
| 34 |
+
"dataset['train'][201]"
|
| 35 |
+
]
|
| 36 |
+
},
|
| 37 |
+
{
|
| 38 |
+
"cell_type": "markdown",
|
| 39 |
+
"id": "6d0c740a",
|
| 40 |
+
"metadata": {},
|
| 41 |
+
"source": [
|
| 42 |
+
"Una vez cargado el dataset, se crea un tokenizador para procesar el texto e incluir una estrategia para el padding y el truncamiento. Par poder procesar el dataset en un solo paso, se utiliza el método dataset.map para preprocesar todo el dataset."
|
| 43 |
+
]
|
| 44 |
+
},
|
| 45 |
+
{
|
| 46 |
+
"cell_type": "code",
|
| 47 |
+
"execution_count": 3,
|
| 48 |
+
"id": "01673605",
|
| 49 |
+
"metadata": {},
|
| 50 |
+
"outputs": [],
|
| 51 |
+
"source": [
|
| 52 |
+
"from transformers import AutoTokenizer\n",
|
| 53 |
+
"\n",
|
| 54 |
+
"tokenizer = AutoTokenizer.from_pretrained(\"bert-base-multilingual-cased\")\n",
|
| 55 |
+
"\n",
|
| 56 |
+
"\n",
|
| 57 |
+
"def tokenize_function(examples):\n",
|
| 58 |
+
" return tokenizer(examples[\"text\"], padding=\"max_length\", truncation=True)\n",
|
| 59 |
+
"\n",
|
| 60 |
+
"\n",
|
| 61 |
+
"tokenized_datasets = dataset.map(tokenize_function, batched=True)"
|
| 62 |
+
]
|
| 63 |
+
},
|
| 64 |
+
{
|
| 65 |
+
"cell_type": "markdown",
|
| 66 |
+
"id": "08aacc14",
|
| 67 |
+
"metadata": {},
|
| 68 |
+
"source": [
|
| 69 |
+
"Ahora vamos a convertir el dataset en formator de TensorFlow. Para eso usamos DefaultDataCollator, que junta los tensores en un batch para que el modelo se entrene en él. Debemos especificar el argumento return_tensors=\"tf\". \n"
|
| 70 |
+
]
|
| 71 |
+
},
|
| 72 |
+
{
|
| 73 |
+
"cell_type": "code",
|
| 74 |
+
"execution_count": 4,
|
| 75 |
+
"id": "4a854ead",
|
| 76 |
+
"metadata": {},
|
| 77 |
+
"outputs": [],
|
| 78 |
+
"source": [
|
| 79 |
+
"from transformers import DefaultDataCollator\n",
|
| 80 |
+
"data_collator = DefaultDataCollator(return_tensors=\"tf\")"
|
| 81 |
+
]
|
| 82 |
+
},
|
| 83 |
+
{
|
| 84 |
+
"cell_type": "markdown",
|
| 85 |
+
"id": "06346bc5",
|
| 86 |
+
"metadata": {},
|
| 87 |
+
"source": [
|
| 88 |
+
"guardamos los dataset de train y de test\n"
|
| 89 |
+
]
|
| 90 |
+
},
|
| 91 |
+
{
|
| 92 |
+
"cell_type": "code",
|
| 93 |
+
"execution_count": 5,
|
| 94 |
+
"id": "698a98ca",
|
| 95 |
+
"metadata": {},
|
| 96 |
+
"outputs": [],
|
| 97 |
+
"source": [
|
| 98 |
+
"train_dataset = tokenized_datasets[\"train\"]\n",
|
| 99 |
+
"eval_dataset = tokenized_datasets[\"test\"]"
|
| 100 |
+
]
|
| 101 |
+
},
|
| 102 |
+
{
|
| 103 |
+
"cell_type": "markdown",
|
| 104 |
+
"id": "2c6d5142",
|
| 105 |
+
"metadata": {},
|
| 106 |
+
"source": [
|
| 107 |
+
"A hora vamos a convertir los datasets tokenizados en datasets de TensorFlow con el método .to_tf_dataset. Las entradas están en columns y la etiqueta en label_cols"
|
| 108 |
+
]
|
| 109 |
+
},
|
| 110 |
+
{
|
| 111 |
+
"cell_type": "code",
|
| 112 |
+
"execution_count": 6,
|
| 113 |
+
"id": "40a05ad9",
|
| 114 |
+
"metadata": {},
|
| 115 |
+
"outputs": [],
|
| 116 |
+
"source": [
|
| 117 |
+
"tf_train_dataset= train_dataset.to_tf_dataset(\n",
|
| 118 |
+
"columns=[\"attention_mask\", \"input_ids\", \"token_type_ids\"],\n",
|
| 119 |
+
"label_cols=\"labels\",\n",
|
| 120 |
+
"shuffle=True,\n",
|
| 121 |
+
"collate_fn=data_collator,\n",
|
| 122 |
+
"batch_size=8,\n",
|
| 123 |
+
")\n",
|
| 124 |
+
"tf_validation_dataset= eval_dataset.to_tf_dataset(\n",
|
| 125 |
+
"columns=[\"attention_mask\", \"input_ids\", \"token_type_ids\"],\n",
|
| 126 |
+
"label_cols=\"labels\",\n",
|
| 127 |
+
"shuffle=False,\n",
|
| 128 |
+
"collate_fn=data_collator,\n",
|
| 129 |
+
"batch_size=8,\n",
|
| 130 |
+
")\n"
|
| 131 |
+
]
|
| 132 |
+
},
|
| 133 |
+
{
|
| 134 |
+
"cell_type": "markdown",
|
| 135 |
+
"id": "38a6c521",
|
| 136 |
+
"metadata": {},
|
| 137 |
+
"source": [
|
| 138 |
+
"## Fine-tuning usando Fit\n",
|
| 139 |
+
"\n",
|
| 140 |
+
"En primer lugar, vamos a cargar el modelo TensorFlow con el número esperado e labels. En este caso, tenemos 2 categorías.\n",
|
| 141 |
+
"\n"
|
| 142 |
+
]
|
| 143 |
+
},
|
| 144 |
+
{
|
| 145 |
+
"cell_type": "code",
|
| 146 |
+
"execution_count": 7,
|
| 147 |
+
"id": "843f218d",
|
| 148 |
+
"metadata": {},
|
| 149 |
+
"outputs": [
|
| 150 |
+
{
|
| 151 |
+
"name": "stderr",
|
| 152 |
+
"output_type": "stream",
|
| 153 |
+
"text": [
|
| 154 |
+
"2023-08-09 20:57:30.270009: W tensorflow/tsl/framework/cpu_allocator_impl.cc:83] Allocation of 367248384 exceeds 10% of free system memory.\n",
|
| 155 |
+
"2023-08-09 20:57:30.504118: W tensorflow/tsl/framework/cpu_allocator_impl.cc:83] Allocation of 367248384 exceeds 10% of free system memory.\n",
|
| 156 |
+
"2023-08-09 20:57:30.551016: W tensorflow/tsl/framework/cpu_allocator_impl.cc:83] Allocation of 367248384 exceeds 10% of free system memory.\n",
|
| 157 |
+
"2023-08-09 20:57:37.098563: W tensorflow/tsl/framework/cpu_allocator_impl.cc:83] Allocation of 367248384 exceeds 10% of free system memory.\n",
|
| 158 |
+
"2023-08-09 20:57:37.939022: W tensorflow/tsl/framework/cpu_allocator_impl.cc:83] Allocation of 367248384 exceeds 10% of free system memory.\n",
|
| 159 |
+
"All PyTorch model weights were used when initializing TFBertForSequenceClassification.\n",
|
| 160 |
+
"\n",
|
| 161 |
+
"Some weights or buffers of the TF 2.0 model TFBertForSequenceClassification were not initialized from the PyTorch model and are newly initialized: ['classifier.weight', 'classifier.bias']\n",
|
| 162 |
+
"You should probably TRAIN this model on a down-stream task to be able to use it for predictions and inference.\n"
|
| 163 |
+
]
|
| 164 |
+
}
|
| 165 |
+
],
|
| 166 |
+
"source": [
|
| 167 |
+
"import tensorflow as tf\n",
|
| 168 |
+
"from transformers import TFAutoModelForSequenceClassification\n",
|
| 169 |
+
"\n",
|
| 170 |
+
"#Hay dos categorías, así que ponemos 2 etiquetas (0 sano 1 tóxico)\n",
|
| 171 |
+
"model = TFAutoModelForSequenceClassification.from_pretrained(\"bert-base-multilingual-cased\", num_labels=2)"
|
| 172 |
+
]
|
| 173 |
+
},
|
| 174 |
+
{
|
| 175 |
+
"cell_type": "markdown",
|
| 176 |
+
"id": "a31780ca",
|
| 177 |
+
"metadata": {},
|
| 178 |
+
"source": [
|
| 179 |
+
"Ahora se aplica la función compile y fit como se haría con cualquier modelo Keras.\n",
|
| 180 |
+
"Compile configura la fase de entrenamiento del modelo antes comenzar a optimizar, por eso se elige el optimizador (en nuestro caso, Adam), la función de pérdida y las métricas que se usarań para evaluar el rendimiento que se han puesto en las celdas anteriores. \n",
|
| 181 |
+
"Fit entrena el modelo con los datos que se le han pasado, y al proporcionar un conjunto de validación se monitorea el rendimiento del modelo, por lo que se evalua mientras se entrena."
|
| 182 |
+
]
|
| 183 |
+
},
|
| 184 |
+
{
|
| 185 |
+
"cell_type": "code",
|
| 186 |
+
"execution_count": 9,
|
| 187 |
+
"id": "3e01c5fb",
|
| 188 |
+
"metadata": {},
|
| 189 |
+
"outputs": [],
|
| 190 |
+
"source": [
|
| 191 |
+
"model.compile(\n",
|
| 192 |
+
"optimizer=tf.keras.optimizers.Adam(learning_rate=5e-5),\n",
|
| 193 |
+
"loss=tf.keras.losses.SparseCategoricalCrossentropy(from_logits=True),\n",
|
| 194 |
+
"metrics=tf.metrics.SparseCategoricalAccuracy(),\n",
|
| 195 |
+
")\n",
|
| 196 |
+
"\n"
|
| 197 |
+
]
|
| 198 |
+
},
|
| 199 |
+
{
|
| 200 |
+
"cell_type": "markdown",
|
| 201 |
+
"id": "4840d701",
|
| 202 |
+
"metadata": {},
|
| 203 |
+
"source": [
|
| 204 |
+
"sparse_categorical es el valor calculado en mi conjunto de datos de train, mientras que el que tiene el prefijo val es el que se calcula en el conjunto de datos de test. Si la métrica de test permanece igual o disminuye mientras aumenta el de train, el modelo está sobreajustando (overfitting)"
|
| 205 |
+
]
|
| 206 |
+
},
|
| 207 |
+
{
|
| 208 |
+
"cell_type": "code",
|
| 209 |
+
"execution_count": 10,
|
| 210 |
+
"id": "41f9da62",
|
| 211 |
+
"metadata": {},
|
| 212 |
+
"outputs": [],
|
| 213 |
+
"source": [
|
| 214 |
+
"from keras.callbacks import EarlyStopping\n",
|
| 215 |
+
"#en este modelo he observado overfitting, por lo que voy a utilizar Early stopping para detener el entrenamiento en el momento\n",
|
| 216 |
+
"#que se observe un incremento en el error de validación. \n",
|
| 217 |
+
"#Deja pasar 2 epochs antes de interrumpir el entrenamiento, quedándose con el mejor valor\n",
|
| 218 |
+
"early_stop=EarlyStopping(monitor=\"val_loss\",patience=2,mode=\"auto\", restore_best_weights=True)"
|
| 219 |
+
]
|
| 220 |
+
},
|
| 221 |
+
{
|
| 222 |
+
"cell_type": "markdown",
|
| 223 |
+
"id": "de7045d1",
|
| 224 |
+
"metadata": {},
|
| 225 |
+
"source": [
|
| 226 |
+
"Ahora aplicamos el fit con un epoch de 10, que es las veces que pasará cada prototipo por el entrenador, teniendo en cuenta que parará cuando el valor de loss empiece a detectar overfitting"
|
| 227 |
+
]
|
| 228 |
+
},
|
| 229 |
+
{
|
| 230 |
+
"cell_type": "code",
|
| 231 |
+
"execution_count": 11,
|
| 232 |
+
"id": "50e4097e",
|
| 233 |
+
"metadata": {},
|
| 234 |
+
"outputs": [
|
| 235 |
+
{
|
| 236 |
+
"name": "stdout",
|
| 237 |
+
"output_type": "stream",
|
| 238 |
+
"text": [
|
| 239 |
+
"Epoch 1/10\n",
|
| 240 |
+
"34/34 [==============================] - 592s 17s/step - loss: 0.7036 - sparse_categorical_accuracy: 0.4851 - val_loss: 0.6760 - val_sparse_categorical_accuracy: 0.6667\n",
|
| 241 |
+
"Epoch 2/10\n",
|
| 242 |
+
"34/34 [==============================] - 563s 17s/step - loss: 0.6176 - sparse_categorical_accuracy: 0.6866 - val_loss: 0.5916 - val_sparse_categorical_accuracy: 0.7121\n",
|
| 243 |
+
"Epoch 3/10\n",
|
| 244 |
+
"34/34 [==============================] - 562s 17s/step - loss: 0.6109 - sparse_categorical_accuracy: 0.6903 - val_loss: 0.7139 - val_sparse_categorical_accuracy: 0.5758\n",
|
| 245 |
+
"Epoch 4/10\n",
|
| 246 |
+
"34/34 [==============================] - 569s 17s/step - loss: 0.7128 - sparse_categorical_accuracy: 0.5858 - val_loss: 0.6790 - val_sparse_categorical_accuracy: 0.5606\n"
|
| 247 |
+
]
|
| 248 |
+
},
|
| 249 |
+
{
|
| 250 |
+
"data": {
|
| 251 |
+
"text/plain": [
|
| 252 |
+
"<keras.src.callbacks.History at 0x7fe030312700>"
|
| 253 |
+
]
|
| 254 |
+
},
|
| 255 |
+
"execution_count": 11,
|
| 256 |
+
"metadata": {},
|
| 257 |
+
"output_type": "execute_result"
|
| 258 |
+
}
|
| 259 |
+
],
|
| 260 |
+
"source": [
|
| 261 |
+
"model.fit(tf_train_dataset, validation_data=tf_validation_dataset, epochs=10, callbacks=[early_stop])"
|
| 262 |
+
]
|
| 263 |
+
},
|
| 264 |
+
{
|
| 265 |
+
"cell_type": "code",
|
| 266 |
+
"execution_count": 12,
|
| 267 |
+
"id": "fbeef13e",
|
| 268 |
+
"metadata": {},
|
| 269 |
+
"outputs": [
|
| 270 |
+
{
|
| 271 |
+
"name": "stdout",
|
| 272 |
+
"output_type": "stream",
|
| 273 |
+
"text": [
|
| 274 |
+
"Model: \"tf_bert_for_sequence_classification\"\n",
|
| 275 |
+
"_________________________________________________________________\n",
|
| 276 |
+
" Layer (type) Output Shape Param # \n",
|
| 277 |
+
"=================================================================\n",
|
| 278 |
+
" bert (TFBertMainLayer) multiple 177853440 \n",
|
| 279 |
+
" \n",
|
| 280 |
+
" dropout_37 (Dropout) multiple 0 \n",
|
| 281 |
+
" \n",
|
| 282 |
+
" classifier (Dense) multiple 1538 \n",
|
| 283 |
+
" \n",
|
| 284 |
+
"=================================================================\n",
|
| 285 |
+
"Total params: 177854978 (678.46 MB)\n",
|
| 286 |
+
"Trainable params: 177854978 (678.46 MB)\n",
|
| 287 |
+
"Non-trainable params: 0 (0.00 Byte)\n",
|
| 288 |
+
"_________________________________________________________________\n"
|
| 289 |
+
]
|
| 290 |
+
}
|
| 291 |
+
],
|
| 292 |
+
"source": [
|
| 293 |
+
"model.summary()"
|
| 294 |
+
]
|
| 295 |
+
},
|
| 296 |
+
{
|
| 297 |
+
"cell_type": "markdown",
|
| 298 |
+
"id": "c4fa0fce",
|
| 299 |
+
"metadata": {},
|
| 300 |
+
"source": [
|
| 301 |
+
"Aunque aparecen durante el proceso de fit, imprimimos las cifras de loss y accuracy obtenidas del modelo.\n"
|
| 302 |
+
]
|
| 303 |
+
},
|
| 304 |
+
{
|
| 305 |
+
"cell_type": "code",
|
| 306 |
+
"execution_count": 14,
|
| 307 |
+
"id": "4113ab57",
|
| 308 |
+
"metadata": {},
|
| 309 |
+
"outputs": [
|
| 310 |
+
{
|
| 311 |
+
"name": "stdout",
|
| 312 |
+
"output_type": "stream",
|
| 313 |
+
"text": [
|
| 314 |
+
"('loss', 0.5915697813034058)\n",
|
| 315 |
+
"('sparse_categorical_accuracy', 0.7121211886405945)\n"
|
| 316 |
+
]
|
| 317 |
+
}
|
| 318 |
+
],
|
| 319 |
+
"source": [
|
| 320 |
+
"\n",
|
| 321 |
+
"scores= model.evaluate(tf_validation_dataset, verbose=0)\n",
|
| 322 |
+
"print((model.metrics_names[0], scores[0]))\n",
|
| 323 |
+
"print((model.metrics_names[1], scores[1]))"
|
| 324 |
+
]
|
| 325 |
+
},
|
| 326 |
+
{
|
| 327 |
+
"cell_type": "markdown",
|
| 328 |
+
"id": "9e61a040",
|
| 329 |
+
"metadata": {},
|
| 330 |
+
"source": [
|
| 331 |
+
"# Guardando el modelo"
|
| 332 |
+
]
|
| 333 |
+
},
|
| 334 |
+
{
|
| 335 |
+
"cell_type": "markdown",
|
| 336 |
+
"id": "4af06209",
|
| 337 |
+
"metadata": {},
|
| 338 |
+
"source": [
|
| 339 |
+
"Para Guardarlo, utilizamos esl método save_model"
|
| 340 |
+
]
|
| 341 |
+
},
|
| 342 |
+
{
|
| 343 |
+
"cell_type": "code",
|
| 344 |
+
"execution_count": 22,
|
| 345 |
+
"id": "0e0dff1a",
|
| 346 |
+
"metadata": {},
|
| 347 |
+
"outputs": [],
|
| 348 |
+
"source": [
|
| 349 |
+
"model.save(\"BERTmULT-k-MMG.keras\")"
|
| 350 |
+
]
|
| 351 |
+
},
|
| 352 |
+
{
|
| 353 |
+
"cell_type": "code",
|
| 354 |
+
"execution_count": null,
|
| 355 |
+
"id": "3dfd1db6",
|
| 356 |
+
"metadata": {},
|
| 357 |
+
"outputs": [],
|
| 358 |
+
"source": []
|
| 359 |
+
}
|
| 360 |
+
],
|
| 361 |
+
"metadata": {
|
| 362 |
+
"kernelspec": {
|
| 363 |
+
"display_name": "Python 3 (ipykernel)",
|
| 364 |
+
"language": "python",
|
| 365 |
+
"name": "python3"
|
| 366 |
+
},
|
| 367 |
+
"language_info": {
|
| 368 |
+
"codemirror_mode": {
|
| 369 |
+
"name": "ipython",
|
| 370 |
+
"version": 3
|
| 371 |
+
},
|
| 372 |
+
"file_extension": ".py",
|
| 373 |
+
"mimetype": "text/x-python",
|
| 374 |
+
"name": "python",
|
| 375 |
+
"nbconvert_exporter": "python",
|
| 376 |
+
"pygments_lexer": "ipython3",
|
| 377 |
+
"version": "3.8.13"
|
| 378 |
+
}
|
| 379 |
+
},
|
| 380 |
+
"nbformat": 4,
|
| 381 |
+
"nbformat_minor": 5
|
| 382 |
+
}
|