Genetic algorithm to find the best neural network architecture with Keras
Neuvol is a genetic algorithm API for generating neural networks based on Keras. The main idea is to work with data only, without direct architecture constructing.
- Data in -> Neural Network Architecture out
- A large number of allowed layers types
- Supported data types: texts, images
- CNN, Dense, LSTM, Max polling are available
- Dropout and reshape sub-layers (Flattern) are available too
Short example of usage pipeline.
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IMDB data:
from keras.datasets import imdb import neuvol def main(): (x_train, y_train), (x_test, y_test) = imdb.load_data( path="imdb.npz", num_words=30000, skip_top=0, maxlen=100, seed=113, start_char=1, oov_char=2, index_from=3) evaluator = neuvol.Evaluator(x_train, y_train, kfold_number=5) mutator = neuvol.Mutator() evaluator.create_tokens = False evaluator.fitness_measure = 'f1' options = {'classes': 2, 'shape': (100,), 'depth': 4} wop = neuvol.evolution.Evolution( stages=10, population_size=10, evaluator=evaluator, mutator=mutator, data_type='text', task_type='classification', active_distribution=True, freeze=None, **options) wop.cultivate() for individ in wop.population_raw_individ: print('Architecture: \n') print(individ.schema) print('\nScore: ', individ.result) if __name__ == "__main__": main()
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Cifar10 data:
from keras.datasets import cifar10 import neuvol def main(): (x_train, y_train), (x_test, y_test) = cifar10.load_data() evaluator = neuvol.Evaluator(x_train, y_train, kfold_number=5) mutator = neuvol.Mutator() evaluator.create_tokens = False evaluator.fitness_measure = 'AUC' options = {'classes': 10, 'shape': (32, 32, 3,), 'depth': 4} wop = neuvol.evolution.Evolution( stages=10, population_size=10, evaluator=evaluator, mutator=mutator, data_type='image', task_type='classification', active_distribution=False, freeze=None, **options) wop.cultivate() for individ in wop.population_raw_individ: print('Architecture: \n') print(individ.schema) print('\nScore: ', individ.result) if __name__ == "__main__": main()
Important note: you should set shape of data in option dictionary.
Also, you can use GPU for calculation. In order to do that add:
evaluator.device = 'gpu'
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Images:
X: Array of shape (Number_of_samples, height, width, channels)
Y: Array classes (Number_of_sample)
You should specify shape option as (height, width, channels**,**)
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Texts:
There are two possibilities:
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Process data by yourself - convert text into digits and set:
evaluator.create_tokens = False -
Or use simple keras' tokenizer
evaluator.create_tokens = True
X: Array of shape (Number_of_samples, length_of_sentences)
Y: Array of shape (Number_of_samples)
You should specify shape option as (length_of_sentences**,**)
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- Architectures distribution generation
- Images support
- Custom text embedding support
- Regression models
- Generative networks (??? almost impossible)
- More available layers
- More options (assumptions)
- Logo
- Visualization