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LC_Groundstate.py
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LC_Groundstate.py
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import numpy as np
import matplotlib.pylab as plt
import imp
import pandas as pd
import seaborn as sns #advanced graphing library
import random
import sklearn
from sklearn.linear_model import LinearRegression
from sklearn.model_selection import train_test_split
from keras.models import Sequential, load_model
from keras.layers import Dense, Dropout
from keras.callbacks import EarlyStopping, ModelCheckpoint
seed = 1010
np.random.seed(seed)
random.seed(seed)
Heis_data =np.load('GS_Energies_data.npz') #each row contains a feature vector
designmatrix = Heis_data['design_matrix']
Energies = Heis_data['Energies'] #Target vectors
model = Sequential() #defining model for Heisenberg Hamiltonian
model.add(Dense(input_dim=6, units=256, activation='relu'))
model.add(Dense(units=256, activation='relu'))
model.add(Dense(units=256, activation='relu'))
model.add(Dense(units=1))
MSE_val = []
MSE_train = []
dm = []
for i in range(300, 1000, 10):
designmatrix_tv = []
designmatrix_test = []
Energies_tv = []
Energies_test = []
#Train/Validation/Test sets
designmatrix_tv, designmatrix_test, Energies_tv, Energies_test = train_test_split(designmatrix[0:i], Energies[0:i], test_size=0.2)
designmatrix_train, designmatrix_val, Energies_train, Energies_val = train_test_split(designmatrix_tv, Energies_tv, test_size=0.2)
#Standardisation
Energies_mu = np.mean(Energies_train, axis=0)
Energies_std = np.std(Energies_train, axis=0)
Energies_train_std = (Energies_train - Energies_mu) / Energies_std
Energies_val_std = (Energies_val - Energies_mu) / Energies_std
Energies_test_std = (Energies_test - Energies_mu) / Energies_std
## Compile ##
model.compile(optimizer='adam', loss='mse')
print(model.summary())
callback_list = [EarlyStopping(monitor='val_loss', min_delta=1e-7, patience=10, verbose=1)]
n_epochs = 100
#Model fit
model_history = model.fit(x=designmatrix_train, y=Energies_train_std, validation_data=(designmatrix_val, Energies_val_std),
batch_size=32, verbose=1,
epochs=n_epochs, callbacks=callback_list, shuffle=True)
#Generalization Error
#Predictions
indx = len(model_history.history['val_loss'])-10
val_loss = (model_history.history['val_loss'])[indx-1]
train_loss = (model_history.history['loss'])[indx -1]
MSE_val.append(val_loss)
MSE_train.append(train_loss)
dm.append(len(designmatrix_train))
print(dm)
print(MSE_train)
print(MSE_val)
#Learning Curve
plt.figure()
plt.plot(dm, MSE_train, label='Train')
plt.plot(dm, MSE_val, label='Val')
plt.legend()
plt.xlabel('Number of Samples in Training set')
plt.ylabel('Mean Squared Error')
plt.show()