Exemple #1
0
def test_NFM():
    name = "NFM"

    sample_size = 64
    feature_dim_dict = {'sparse': {'sparse_1': 2, 'sparse_2': 5,
                                   'sparse_3': 10}, 'dense': ['dense_1', 'dense_2', 'dense_3']}
    sparse_input = [np.random.randint(0, dim, sample_size)
                    for dim in feature_dim_dict['sparse'].values()]
    dense_input = [np.random.random(sample_size)
                   for name in feature_dim_dict['dense']]
    y = np.random.randint(0, 2, sample_size)
    x = sparse_input + dense_input

    model = NFM(feature_dim_dict, embedding_size=8,
                hidden_size=[32, 32], keep_prob=0.5, )
    model.compile('adam', 'binary_crossentropy',
                  metrics=['binary_crossentropy'])
    model.fit(x, y, batch_size=100, epochs=1, validation_split=0.5)
    print(name+" test train valid pass!")
    model.save_weights(name + '_weights.h5')
    model.load_weights(name + '_weights.h5')
    print(name+" test save load weight pass!")
    save_model(model,  name + '.h5')
    model = load_model(name + '.h5', custom_objects)
    print(name + " test save load model pass!")

    print(name + " test pass!")
Exemple #2
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    SparseFeat(feature, data[feature].nunique()) for feature in sparse_features
]
linear_feature_columns = fixlen_feature_columns
dnn_feature_columns = fixlen_feature_columns
feature_names = get_feature_names(linear_feature_columns + dnn_feature_columns)

# 将数据集切分成训练集和测试集
train, test = train_test_split(data, test_size=0.2)
train_model_input = {name: train[name].values for name in feature_names}
test_model_input = {name: test[name].values for name in feature_names}

# 使用NFM进行训练
model = NFM(linear_feature_columns, dnn_feature_columns, task='regression')
model.compile(
    "adam",
    "mse",
    metrics=['mse'],
)
history = model.fit(
    train_model_input,
    train[target].values,
    batch_size=256,
    epochs=1,
    verbose=True,
    validation_split=0.2,
)
# 使用NFM进行预测
pred_ans = model.predict(test_model_input, batch_size=256)
# 输出RMSE或MSE
mse = round(mean_squared_error(test[target].values, pred_ans), 4)
rmse = mse**0.5
Exemple #3
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    # 3.generate input data for model

    train, test = train_test_split(data, test_size=0.2)
    train_model_input = {name: train[name] for name in feature_names}
    test_model_input = {name: test[name] for name in feature_names}

    # 4.Define Model,train,predict and evaluate
    model = NFM(linear_feature_columns,
                dnn_feature_columns,
                task='binary',
                dnn_hidden_units=(400, 400, 400),
                dnn_dropout=0.5)
    model.compile(
        "adam",
        "binary_crossentropy",
        metrics=['binary_crossentropy'],
    )

    history = model.fit(
        train_model_input,
        train[target].values,
        batch_size=256,
        epochs=10,
        verbose=2,
        validation_split=0.2,
    )
    pred_ans = model.predict(test_model_input, batch_size=256)
    print("test LogLoss", round(log_loss(test[target].values, pred_ans), 4))
    print("test AUC", round(roc_auc_score(test[target].values, pred_ans), 4))
    t1 = time.time()