Ejemplo n.º 1
0
                                   n_redundant=7)

def svccv(C, gamma):
    return cross_val_score(SVC(C=C, gamma=gamma, random_state=2),
                           data, target, 'f1', cv=5).mean()

def rfccv(n_estimators, min_samples_split, max_features):
    return cross_val_score(RFC(n_estimators=int(n_estimators),
                               min_samples_split=int(min_samples_split),
                               max_features=min(max_features, 0.999),
                               random_state=2),
                           data, target, 'f1', cv=5).mean()

if __name__ == "__main__":

    svcBO = BayesOptCV(svccv, param_grid={'C':{'type':'float', 'min':0.02, 'max':20}, 'gamma':{'type':'float', 'min':0.05, 'max':5}}, verbose=2)
    svcBO.initialize(num_init=3, init_grid={'C': [0.001, 0.01, 0.1], 'gamma': [0.001, 0.01, 0.1]})

    rfcBO = BayesOptCV(rfccv, param_grid={'n_estimators': {'type':'int', 'min':10, 'max':250},
                                         'min_samples_split': {'type':'int', 'min':2, 'max':25},
                                         'max_features': {'type':'int', 'min':0.1, 'max':0.999}}, verbose=2)
    kernel_param = {}  # something
    acqui_param = {}  # something
    rfcBO.initialize(num_init=3)
    svcBO.optimize(kernel_param=kernel_param, acqui_param=acqui_param)
    rfcBO.optimize(kernel_param=kernel_param, acqui_param=acqui_param)

    print('Final Results')
    print('SVC: %f' % svcBO.report['best']['best_val'])
    print('RFC: %f' % rfcBO.report['best']['best_val'])
Ejemplo n.º 2
0
scaler = MinMaxScaler(feature_range=(-1, 1))

train_data = scaler.fit_transform(train_data.toarray())
test_data = scaler.transform(test_data.toarray())

print train_data.shape
print test_data.shape
import numpy as np
f = lambda x: np.sin(x)
sigma = 0.02  # noise variance.

def sin(C):
    
    return f(C) + sigma * np.random.randn(1)[0]
def svccv(C):
    return cross_val_score(SVC(C=C, kernel='poly', degree=3, random_state=2),
                           train_data, train_labels, 'f1', cv=5).mean()
                           
svcBO = BayesOptCV(svccv, param_grid={'C':{'type':'float', 'min':6.4e-05, 'max':60}},
                   bigger_is_better=True, verbose=2)

svcBO.initialize(num_init=10, init_grid={})
# kernel_param = {'nugget':0.0000001}
kernel_param = {'theta0':0.5}
acqui_param = {'kappa':2} 
svcBO.optimize(kernel_param=kernel_param, acqui_param=acqui_param, n_iter=100, acqui_type='ucb', n_acqui_iter=200)
print('Final Results')                             
print('SVC: %f' % svcBO.report['best']['best_val'])
plt.show()
Ejemplo n.º 3
0
def svccv(C):
    return cross_val_score(SVC(C=C, kernel='poly', degree=3, random_state=2),
                           train_data,
                           train_labels,
                           'f1',
                           cv=5).mean()


svcBO = BayesOptCV(
    svccv,
    param_grid={'C': {
        'type': 'float',
        'min': 6.4e-05,
        'max': 60
    }},
    bigger_is_better=True,
    verbose=2)

svcBO.initialize(num_init=10, init_grid={})
# kernel_param = {'nugget':0.0000001}
kernel_param = {'theta0': 0.5}
acqui_param = {'kappa': 2}
svcBO.optimize(kernel_param=kernel_param,
               acqui_param=acqui_param,
               n_iter=100,
               acqui_type='ucb',
               n_acqui_iter=200)
print('Final Results')
print('SVC: %f' % svcBO.report['best']['best_val'])
plt.show()
Ejemplo n.º 4
0
'''
Created on Dec 18, 2015

@author: adarsh
'''

from hypop import BayesOptCV
from solutions_helper import *
import glob
trainfiles = glob.glob('/home/adarsh/Copy/SharedWorkspace/inf_ps_7/Data/train*.txt')
testfiles = glob.glob('/home/adarsh/Copy/SharedWorkspace/inf_ps_7/Data/test*.txt')
train_data, train_labels = transform_data(trainfiles)
train_data = encode_sentences(train_data)
train_size = 100
def struct_predict(C):
    val_score = bpo_cost_fun(train_data[
                               :train_size], train_data[-500:], train_labels[:train_size], train_labels[-500:], C)
    return val_score
    
                           
svcBO = BayesOptCV(struct_predict, param_grid={'C':{'type':'float', 'min':6.4e-05, 'max':100}}, verbose=2)

svcBO.initialize(num_init=10, init_grid={'C': [0.001, 0.1, 1, 10, 50, 80, 100, ]})
# kernel_param = {'nugget':0.0000001}
kernel_param = {'theta0':1.0}
acqui_param = {} 
svcBO.optimize(kernel_param=kernel_param, acqui_param=acqui_param, n_iter=10, n_acqui_iter=50)
print('Final Results')                             
print('StructSVM: %f' % svcBO.report['best']['best_val'])
plt.show()