本文整理汇总了Python中rbm.RBM.output方法的典型用法代码示例。如果您正苦于以下问题:Python RBM.output方法的具体用法?Python RBM.output怎么用?Python RBM.output使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类rbm.RBM的用法示例。
在下文中一共展示了RBM.output方法的3个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: loadW
# 需要导入模块: from rbm import RBM [as 别名]
# 或者: from rbm.RBM import output [as 别名]
# result_path = 'data/4position_rumba/image7000/rbm1_train3434'
# result_W = loadW(result_path)
makeFolder()
# def __init__(self, W, input, data_size,input_size, output_size, isDropout):
rbm1 = RBM(None, result_data, file_num, rbm_size_list[0], rbm_size_list[1])
for i in xrange(pre_train_epoch):
print 'rbm1 pre_train:' + str(i)
rbm1.contrast_divergence(i)
reinput = rbm1.reconstruct_from_input(rbm1.input)
saveImage(reinput, node_shape[2], 'rbm1_after_train')
saveW(rbm1.getW(), 'rbm1_after_train')
rbm2 = RBM(None, rbm1.output(), file_num, rbm_size_list[1], rbm_size_list[2])
for i in xrange(pre_train_epoch):
print 'rbm2 pre_train:' + str(i)
rbm2.contrast_divergence(i)
reinput = rbm2.reconstruct_from_input(rbm2.input)
reinput = rbm1.reconstruct_from_output(reinput)
saveImage(reinput, node_shape[2], 'rbm2_after_train')
saveW(rbm2.getW(), 'rbm2_after_train')
rbm3 = RBM(None, rbm2.output(), file_num, rbm_size_list[2], rbm_size_list[3])
for i in xrange(pre_train_epoch):
print 'rbm3 pre_train:' + str(i)
rbm3.contrast_divergence(i)
reinput = rbm3.reconstruct_from_input(rbm3.input)
reinput = rbm2.reconstruct_from_output(reinput)
reinput = rbm1.reconstruct_from_output(reinput)示例2: saveImage
# 需要导入模块: from rbm import RBM [as 别名]
# 或者: from rbm.RBM import output [as 别名]
cnn2.pre_train()
output_list = cnn2.output()
saveImage(output_list, node_shape[2], 'cnn2_after_train')
rbm_size_list = (680, 340, 170, 85, 42, 21, 10, 3)
# def __init__(self, W, input, data_size,input_size, output_size, isDropout):
rbm1 = RBM(None, cnn2.output(), file_num, rbm_size_list[0], rbm_size_list[1], False)
for i in xrange(pre_train_epoch):
print 'rbm1 pre_train:' + str(i)
rbm1.contrast_divergence()
reinput = rbm1.reconstruct_from_input(rbm1.input)
saveImage(reinput, node_shape[2], 'rbm1_after_train')
saveW(rbm1.getW(), 'rbm1_after_train')
rbm2 = RBM(None, rbm1.output(), file_num, rbm_size_list[1], rbm_size_list[2], False)
for i in xrange(pre_train_epoch):
print 'rbm2 pre_train:' + str(i)
rbm2.contrast_divergence()
reinput = rbm2.reconstruct_from_input(rbm2.input)
reinput = rbm1.reconstruct_from_output(reinput)
saveImage(reinput, node_shape[2], 'rbm2_after_train')
saveW(rbm2.getW(), 'rbm2_after_train')
rbm3 = RBM(None, rbm2.output(), file_num, rbm_size_list[2], rbm_size_list[3], False)
for i in xrange(pre_train_epoch):
print 'rbm3 pre_train:' + str(i)
rbm3.contrast_divergence()
reinput = rbm3.reconstruct_from_input(rbm3.input)
reinput = rbm2.reconstruct_from_output(reinput)
reinput = rbm1.reconstruct_from_output(reinput)示例3: saveImage
# 需要导入模块: from rbm import RBM [as 别名]
# 或者: from rbm.RBM import output [as 别名]
output = rbm5.output_from_input(output)
output = rbm6.output_from_input(output)
output = rbm7.output_from_input(output)
reinput = rbm7.reconstruct_from_output(output)
reinput = rbm6.reconstruct_from_output(reinput)
reinput = rbm5.reconstruct_from_output(reinput)
reinput = rbm4.reconstruct_from_output(reinput)
reinput = rbm3.reconstruct_from_output(reinput)
reinput = rbm2.reconstruct_from_output(reinput)
reinput = rbm1.reconstruct_from_output(reinput)
saveImage(reinput, node_shape[2], 'rbm7_after_train')
saveW(rbm7.getW(), 'rbm7_after_train')
os.chdir('../../')
output = rbm1.output()
output = rbm2.output_from_input(output)
output = rbm3.output_from_input(output)
output = rbm4.output_from_input(output)
output = rbm5.output_from_input(output)
output = rbm6.output_from_input(output)
output = rbm7.output_from_input(output)
input = rbm7.reconstruct_from_output(output)
input = rbm6.reconstruct_from_output(input)
input = rbm5.reconstruct_from_output(input)
input = rbm4.reconstruct_from_output(input)
input = rbm3.reconstruct_from_output(input)
input = rbm2.reconstruct_from_output(input)
input = rbm1.reconstruct_from_output(input)