np.dot(A, B):对于二维矩阵,计算真正意义上的矩阵乘积,同线性代数中矩阵乘法的定义。对于一维矩阵,计算两者的内积。见如下Python代码:
import numpy as np
# 2-D array: 2 x 3
two_dim_matrix_one = np.array([[1, 2, 3], [4, 5, 6]])
# 2-D array: 3 x 2
two_dim_matrix_two = np.array([[1, 2], [3, 4], [5, 6]])
two_multi_res = np.dot(two_dim_matrix_one, two_dim_matrix_two)
print('two_multi_res: %s' %(two_multi_res))
# 1-D array
one_dim_vec_one = np.array([1, 2, 3])
one_dim_vec_two = np.array([4, 5, 6])
one_result_res = np.dot(one_dim_vec_one, one_dim_vec_two)
print('one_result_res: %s' %(one_result_res))
结果如下:
two_multi_res: [[22 28]
[49 64]]
one_result_res: 32
在Python中,实现对应元素相乘,有2种方式,一个是np.multiply(),另外一个是*。见如下Python代码:
import numpy as np
# 2-D array: 2 x 3
two_dim_matrix_one = np.array([[1, 2, 3], [4, 5, 6]])
another_two_dim_matrix_one = np.array([[7, 8, 9], [4, 7, 1]])
# 对应元素相乘 element-wise product
element_wise = two_dim_matrix_one * another_two_dim_matrix_one
print('element wise product: %s' %(element_wise))
# 对应元素相乘 element-wise product
element_wise_2 = np.multiply(two_dim_matrix_one, another_two_dim_matrix_one)
print('element wise product: %s' % (element_wise_2))
结果如下:
element wise product: [[ 7 16 27]
[16 35 6]]
element wise product: [[ 7 16 27]
[16 35 6]]