NumPy matrix multiplication can be done by the following three methods.
- multiply(): element-wise matrix multiplication.
- matmul(): matrix product of two arrays.
- dot(): dot product of two arrays.
1. NumPy Matrix Multiplication Element Wise
If you want element-wise matrix multiplication, you can use multiply() function.
import numpy as np
arr1 = np.array([[1, 2],
[3, 4]])
arr2 = np.array([[5, 6],
[7, 8]])
arr_result = np.multiply(arr1, arr2)
print(arr_result)
Output:
[[ 5 12]
[21 32]]
The below image shows the multiplication operation performed to get the result matrix.
Numpy Matrix multiply()
2. Matrix Product of Two NumPy Arrays
If you want the matrix product of two arrays, use matmul() function.
import numpy as np
arr1 = np.array([[1, 2],
[3, 4]])
arr2 = np.array([[5, 6],
[7, 8]])
arr_result = np.matmul(arr1, arr2)
print(f'Matrix Product of arr1 and arr2 is:n{arr_result}')
arr_result = np.matmul(arr2, arr1)
print(f'Matrix Product of arr2 and arr1 is:n{arr_result}')
Output:
Matrix Product of arr1 and arr2 is:
[[19 22]
[43 50]]
Matrix Product of arr2 and arr1 is:
[[23 34]
[31 46]]
The below diagram explains the matrix product operations for every index in the result array. For simplicity, take the row from the first array and the column from the second array for each index. Then multiply the corresponding elements and then add them to reach the matrix product value.
Numpy Matrix Product
The matrix product of two arrays depends on the argument position. So matmul(A, B) might be different from matmul(B, A).
3. Dot Product of Two NumPy Arrays
The numpy dot() function returns the dot product of two arrays. The result is the same as the matmul() function for one-dimensional and two-dimensional arrays.
import numpy as np
arr1 = np.array([[1, 2],
[3, 4]])
arr2 = np.array([[5, 6],
[7, 8]])
arr_result = np.dot(arr1, arr2)
print(f'Dot Product of arr1 and arr2 is:n{arr_result}')
arr_result = np.dot(arr2, arr1)
print(f'Dot Product of arr2 and arr1 is:n{arr_result}')
arr_result = np.dot([1, 2], [5, 6])
print(f'Dot Product of two 1-D arrays is:n{arr_result}')
Output:
Dot Product of arr1 and arr2 is:
[[19 22]
[43 50]]
Dot Product of arr2 and arr1 is:
[[23 34]
[31 46]]
Dot Product of two 1-D arrays is:
17