The answers above are great and helped me a lot in understanding `tensordot`

. But they don't show actual math behind operations. That's why I did equivalent operations in TF 2 for myself and decided to share them here:

```
a = tf.constant([1,2.])
b = tf.constant([2,3.])
print(f"{tf.tensordot(a, b, 0)}\t tf.einsum('i,j', a, b)\t\t- ((the last 0 axes of a), (the first 0 axes of b))")
print(f"{tf.tensordot(a, b, ((),()))}\t tf.einsum('i,j', a, b)\t\t- ((() axis of a), (() axis of b))")
print(f"{tf.tensordot(b, a, 0)}\t tf.einsum('i,j->ji', a, b)\t- ((the last 0 axes of b), (the first 0 axes of a))")
print(f"{tf.tensordot(a, b, 1)}\t\t tf.einsum('i,i', a, b)\t\t- ((the last 1 axes of a), (the first 1 axes of b))")
print(f"{tf.tensordot(a, b, ((0,), (0,)))}\t\t tf.einsum('i,i', a, b)\t\t- ((0th axis of a), (0th axis of b))")
print(f"{tf.tensordot(a, b, (0,0))}\t\t tf.einsum('i,i', a, b)\t\t- ((0th axis of a), (0th axis of b))")
[[2. 3.]
[4. 6.]] tf.einsum('i,j', a, b) - ((the last 0 axes of a), (the first 0 axes of b))
[[2. 3.]
[4. 6.]] tf.einsum('i,j', a, b) - ((() axis of a), (() axis of b))
[[2. 4.]
[3. 6.]] tf.einsum('i,j->ji', a, b) - ((the last 0 axes of b), (the first 0 axes of a))
8.0 tf.einsum('i,i', a, b) - ((the last 1 axes of a), (the first 1 axes of b))
8.0 tf.einsum('i,i', a, b) - ((0th axis of a), (0th axis of b))
8.0 tf.einsum('i,i', a, b) - ((0th axis of a), (0th axis of b))
```

And for `(2,2)`

shape:

```
a = tf.constant([[1,2],
[-2,3.]])
b = tf.constant([[-2,3],
[0,4.]])
print(f"{tf.tensordot(a, b, 0)}\t tf.einsum('ij,kl', a, b)\t- ((the last 0 axes of a), (the first 0 axes of b))")
print(f"{tf.tensordot(a, b, (0,0))}\t tf.einsum('ij,ik', a, b)\t- ((0th axis of a), (0th axis of b))")
print(f"{tf.tensordot(a, b, (0,1))}\t tf.einsum('ij,ki', a, b)\t- ((0th axis of a), (1st axis of b))")
print(f"{tf.tensordot(a, b, 1)}\t tf.matmul(a, b)\t\t- ((the last 1 axes of a), (the first 1 axes of b))")
print(f"{tf.tensordot(a, b, ((1,), (0,)))}\t tf.einsum('ij,jk', a, b)\t- ((1st axis of a), (0th axis of b))")
print(f"{tf.tensordot(a, b, (1, 0))}\t tf.matmul(a, b)\t\t- ((1st axis of a), (0th axis of b))")
print(f"{tf.tensordot(a, b, 2)}\t tf.reduce_sum(tf.multiply(a, b))\t- ((the last 2 axes of a), (the first 2 axes of b))")
print(f"{tf.tensordot(a, b, ((0,1), (0,1)))}\t tf.einsum('ij,ij->', a, b)\t\t- ((0th axis of a, 1st axis of a), (0th axis of b, 1st axis of b))")
[[[[-2. 3.]
[ 0. 4.]]
[[-4. 6.]
[ 0. 8.]]]
[[[ 4. -6.]
[-0. -8.]]
[[-6. 9.]
[ 0. 12.]]]] tf.einsum('ij,kl', a, b) - ((the last 0 axes of a), (the first 0 axes of b))
[[-2. -5.]
[-4. 18.]] tf.einsum('ij,ik', a, b) - ((0th axis of a), (0th axis of b))
[[-8. -8.]
[ 5. 12.]] tf.einsum('ij,ki', a, b) - ((0th axis of a), (1st axis of b))
[[-2. 11.]
[ 4. 6.]] tf.matmul(a, b) - ((the last 1 axes of a), (the first 1 axes of b))
[[-2. 11.]
[ 4. 6.]] tf.einsum('ij,jk', a, b) - ((1st axis of a), (0th axis of b))
[[-2. 11.]
[ 4. 6.]] tf.matmul(a, b) - ((1st axis of a), (0th axis of b))
16.0 tf.reduce_sum(tf.multiply(a, b)) - ((the last 2 axes of a), (the first 2 axes of b))
16.0 tf.einsum('ij,ij->', a, b) - ((0th axis of a, 1st axis of a), (0th axis of b, 1st axis of b))
```