# Numpy: Dot product with max instead of sum

Is there a way in numpy to do the following (or is there a general mathematical term for this):

Assume normal dot product:

``````M3[i,k] = sum_j(M1[i,j] * M2[j,k])
``````

Now I would like to replace the sum by sum other operation, say the maximum:

``````M3[i,k] = max_j(M1[i,j] * M2[j,k])
``````

As you can see it is completely parallel to the above, just we take `max` over all `j` and not the sum.

Other options could be `min`, `prod`, and whatever other operation that turns a sequence/set into a value.

• Out of curiosity: Does anyone know if there is a special mathematical term for this kind of generalization? Perhaps the problem has been studied in terms of optimizations... – Radio Controlled Dec 15 '16 at 12:48
• `dot` is a `sum of products` operation. There's an `issue` request for a generalization of `np.einsum`, that would let the user specify both operations. In Iverson's `APL` inner product is written as `A+.×B`, and other operators can be used inplace of `+` and `x`. – hpaulj Dec 15 '16 at 17:42

Normal dot product would be (using numpy broadcasting)

`M3 = np.sum(M1[:, :, None] * M2[None, :, :], axis = 1)`

You can do the same thing with any function you want that has an `axis` keyword.

`M3 = np.max(M1[:, :, None] * M2[None, :, :], axis = 1)`

• Or simply : `np.max(M1[...,None]*M2,axis=1)` and so on. – Divakar Dec 15 '16 at 12:43
• Would the first line of code be much slower than `np.dot(M1,M2)`? – Radio Controlled Dec 15 '16 at 12:43
• @RadioControlled `np.dot` is a special case and AFAIK is not doing elementwise multiplication and summing, so yes `np.dot` would be much faster. – Divakar Dec 15 '16 at 12:45
• Probably slower than `np.dot` as that is optimized and implemented in c-code. – Daniel F Dec 15 '16 at 12:46
• No, but it's probably your best bet since sparse matrices don't broadcast normally. That answer suggests using `np.take` to create a sparse broadcast implementation, which should be efficient, but it's hardly a complete answer for nD. You might want to ask another question linking this one, which might get some of the more experienced folks (like Divakar above) to give their take on it – Daniel F Jan 3 '17 at 14:41