# Vectorized exponentiation

I have two vectors, `X` of bases and `N` of exponents. I want to get the matrix of all values `e = xn` for each `x` in `X` and `n` in `N`.

For example, the following input:

``````X = [2 3 4]'
N = [1 2 3]
``````

should produce:

``````ans = [2 4 8; 3 9 27; 4 16 64]
``````

Is there a way to get this without looping (just like you can get all values of x×n by using the column by row product)?

-

Use `bsxfun`:

``````bsxfun(@power, X, N)
``````

This assumes that `X` is a column vector and `N` is a row vector. If you want to guarantee that, use the following syntax which is more robust:

``````bsxfun(@power, X(:), N(:).')
``````
-
+1 10 sec ahead of me... –  Shai Jun 2 '13 at 10:30
Sweet, thanks. (And shame on me, I stumbled upon a similar problem solved with bsxfun just a week ago.) –  Dek Dekku Jun 2 '13 at 10:32
This is probably a bit sloppier than the `bsxfun` answer, but you could use `meshgrid`:
``````E = X.^(meshgrid(N)')
This assumes both `X` and `N` are row vectors. If both are column vectors then it becomes:
``````E = X.^(meshgrid(N))