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Suppose I have an expression of which I need to find the sum:

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where the bounds are finite and known. What is the fastest or most efficient way to go about calculating such a sum in scipy/numpy. It could be done with nested for loops, but is there a better way?

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2 Answers 2

up vote 4 down vote accepted

How about

np.dot(x[:amax], np.cumsum(y[:amax] * np.sum(z[cmin:cmax])))
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np.einsum may be an option too for these kind of sum. As nevsan showed though, for b which is bounded by a you need to use np.cumsum first, and np.einsum should not be faster in the given example.

it could look like this:

 y_acc = np.add.accumulate(y[:amax]) # same as cumsum
 result = np.einsum('i,i,j->', x[:amax], y_acc, z[cmin:cmax])

However this is increadibly slow, because einsum does not optimize the fact that the z summation only needs to be done once, so you need to reformulate it by hand:

result = np.einsum('i,i->', x[:amax], y_summed) * z[cmin:cmax].sum()

Which should in this case however should be slower then nevsan's np.dot based approach, since dot should normally be better optimized (ie. np.einsum(ii->, a, b) is slower then np.dot(a, b)). However if you have more arrays to sum over, it may be a nice option.

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