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I am trying to write a code to conduct a double summation (see pic)

enter image description here

in which; M is the subjects, N is the Trials, Yijt is the measured wave form data (3d array)

so far I have; Given Y is the data arranged as Y[subjects, trials, time]

# ranges:
I = len(Y)
J = len(Y[0])

Y_i_vals = 0

for i in range(M):
    for j in range(N):
        Y_i_vals = Y_i_vals +Y[i][j]
Yt = (1.0/(M*N)) * Y_i_vals

this doesnt seem the most effective way to do this, nor am i certain it is giving the correct result.

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Do you know list comprehension? That would be much faster. Or in that case, try to use sum –  Paco Oct 9 '13 at 14:29
Did you mean Y[i][j], not Y[M][N]? –  Michael0x2a Oct 9 '13 at 14:30
@Michael0x2a Thanks, have now corrected –  Limited Intelligence Oct 10 '13 at 9:17

1 Answer 1

up vote 6 down vote accepted

If you're using numpy just do


Also, it's good to add sample input and expected output data to your question.

If you want means for each t you can do np.mean(np.mean(a, axis=0), axis=0) , or as noted by @ophion you can shorten this to np.mean(a, axis=(0, 1)) in newer (1.71 and on) versions of NumPy.

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This would compute the mean over all 3 dimensions, where the desire is to generate separate means over M and N for each t. (Unless Y in the code really represents a slice for a specific t.) –  chepner Oct 9 '13 at 14:38
Updated. Adding expected input and output would make it much clearer! –  Mr E Oct 9 '13 at 14:39
Updated again, my suggestion wasn't quite right –  Mr E Oct 9 '13 at 14:44
In numpy 1.7.1 you can simplify this to np.mean(a, axis=(0,1)) –  Ophion Oct 9 '13 at 14:56
@Ophion nice, I didn't know that –  Mr E Oct 9 '13 at 15:02

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