# What are the ways to sum matrix elements in MATLAB?

Given the matrix:

``````A = [1 2 3; 4 5 6; 7 8 9];
``````
1. How could you use a for loop to compute the sum of the elements in the matrix?
2. Write a one line MATLAB command using the function `sum` to sum the matrix elements in `A`.

1)

``````for j=1:3,
for i=j:3,
A(i,:) = A(i,:)+A(j+1,:)+A(j+2,:)
end
end
``````

2)

``````sum(A)
``````

Are these the correct answers? I didn't know how to use `if`, `while` and `for`. Can anyone explain it to me?

• These are really simple questions. A few minutes on Google with one of the innumerable tutorials would have saved the rest of us alot of time. – Marc Nov 13 '09 at 19:46
• Try to avoid using for-loops for calculating stuff in Matlab. Unless you really want to make things really slow or there is no other way. – Reed Richards Jul 14 '11 at 16:11

For very large matrices using `sum(sum(A))` can be faster than `sum(A(:))`:

``````>> A = rand(20000);
>> tic; B=sum(A(:)); toc; tic; C=sum(sum(A)); toc
Elapsed time is 0.407980 seconds.
Elapsed time is 0.322624 seconds.
``````
• Nice find! Actually it even seems to be faster for nearly any size. Even for `rand(100)` the difference is significant on my system. (Though not for `rand(10000,1)`). However, as it is about a fraction of a second I would still recommend the more robust/general `sum(A(:))` for most purposes. – Dennis Jaheruddin Oct 8 '13 at 14:56
• @Dennis Jaheruddin I prefer `sum(sum(A))` since it is more computationally efficient. The only advantage of `sum(A(:))` is that it is easier to read but it recodes the whole matrix A into a vector, thus the computational effort. – Mario Reutter May 11 '15 at 13:59
• @MarioReutter Of course it is less efficient (as shown in the answer), but actually the main reason why I use it is that it works for matrices of higher dimensionality as well. Suppose you have `M=rand(3,3,3)`, now compare `sum(sum(M)))` with `sum(M(:))`. – Dennis Jaheruddin May 26 '15 at 11:29
• Update: using Matlab 2015b, the difference is roughly an order of magnitude smaller (0.193 sec. v. 0.185 sec.). – David Kelley Mar 16 '16 at 19:38
• `timeit(@()sum(sum(A)))/timeit(@()sum(A(:)))` is more accurate than `tic` and `toc`. – bers Mar 31 '16 at 18:07

1)

``````total = 0;
for i=1:size(A,1)
for j=1:size(A,2)
total = total + A(i,j);
end
end
``````

2)

``````total = sum(A(:));
``````
• And if you use 1) instead of 2) when you are actually using MATLAB for something real, then you need to die a slow horrible death ;) – Hannes Ovrén Nov 13 '09 at 18:44
• While a correct answer, I would hope to see the most up-ed answer to discourage loops. They do indeed lead to slow horrible deaths... Maybe edit it? – Argyll Apr 8 '14 at 6:25

Another answer for the first question is to use one for loop and perform linear indexing into the array using the function NUMEL to get the total number of elements:

``````total = 0;
for i = 1:numel(A)
total = total+A(i);
end
``````

Avoid for loops whenever possible.

``````sum(A(:))
``````

is great however if you have some logical indexing going on you can't use the (:) but you can write

``````% Sum all elements under 45 in the matrix
sum ( sum ( A *. ( A < 45 ) )
``````

Since sum sums the columns and sums the row vector that was created by the first sum. Note that this only works if the matrix is 2-dim.

The best practice is definitely to avoid loops or recursions in Matlab.

Between `sum(A(:))` and `sum(sum(A))`. In my experience, arrays in Matlab seems to be stored in a continuous block in memory as stacked column vectors. So the shape of A does not quite matter in `sum()`. (One can test `reshape()` and check if reshaping is fast in Matlab. If it is, then we have a reason to believe that the shape of an array is not directly related to the way the data is stored and manipulated.)

As such, there is no reason `sum(sum(A))` should be faster. It would be slower if Matlab actually creates a row vector recording the sum of each column of A first and then sum over the columns. But I think `sum(sum(A))` is very wide-spread amongst users. It is likely that they hard-code `sum(sum(A))` to be a single loop, the same to `sum(A(:))`.

Below I offer some testing results. In each test, A=rand(size) and size is specified in the displayed texts.

First is using tic toc.

``````Size 100x100
sum(A(:))
Elapsed time is 0.000025 seconds.
sum(sum(A))
Elapsed time is 0.000018 seconds.

Size 10000x1
sum(A(:))
Elapsed time is 0.000014 seconds.
sum(A)
Elapsed time is 0.000013 seconds.

Size 1000x1000
sum(A(:))
Elapsed time is 0.001641 seconds.
sum(A)
Elapsed time is 0.001561 seconds.

Size 1000000
sum(A(:))
Elapsed time is 0.002439 seconds.
sum(A)
Elapsed time is 0.001697 seconds.

Size 10000x10000
sum(A(:))
Elapsed time is 0.148504 seconds.
sum(A)
Elapsed time is 0.155160 seconds.

Size 100000000
Error using rand
Out of memory. Type HELP MEMORY for your options.

Error in test27 (line 70)
A=rand(100000000,1);
``````

Below is using cputime

``````Size 100x100
The cputime for sum(A(:)) in seconds is
0
The cputime for sum(sum(A)) in seconds is
0

Size 10000x1
The cputime for sum(A(:)) in seconds is
0
The cputime for sum(sum(A)) in seconds is
0

Size 1000x1000
The cputime for sum(A(:)) in seconds is
0
The cputime for sum(sum(A)) in seconds is
0

Size 1000000
The cputime for sum(A(:)) in seconds is
0
The cputime for sum(sum(A)) in seconds is
0

Size 10000x10000
The cputime for sum(A(:)) in seconds is
0.312
The cputime for sum(sum(A)) in seconds is
0.312

Size 100000000
Error using rand
Out of memory. Type HELP MEMORY for your options.

Error in test27_2 (line 70)
A=rand(100000000,1);
``````

In my experience, both timers are only meaningful up to .1s. So if you have similar experience with Matlab timers, none of the tests can discern `sum(A(:))` and `sum(sum(A))`.

I tried the largest size allowed on my computer a few more times.

``````Size 10000x10000
sum(A(:))
Elapsed time is 0.151256 seconds.
sum(A)
Elapsed time is 0.143937 seconds.

Size 10000x10000
sum(A(:))
Elapsed time is 0.149802 seconds.
sum(A)
Elapsed time is 0.145227 seconds.

Size 10000x10000
The cputime for sum(A(:)) in seconds is
0.2808
The cputime for sum(sum(A)) in seconds is
0.312

Size 10000x10000
The cputime for sum(A(:)) in seconds is
0.312
The cputime for sum(sum(A)) in seconds is
0.312

Size 10000x10000
The cputime for sum(A(:)) in seconds is
0.312
The cputime for sum(sum(A)) in seconds is
0.312
``````

They seem equivalent. Either one is good. But `sum(sum(A))` requires that you know the dimension of your array is 2.

• Can someone shrink the size of the code boxes for me please? (If it's doable.) – Argyll Apr 8 '14 at 6:23
• The first is a comparison against `sum(sum(A))`, but all the rest are against just `sum(A)`... – Evgeni Sergeev Aug 10 '14 at 2:24

You are trying to sum up all the elements of 2-D Array

In Matlab use

Array_Sum = sum(sum(Array_Name));

• Although this is not incorrect, better answers with the same information were posted months ago (Mohsen's in particular). – nkjt Apr 2 '14 at 11:26