how to avoid for loop to increase speed

조회 수: 1 (최근 30일)
Bertil Veenstra
Bertil Veenstra 2023년 1월 4일
댓글: Bertil Veenstra 2023년 1월 6일
I would like to calculate the mean value of vector A for every sample as defined in vector B. So, the first point of the resulting vector C is the mean of the first 9 (=B(1)) datapoints of A. The second point of C is the mean of the following 10 (=B(2) datapoints of A. Etc. The following code works, but takes time when processing large vectors:
A=rand(91,1); % vector with 91 random samples
B=[9,10,10,8,11,10,10,9,10,6]; % vector with the number of samples
C= zeros(length(B),1); % preallocate C
first=1;
for i = 1: length(C)
last = first+B(i)-1;
interval=(first:last);
C(i) = mean(A(interval));
first =last+1;
end
Is there a way to use B in an index of A, instead of using this for loop?
  댓글 수: 2
Matt J
Matt J 2023년 1월 4일
Ran in:
Shouldn't sum(B) equal length(A)?
A=rand(91,1); % vector with 91 random samples
B=[9,10,10,8,11,10,10,9,10,6]; % vector with the number of samples
sum(B)
ans = 93
length(A)
ans = 91
Bertil Veenstra
Bertil Veenstra 2023년 1월 4일
Yes, you are right. They should be the same length

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Matt J
Matt J 2023년 1월 4일
편집: Matt J 2023년 1월 5일
A=rand(91,1); % vector with 91 random samples
B=[9,10,10,8,11,10,10,9,10,6]; % vector with the number of samples
G=repelem(1:numel(B), B);
n=min(numel(A),numel(G));
G=G(:); A=A(:);
C=accumarray(G(1:n),A(1:n))./accumarray(G(1:n),1); %NOTE: faster than accumarray(G,A,[],@mean)
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Matt J
Matt J 2023년 1월 5일
편집: Matt J 2023년 1월 5일
Ran in:
Better to avoid two ACCUMARRAY() calls and specify the function instead:
That would be quite a bit slower, unfortunately. I very deliberately avoided it for that reason:
A=rand(900000,1); % vector with 91 random samples
B=ones(1,90000)*10; % vector with the number of samples
assert(sum(B)==numel(A))
G=repelem(1:numel(B), B);
n=min(numel(A),numel(G));
G=G(:); A=A(:);
tic;
C=accumarray(G(1:n),A(1:n))./accumarray(G(1:n),1);
toc
Elapsed time is 0.022540 seconds.
tic;
C=accumarray(G(1:n),A(1:n),[],@mean); % simpler and faster
toc
Elapsed time is 0.333534 seconds.
Stephen23
Stephen23 2023년 1월 5일
"That would be quite a bit slower, unfortunately. I very deliberately avoided it for that reason:"
Aah, that is a shame. Perhaps a code comment would help to make that choice clear.

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추가 답변 (2개)

Mathieu NOE
Mathieu NOE 2023년 1월 4일
hello
had to change A to 93 samples so that it matches with sum(B) = 93
see my suggestion below. On this small data we can see an iùprovement of factor 4
Elapsed time is 0.004598 seconds (your code)
Elapsed time is 0.001204 seconds. (my code)
delta = 1.0e-14 *
0
-0.0222
-0.0111
-0.0333
-0.0555
0.1110
0.0777
-0.0222
-0.0444
-0.0222
wonder if that is going to be even better for larger vectors ?
A=rand(93,1); % vector with 93 random samples
B=[9,10,10,8,11,10,10,9,10,6]; % vector with the number of samples
C= zeros(length(B),1); % preallocate C
first=1;
tic
for i = 1: length(C)
last = first+B(i)-1;
interval=(first:last);
C(i) = mean(A(interval));
first =last+1;
end
toc
% alternative code
tic
As = cumsum(A(:));
Bs = cumsum(B(:));
As = As(Bs);
Cs = [As(1); diff(As)]./B(:);
toc
delta = C - Cs
plot(C,'-*b')
hold on
plot(Cs,'dr')
hold off
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Matt J
Matt J 2023년 1월 6일
편집: Matt J 2023년 1월 6일
Ran in:
@Stephen23 already showed you earlier that you can use accumarray to apply any function to the blocks.
A = randi(5,1,9300); % vector with random integers ranging from 1 to 5
B=ones(1,930)*10; % vector the number of samples
tic
C= zeros(length(B),1); % preallocate C
first=1;
for i = 1: length(C)
last = first+B(i)-1;
interval=(first:last);
C(i) = mode(A(interval));
first =last+1;
end
toc
Elapsed time is 0.032246 seconds.
tic
G=repelem((1:numel(B)),B);
C=accumarray(G(:),A(:),[],@mode);
toc
Elapsed time is 0.019723 seconds.
It is to be expected that speed-up is more modest, unfortunately. Accumarray isn't as well optimized for arbitrary functions.
Bertil Veenstra
Bertil Veenstra 2023년 1월 6일
Thanks you Matt for this code. It doesns't seem to run faster than the for loop, but it did learn me more about writing and understanding matlab code.

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Matt J
Matt J 2023년 1월 6일
편집: Matt J 2023년 1월 6일
Ran in:
And instead of the mean, I am interested in the mode.
This method should offer speed-up for a generic function, provided that it can ignore NaNs and provided the blocks don't vary too greatly in length:
B = randi([5,10],1,9300);
A = randi(5,1,sum(B));
discrepancy = max( abs(loopMethod(A,B)-altMethod(A,B)),[],'all')
discrepancy = 0
timeit(@() loopMethod(A,B))
ans = 0.1231
timeit(@() altMethod(A,B))
ans = 0.0027
function C=loopMethod(A,B)
C= zeros(1,length(B)); % preallocate C
first=1;
for i = 1: length(C)
last = first+B(i)-1;
interval=(first:last);
C(i) = mode(A(interval));
first =last+1;
end
end
function C=altMethod(A,B)
bmax=max(B);
I=(1:bmax)'<=B;
T=nan(size(I));
T(I)=A(:);
C=mode(T,1);
end
  댓글 수: 1
Bertil Veenstra
Bertil Veenstra 2023년 1월 6일
Hi Matt, this works nice. On larger files I get an 3-4 fold increase in speed. Smart solution. Thanks for your time.

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