Speeding up to find minimum value using min() function

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Michael Walter
Michael Walter on 17 Mar 2022
Commented: Michael Walter on 18 Mar 2022
Hi,
I have to calculate the current distribution of two nonlinear resistors. To do that I’m searching for the closest index and value of an array.
For example.
[a,b]=min(abs(c-s))
c is an n x 1 array. c increases monotonically
c represents the characteristics of the resistors.
s is a 1 x m array and sinusoidal shaped
s represents the impressed current.
With index b I calculate the voltage drop and the current of each resistor.
Any suggestions to speed up the code?
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Michael Walter
Michael Walter on 17 Mar 2022
Edited: Michael Walter on 17 Mar 2022
c is round about 5000x1 and s is about 1x800.
The size is not the problem, but I have to repeat this function over and over again, because the current distribution will change the temperature and therefore the current characteristics. For a given time the temperature is assumed constant. After that period the temperature is calculated based on power losses and with that new temperature the new characteristics c is calculated. Then the function [a,b]=min(abs(c_new-s_new)) is called again.
The min function requires 85% of execution time
I have no c-compiler installed but I can install a compiler.
Jan
Jan on 17 Mar 2022
The size matters, because the creation of the intermediate matrix c-s is time consuming. Then the RAM access is the bottleneck.

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Accepted Answer

Bruno Luong
Bruno Luong on 18 Mar 2022
Edited: Bruno Luong on 18 Mar 2022
Alternative way
% Fake data
c=cumsum(rand(1,10000));
s=c(end)*rand(1,10000);
cpad = [-Inf c Inf];
b = discretize(s,cpad);
b = b -1 + (cpad(b)+cpad(b+1)<2*s);
a = c(b);
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Michael Walter
Michael Walter on 18 Mar 2022
Edited: Michael Walter on 18 Mar 2022
Thank you.
I'm a newbie at Matlab forum. Is it possible to accept Jan's solution too?

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More Answers (2)

Matt J
Matt J on 17 Mar 2022
c=c(:)';
b=interp1(c,1:numel(c),s,'nearest');
a=abs(c(b)-s)
Jan
Jan on 17 Mar 2022
Edited: Jan on 17 Mar 2022
Ran in:
c = c(:); % Make it a column vector to be sure
nc = numel(c);
bin = [c(1); (c(1:nc-1) + c(2:nc)) * 0.5; c(nc)];
[~, idx] = histc(s, bin);
value = abs(c(idx) - s(:));
bin contains the start point, midpoints and final point of the intervals of c.
histc uses a binary search to find the index of the value in c for each element of s. This avoids to create the large matrix c - s. Unfortunately MathWorks decided to replace the working histc by histcounts, which has some performance problems.
See also: interp1('nearest')
c = linspace(0, 1, 1e4);
s = rand(1, 1e5);
tic;
[a, b] = min(abs(c(:) - s(:).'));
toc
Elapsed time is 3.400639 seconds.
tic;
c = c(:);
nc = numel(c);
bin = [c(1); (c(1:nc-1) + c(2:nc)) * 0.5; c(nc)];
[~, b2] = histc(s, bin);
% Alternative, seems to be faster:
% [~, ~, b2] = histcounts(s, bin);
a2 = abs(c(b2) - s(:));
toc
Elapsed time is 0.013202 seconds.
isequal(b, b2)
ans = logical
1
max(abs(a(:) - a2(:)))
ans = 0
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Michael Walter
Michael Walter on 18 Mar 2022
Edited: Michael Walter on 18 Mar 2022
Here are some input data. c1/s1 works with b2(b2==0)=1; c2/s2 has some measurment noise so that c2 isn't monotonically. c3/s3 is a special one, everything is zero. c3/s3 is for the case that i have only one resistor. I thought it's easier to calculate this state intead of using if statement.
Edit: I solved c2/s2 by manipulating the input data

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