Differences calculating the sum of squares in single between sum() and a loop

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Jonathan Currie
Jonathan Currie on 20 Aug 2013
Update: Please Visit the Following Simplified Version of This Question http://www.mathworks.com/matlabcentral/answers/85211-different-results-between-2013a-32bit-and-64bit-in-single-precision
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Hi, I'm calculating the sum of squares in C and MATLAB in single precision and noted some differences. I wondered if anyone can fill me in on the behaviour below. Suspect floating point associative problem, but still seems a little odd...
Numbers in my array a are 'reasonably' well scaled, from a column in a single precision matrix generated by MATLAB. Differences being seen here are common and leading to substantial differences between same algorithm in C and MATLAB.
Answer displayed from code below:
ans =
4.0864482
4.0864477
4.0864482
4.0864482
Code to reproduce:
clc
format long
a = single([-0.112033270,0.153425455,-0.751111090,-0.129932076,0.206365064,-0.871111095,0.000000000,...
0.000000000,0.000000000,0.000662919,-0.000005372,0.004444445,0.002651675,-0.000085950,...
0.017777778,0.005966269,-0.000435120,0.039999999,0.010606701,-0.001375194,0.071111113,...
0.016572969,-0.003357407,0.111111112,0.023865076,-0.006961920,0.159999996,0.032483019,...
-0.012897816,0.217777774,0.042426802,-0.022003105,0.284444451,0.053696420,-0.035244718,...
0.360000014,0.066291876,-0.053718518,0.444444448,0.080213174,-0.078649282,0.537777781,...
0.095460303,-0.111390717,0.639999986,0.112033270,-0.153425455,0.751111090,0.129932076,...
-0.206365064,0.871111095]);
%Method one (matlab code)
r1 = sum(a.^2);
%Method two (as done in C)
r2=single(0);
for i = 1:length(a)
r2 = r2 + a(i)^2;
end
%Method 3 (variation, correct answer (why?))
r3=single(0);
for i = 1:length(a)
x = a(i)^2;
r3 = r3 + x;
end
%Method 4 (why does double(0) change things - single takes precedence?)
r4 = double(0);
for i = 1:length(a)
r4 = r4 + a(i)^2;
end
display([r1;r2;r3;r4])
  4 Comments
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Roger Stafford
Roger Stafford on 20 Aug 2013
Edited: Roger Stafford on 20 Aug 2013
Those results could be different if in the first case the computer does the squaring and adding all in double precision before rounding back to single precision, while in the second case such a rounding might occur both after the squaring operation and after the addition.
These single precision results differ only in their` least bit. It takes only one rounding difference among the fifty-one steps to produce that.

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Answers (1)

the cyclist
the cyclist on 20 Aug 2013
What version of MATLAB are you using? I get
ans =
4.0864482
4.0864482
4.0864482
4.0864482
from your code, using R2013a on a OS X 10.8.4.
  1 Comment
Jonathan Currie
Jonathan Currie on 20 Aug 2013
Edited: Jonathan Currie on 20 Aug 2013
Hi - yep just checked on another PC, I get the correct answer on Matlab 2013a 64bit, but the incorrect answer on 2013a 32bit (Win64)... Can anyone else repeat this result?

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