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after optimization, I calculate the residuals with optimal parameters both in Python and C++. The gap in results is huge. Here is how I proceed more precisely:

I generate data according to a parametric model in Python. I store X and Y in Excel file. I load this file in my C++ program and run optimization. I come up with optimal parameters, that are pretty close to parameters used to generate the series. I then compute residuals (sum of squared difference between Y and model output with optimal parameters), in Python and with C++. Results are huge, with up to 10^3 difference for models that are very sensible to changes in parameters. Can these differences be imputable to different way to deal with precision in Python and C++, or can something else be wrong? Once optimization is finished, residuals computation is a simple calculation, and I wonder where the problem could lie if not in precision matter.

Thanks a lot for any advice or reference.

EDIT --- I can easily show Python code for generating data and calculating sum of squared residuals, but not C++ code since calculation is performed via an interpreter. Thanks for any comments.

P1 =  5.21
P2 = 0.22

X_= list(range(0,100,1))
X=[float(x)/float(10) for x in X_]
Y = [P1*numpy.exp(-1*P2*x) for x in X]


##for j in range(len(Y)):
##    Y[j]+=rg.normal(0,0.01)

#build some input files
X1f = open('F:\WORK\SOLVEUR\ALGOCODE\PYTHON_\DataSets\exponential1X.txt', 'w')
for i in range(len(X)):

Yf = open('F:\WORK\SOLVEUR\ALGOCODE\PYTHON_\DataSets\exponential1Y.txt', 'w')
for i in range(len(Y)):

def func_exp_1(param, x1, y):
   p1, p2 = param
   res = sum((y_i - p1*numpy.exp(-1*p2*x))**2 for x1_i, y_i in zip(x1, y))
   return res
print func_exp_1([5.2132,0.2202],x1,y)
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Not much we can do without seeing some code... –  Mysticial Mar 28 '12 at 8:12
yes, there may be very large differences with different methods of computations done with finiti-precision floats. Show your code –  Eli Bendersky Mar 28 '12 at 8:12
You store the values in an Excel file?? That would be where I'd most suspect the cause of your trouble. What happens if you store them in binary IEEE754? –  leftaroundabout Mar 28 '12 at 9:35
I am adding code in existing software working with data from Excel files, so that I have no other choice but store in Excel Files to test my algo anyway. –  antitrust Mar 28 '12 at 10:10
Check your C++ optimization options -- some optimizations may trade floating-point precision for speed. –  Hurkyl Jul 21 '12 at 3:09
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1 Answer

up vote 4 down vote accepted

Both Python and C++ use the machine native format; Python's float is the equivalent of C++'s double. Any differences would be due to differences in the way the algorithm is implemented, or, if the hardward has an extended format which is used for intermediate values (the case for Intel), when and where the language stores the values back to memory—values will probably be stored to memory more often in Python than in C++. Without seeing exact code, it's impossible to say more (but the sum of a large number of elements can be off significantly, depending on the order and relative magnitudes of the elements).

share|improve this answer
Thanks! Any reference or additional input? –  antitrust Mar 28 '12 at 14:27
The reference is docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html. But that just explains the problem; for things like summing large sequences, you'd have to find a reference on numerical processing. –  James Kanze Mar 28 '12 at 15:29
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