Precision issues when going from Fortran to Matlab

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Niles Martinsen
Niles Martinsen el 27 de Abr. de 2015
Comentada: Thorsten el 27 de Abr. de 2015
Hi
I have a piece of code written in Fortran that I have now finished writing in Matlab. They do exactly the same calculation, namely
  1. Construct a tanh -field and find its Laplacian
  2. Multiphy some terms together
The result of this multiplication yields a matrix, whose (4,4)th and (6,6)th element are identical according to Matlab. However, in Fortran their difference is ~1e-20. This is very critical for me, as I test if this number is less than zero or not.
Is there a way to perform the calculations such that I get the same precision as in Fortran?
A minimal version of my code is the following, where the last line, psi(1,4,4)-psi(1,6,6), is the one that incorrectly gives 0:
clear all
format long
weights = [4./9, 1./9,1./9,1./9,1./9, 1./36,1./36,1./36,1./36];
dir_x = [ 0, 1, 0, -1, 0, 1, -1, -1, 1];
dir_y = [ 0, 0, 1, 0, -1, 1, 1, -1, -1];
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%CONSTANTS
length_y = 11; length_x = length_y;
y_center = 5; x_center = y_center;
densityHigh = 1.0;
densityLow = 0.1;
radius = 3.0;
c_width = 1.0;
average_density = 0.5*(densityHigh+densityLow);
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
for x=1:length_x
for y=1:length_y
for i=1:9
fIn(i, x, y) = weights(i)*densityHigh;
test_radius = sqrt((x-x_center)*(x-x_center) + (y-y_center)*(y-y_center));
if(test_radius <= (radius+c_width))
fIn(i, x, y) = weights(i)*( average_density - 0.5*(densityHigh-densityLow)*tanh(2.0*(radius-sqrt((x-x_center)*(x-x_center) + (y-y_center)*(y-y_center))/c_width)) );
end
end
end
end
ref_density_2d = ones(length_x)*average_density;
for i=1:length_x
ref_density(:,:,i) = abs(ref_density_2d(:, i)');
end
rho = sum(fIn);
laplacian_rho = (+1.0*(circshift(rho(1,:,:), [0, -1, -1]) + circshift(rho(1,:,:), [0, +1, -1]) + circshift(rho(1,:,:), [0, -1, +1]) + circshift(rho(1,:,:), [0, +1, +1])) + ...
+4.0*(circshift(rho(1,:,:), [0, -1, +0]) + circshift(rho(1,:,:), [0, +1, +0]) + circshift(rho(1,:,:), [0, +0, -1]) + circshift(rho(1,:,:), [0, +0, +1])) + ...
-20.0*rho(1,:,:));
psi = 4.0*0.001828989483310*(rho-densityLow).*(rho-densityHigh).*(rho-ref_density) - laplacian_rho*(1.851851851851852e-04)/6.0;
psi(1,4,4)-psi(1,6,6)

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Respuestas (1)

Thorsten
Thorsten el 27 de Abr. de 2015
Editada: Thorsten el 27 de Abr. de 2015
eps = 2^(-52) = 2.2204e-16 is Matlab's precision for double. e-20 is below this precision. In fact, it is below the precision of double-precision binary floating-point according to IEEE 754. So you need higher precision, which is not supported by native Matlab. You have to use multiprecision extensions (aka toolboxes) for Matlab, like http://www.mathworks.com/matlabcentral/fileexchange/36534-hpf-a-big-decimal-class or http://www.mathworks.com/matlabcentral/fileexchange/6446-multiple-precision-toolbox-for-matlab
  2 comentarios
Niles Martinsen
Niles Martinsen el 27 de Abr. de 2015
Thanks. Which toolbox do you recommend for me and the above example?
Thorsten
Thorsten el 27 de Abr. de 2015
I would recommend the first, but you have to try yourself which fits your needs best. There are also commercial solutions around. Please do not forget to accept the answer.

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