Meaningful absolute difference for error calculation, absolute forward error.

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Firan Lucian le 31 Juil 2019

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https://fr.mathworks.com/matlabcentral/answers/474304-meaningful-absolute-difference-for-error-calculation-absolute-forward-error

Commenté : Firan Lucian le 27 Sep 2019

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Looking at a function f(x) and reference function ref_f(x) considered to be true (golden sample, the reference)

As definition the absolute difference is abs(f(x) - ref_f(x)) or absolute forward error.

(The forward error is a measure of the difference between the approximation and the true value of a function.)

(The forward error of the algorithm is the difference between the result and the solution.)

To be meaningful the resulted value should be finite, and plottable.

If absolute difference is nan or inf the result should be real max

Also there are some issues with IEEE754 limitations NAN and Inf values that should considered:

If both functions are equal to NAN than, there is no difference between functions, so the error might be zero.
If both functions are equal to Inf than, there is no difference between functions, so the error might be zero, but if inf has different signs the error is max.
nextafter() and nexttoward() float numbers should generate the correct difference (eps)
rounding issues
guard digits
cancellation

Is there a MATALAB implementation (build in) for this function ?

like fae, abs_err, absDifErr ..

https://en.wikipedia.org/wiki/Approximation_error

https://en.wikipedia.org/wiki/Absolute_difference

https://en.wikipedia.org/wiki/Numerical_stability

Math 515 Fall, 2012 Brief Notes on Conditioning, Stability and Finite Precision Arithmetic

www.mathcs.emory.edu/.../Conditioning_and_FLOPS.pdf

https://docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html

https://www.boost.org/doc/libs/1_39_0/libs/math/doc/sf_and_dist/html/math_toolkit/toolkit/internals2/error_test.html

http://www.cplusplus.com/reference/cmath/nextafter/

Tried an implementation like (is this the fastest way?) :

function [absErr] = absDifErr_single(V1, V2)
    if and( isfinite(V1),  isfinite(V2))
        absErr = abs(V1 - V2);
        
        if ~isfinite(absErr)
            absErr = realmax('single');
        end
    else
    % special zone    
        if or( isfinite(V1),  isfinite(V2)) 
            % at least one is finte other nan/inf
            absErr = realmax('single');
        else
            if isinf(V1) % V1 inf
                if isinf(V2) % V1 inf V2 inf
                    if sign(V1)==sign(V2) % inf inf same sign
                        absErr = 0;
                    else  % inf inf diferent sign
                        absErr = realmax('single');
                    end
                else % inf nan
                    absErr = realmax('single');
                end
            else % nan ( nan or inf)   
                if isinf(V2) % nan inf
                    absErr = realmax('single');
                else % nan nan
                     absErr = 0;
                end                    
            end            
        end
    end
end

Tried a test on it:

close all
clear all
tic
% nan nan
disp(['abs(+nan - +nan) '  num2str(abs(+nan - +nan)) ', Absolute difference error ' num2str(absDifErr_single(+nan, +nan)) ])
disp(['abs(-nan - -nan) '  num2str(abs(-nan - -nan)) ', Absolute difference error ' num2str(absDifErr_single(-nan, -nan)) ])
disp(['abs(+nan - -nan) '  num2str(abs(+nan - -nan)) ', Absolute difference error ' num2str(absDifErr_single(+nan, -nan)) ])
disp(['abs(-nan - +nan) '  num2str(abs(-nan - +nan)) ', Absolute difference error ' num2str(absDifErr_single(-nan, +nan)) ])
% inf inf
disp(['abs(+inf - +inf) '  num2str(abs(+inf - +inf)) ', Absolute difference error ' num2str(absDifErr_single(+inf, +inf)) ])
disp(['abs(-inf - -inf) '  num2str(abs(-inf - -inf)) ', Absolute difference error ' num2str(absDifErr_single(-inf, -inf)) ])
disp(['abs(+inf - -inf) '  num2str(abs(+inf - -inf)) ', Absolute difference error ' num2str(absDifErr_single(+inf, -inf)) ])
disp(['abs(-inf - +inf) '  num2str(abs(-inf - +inf)) ', Absolute difference error ' num2str(absDifErr_single(-inf, +inf)) ])
% inf nan
disp(['abs(+inf - +nan) '  num2str(abs(+inf - +nan)) ', Absolute difference error ' num2str(absDifErr_single(+inf, +nan)) ])
disp(['abs(-inf - -nan) '  num2str(abs(-inf - -nan)) ', Absolute difference error ' num2str(absDifErr_single(-inf, -nan)) ])
disp(['abs(+inf - -nan) '  num2str(abs(+inf - -nan)) ', Absolute difference error ' num2str(absDifErr_single(+inf, -nan)) ])
disp(['abs(-inf - +nan) '  num2str(abs(-inf - +nan)) ', Absolute difference error ' num2str(absDifErr_single(-inf, +nan)) ])
% nan inf
disp(['abs(+nan - +inf) '  num2str(abs(+nan - +inf)) ', Absolute difference error ' num2str(absDifErr_single(+nan, +inf)) ])
disp(['abs(-nan - -inf) '  num2str(abs(-nan - -inf)) ', Absolute difference error ' num2str(absDifErr_single(-nan, -inf)) ])
disp(['abs(+nan - -inf) '  num2str(abs(+nan - -inf)) ', Absolute difference error ' num2str(absDifErr_single(+nan, -inf)) ])
disp(['abs(-nan - +inf) '  num2str(abs(-nan - +inf)) ', Absolute difference error ' num2str(absDifErr_single(-nan, +inf)) ])
% nan normals
disp(['abs(+nan - +5) '  num2str(abs(+nan - +5)) ', Absolute difference error ' num2str(absDifErr_single(+nan, +5)) ])
disp(['abs(-nan - -5) '  num2str(abs(-nan - -5)) ', Absolute difference error ' num2str(absDifErr_single(-nan, -5)) ])
disp(['abs(+nan - -5) '  num2str(abs(+nan - -5)) ', Absolute difference error ' num2str(absDifErr_single(+nan, -5)) ])
disp(['abs(-nan - +5) '  num2str(abs(-nan - +5)) ', Absolute difference error ' num2str(absDifErr_single(-nan, +5)) ])
% normals nan
disp(['abs(+5 - +nan) '  num2str(abs(+5 - +nan)) ', Absolute difference error ' num2str(absDifErr_single(+5, +nan)) ])
disp(['abs(-5 - -nan) '  num2str(abs(-5 - -nan)) ', Absolute difference error ' num2str(absDifErr_single(-5, -nan)) ])
disp(['abs(+5 - -nan) '  num2str(abs(+5 - -nan)) ', Absolute difference error ' num2str(absDifErr_single(+5, -nan)) ])
disp(['abs(-5 - +nan) '  num2str(abs(-5 - +nan)) ', Absolute difference error ' num2str(absDifErr_single(-5, +nan)) ])
% inf normals
disp(['abs(+inf - +5) '  num2str(abs(+inf - +5)) ', Absolute difference error ' num2str(absDifErr_single(+inf, +5)) ])
disp(['abs(-inf - -5) '  num2str(abs(-inf - -5)) ', Absolute difference error ' num2str(absDifErr_single(-inf, -5)) ])
disp(['abs(+inf - -5) '  num2str(abs(+inf - -5)) ', Absolute difference error ' num2str(absDifErr_single(+inf, -5)) ])
disp(['abs(-inf - +5) '  num2str(abs(-inf - +5)) ', Absolute difference error ' num2str(absDifErr_single(-inf, +5)) ])
% normals inf
disp(['abs(+5 - +inf) '  num2str(abs(+5 - +inf)) ', Absolute difference error ' num2str(absDifErr_single(+5, +inf)) ])
disp(['abs(-5 - -inf) '  num2str(abs(-5 - -inf)) ', Absolute difference error ' num2str(absDifErr_single(-5, -inf)) ])
disp(['abs(+5 - -inf) '  num2str(abs(+5 - -inf)) ', Absolute difference error ' num2str(absDifErr_single(+5, -inf)) ])
disp(['abs(-5 - +inf) '  num2str(abs(-5 - +inf)) ', Absolute difference error ' num2str(absDifErr_single(-5, +inf)) ])
% normals normals equal
disp(['abs(+5 - +5) '  num2str(abs(+5 - +5)) ', Absolute difference error ' num2str(absDifErr_single(+5, +5)) ])
disp(['abs(-5 - -5) '  num2str(abs(-5 - -5)) ', Absolute difference error ' num2str(absDifErr_single(-5, -5)) ])
disp(['abs(+5 - -5) '  num2str(abs(+5 - -5)) ', Absolute difference error ' num2str(absDifErr_single(+5, -5)) ])
disp(['abs(-5 - +5) '  num2str(abs(-5 - +5)) ', Absolute difference error ' num2str(absDifErr_single(-5, +5)) ])
% normals next normals
a = typecast(uint32(hex2dec('40a00000')),'single'); % 5
b = typecast(uint32(hex2dec('40a00001')),'single'); % next 5 -> 5.000000476837158203125
disp(['abs(+5 - +5next) '  num2str(abs(+a - +b)) ', Absolute difference error ' num2str(absDifErr_single(+a, +b)) ])
disp(['abs(-5 - -5next) '  num2str(abs(-a - -b)) ', Absolute difference error ' num2str(absDifErr_single(-a, -b)) ])
disp(['abs(+5 - -5next) '  num2str(abs(+a - -b)) ', Absolute difference error ' num2str(absDifErr_single(+a, -b)) ])
disp(['abs(-5 - +5next) '  num2str(abs(-a - +b)) ', Absolute difference error ' num2str(absDifErr_single(-a, +b)) ])
% normals after normals
a = typecast(uint32(hex2dec('40a00000')),'single'); % 5
b = typecast(uint32(hex2dec('409fffff')),'single'); % after 5 -> 4.999999523162841796875
disp(['abs(+5 - +5after) '  num2str(abs(+a - +b)) ', Absolute difference error ' num2str(absDifErr_single(+a, +b)) ])
disp(['abs(-5 - -5after) '  num2str(abs(-a - -b)) ', Absolute difference error ' num2str(absDifErr_single(-a, -b)) ])
disp(['abs(+5 - -5after) '  num2str(abs(+a - -b)) ', Absolute difference error ' num2str(absDifErr_single(+a, -b)) ])
disp(['abs(-5 - +5after) '  num2str(abs(-a - +b)) ', Absolute difference error ' num2str(absDifErr_single(-a, +b)) ])
% normals normals unequal
disp(['abs(+5 - +6) '  num2str(abs(+5 - +6)) ', Absolute difference error ' num2str(absDifErr_single(+5, +6)) ])
disp(['abs(-5 - -6) '  num2str(abs(-5 - -6)) ', Absolute difference error ' num2str(absDifErr_single(-5, -6)) ])
disp(['abs(+5 - -6) '  num2str(abs(+5 - -6)) ', Absolute difference error ' num2str(absDifErr_single(+5, -6)) ])
disp(['abs(-5 - +6) '  num2str(abs(-5 - +6)) ', Absolute difference error ' num2str(absDifErr_single(-5, +6)) ])
% realmax('single')
a = realmax('single');
disp(['abs(+rM - +rM) '  num2str(abs(+a - +a)) ', Absolute difference error ' num2str(absDifErr_single(+a, +a)) ])
disp(['abs(-rM - -rM) '  num2str(abs(-a - -a)) ', Absolute difference error ' num2str(absDifErr_single(-a, -a)) ])
disp(['abs(+rM - -rM) '  num2str(abs(+a - -a)) ', Absolute difference error ' num2str(absDifErr_single(+a, -a)) ])
disp(['abs(-rM - +rM) '  num2str(abs(-a - +a)) ', Absolute difference error ' num2str(absDifErr_single(-a, +a)) ])
% realmin('single')
a = realmin('single');
disp(['abs(+rm - +rm) '  num2str(abs(+a - +a)) ', Absolute difference error ' num2str(absDifErr_single(+a, +a)) ])
disp(['abs(-rm - -rm) '  num2str(abs(-a - -a)) ', Absolute difference error ' num2str(absDifErr_single(-a, -a)) ])
disp(['abs(+rm - -rm) '  num2str(abs(+a - -a)) ', Absolute difference error ' num2str(absDifErr_single(+a, -a)) ])
disp(['abs(-rm - +rm) '  num2str(abs(-a - +a)) ', Absolute difference error ' num2str(absDifErr_single(-a, +a)) ])
% realmax realmin
a = realmax('single');
b = realmin('single');
disp(['abs(+rM - +rm) '  num2str(abs(+a - +b)) ', Absolute difference error ' num2str(absDifErr_single(+a, +b)) ])
disp(['abs(-rM - -rm) '  num2str(abs(-a - -b)) ', Absolute difference error ' num2str(absDifErr_single(-a, -b)) ])
disp(['abs(+rM - -rm) '  num2str(abs(+a - -b)) ', Absolute difference error ' num2str(absDifErr_single(+a, -b)) ])
disp(['abs(-rM - +rm) '  num2str(abs(-a - +b)) ', Absolute difference error ' num2str(absDifErr_single(-a, +b)) ])
% realmin realmax
b = realmax('single');
a = realmin('single');
disp(['abs(+rm - +rM) '  num2str(abs(+a - +b)) ', Absolute difference error ' num2str(absDifErr_single(+a, +b)) ])
disp(['abs(-rm - -rM) '  num2str(abs(-a - -b)) ', Absolute difference error ' num2str(absDifErr_single(-a, -b)) ])
disp(['abs(+rm - -rM) '  num2str(abs(+a - -b)) ', Absolute difference error ' num2str(absDifErr_single(+a, -b)) ])
disp(['abs(-rm - +rM) '  num2str(abs(-a - +b)) ', Absolute difference error ' num2str(absDifErr_single(-a, +b)) ])
% zero
a = single(0);
disp(['abs(+0 - +0) '  num2str(abs(+a - +a)) ', Absolute difference error ' num2str(absDifErr_single(+a, +a)) ])
disp(['abs(-0 - -0) '  num2str(abs(-a - -a)) ', Absolute difference error ' num2str(absDifErr_single(-a, -a)) ])
disp(['abs(+0 - -0) '  num2str(abs(+a - -a)) ', Absolute difference error ' num2str(absDifErr_single(+a, -a)) ])
disp(['abs(-0 - +0) '  num2str(abs(-a - +a)) ', Absolute difference error ' num2str(absDifErr_single(-a, +a)) ])
% nan zero
a = single(0);
disp(['abs(+nan - +0) '  num2str(abs(+nan - +a)) ', Absolute difference error ' num2str(absDifErr_single(+nan, +a)) ])
disp(['abs(-nan - -0) '  num2str(abs(-nan - -a)) ', Absolute difference error ' num2str(absDifErr_single(-nan, -a)) ])
disp(['abs(+nan - -0) '  num2str(abs(+nan - -a)) ', Absolute difference error ' num2str(absDifErr_single(+nan, -a)) ])
disp(['abs(-nan - +0) '  num2str(abs(-nan - +a)) ', Absolute difference error ' num2str(absDifErr_single(-nan, +a)) ])
% inf zero
a = single(0);
disp(['abs(+inf - +0) '  num2str(abs(+inf - +a)) ', Absolute difference error ' num2str(absDifErr_single(+inf, +a)) ])
disp(['abs(-inf - -0) '  num2str(abs(-inf - -a)) ', Absolute difference error ' num2str(absDifErr_single(-inf, -a)) ])
disp(['abs(+inf - -0) '  num2str(abs(+inf - -a)) ', Absolute difference error ' num2str(absDifErr_single(+inf, -a)) ])
disp(['abs(-inf - +0) '  num2str(abs(-inf - +a)) ', Absolute difference error ' num2str(absDifErr_single(-inf, +a)) ])
toc

Outputs:

abs(+nan - +nan) NaN, Absolute difference error 0

abs(-nan - -nan) NaN, Absolute difference error 0

abs(+nan - -nan) NaN, Absolute difference error 0

abs(-nan - +nan) NaN, Absolute difference error 0

abs(+inf - +inf) NaN, Absolute difference error 0

abs(-inf - -inf) NaN, Absolute difference error 0

abs(+inf - -inf) Inf, Absolute difference error 3.402823466385289e+38

abs(-inf - +inf) Inf, Absolute difference error 3.402823466385289e+38

abs(+inf - +nan) NaN, Absolute difference error 3.402823466385289e+38

abs(-inf - -nan) NaN, Absolute difference error 3.402823466385289e+38

abs(+inf - -nan) NaN, Absolute difference error 3.402823466385289e+38

abs(-inf - +nan) NaN, Absolute difference error 3.402823466385289e+38

abs(+nan - +inf) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - -inf) NaN, Absolute difference error 3.402823466385289e+38

abs(+nan - -inf) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - +inf) NaN, Absolute difference error 3.402823466385289e+38

abs(+nan - +5) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - -5) NaN, Absolute difference error 3.402823466385289e+38

abs(+nan - -5) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - +5) NaN, Absolute difference error 3.402823466385289e+38

abs(+5 - +nan) NaN, Absolute difference error 3.402823466385289e+38

abs(-5 - -nan) NaN, Absolute difference error 3.402823466385289e+38

abs(+5 - -nan) NaN, Absolute difference error 3.402823466385289e+38

abs(-5 - +nan) NaN, Absolute difference error 3.402823466385289e+38

abs(+inf - +5) Inf, Absolute difference error 3.402823466385289e+38

abs(-inf - -5) Inf, Absolute difference error 3.402823466385289e+38

abs(+inf - -5) Inf, Absolute difference error 3.402823466385289e+38

abs(-inf - +5) Inf, Absolute difference error 3.402823466385289e+38

abs(+5 - +inf) Inf, Absolute difference error 3.402823466385289e+38

abs(-5 - -inf) Inf, Absolute difference error 3.402823466385289e+38

abs(+5 - -inf) Inf, Absolute difference error 3.402823466385289e+38

abs(-5 - +inf) Inf, Absolute difference error 3.402823466385289e+38

abs(+5 - +5) 0, Absolute difference error 0

abs(-5 - -5) 0, Absolute difference error 0

abs(+5 - -5) 10, Absolute difference error 10

abs(-5 - +5) 10, Absolute difference error 10

abs(+5 - +5next) 4.7684e-07, Absolute difference error 4.7684e-07

abs(-5 - -5next) 4.7684e-07, Absolute difference error 4.7684e-07

abs(+5 - -5next) 10, Absolute difference error 10

abs(-5 - +5next) 10, Absolute difference error 10

abs(+5 - +5after) 4.7684e-07, Absolute difference error 4.7684e-07

abs(-5 - -5after) 4.7684e-07, Absolute difference error 4.7684e-07

abs(+5 - -5after) 10, Absolute difference error 10

abs(-5 - +5after) 10, Absolute difference error 10

abs(+5 - +6) 1, Absolute difference error 1

abs(-5 - -6) 1, Absolute difference error 1

abs(+5 - -6) 11, Absolute difference error 11

abs(-5 - +6) 11, Absolute difference error 11

abs(+rM - +rM) 0, Absolute difference error 0

abs(-rM - -rM) 0, Absolute difference error 0

abs(+rM - -rM) Inf, Absolute difference error 3.402823466385289e+38

abs(-rM - +rM) Inf, Absolute difference error 3.402823466385289e+38

abs(+rm - +rm) 0, Absolute difference error 0

abs(-rm - -rm) 0, Absolute difference error 0

abs(+rm - -rm) 2.351e-38, Absolute difference error 2.351e-38

abs(-rm - +rm) 2.351e-38, Absolute difference error 2.351e-38

abs(+rM - +rm) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(-rM - -rm) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(+rM - -rm) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(-rM - +rm) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(+rm - +rM) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(-rm - -rM) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(+rm - -rM) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(-rm - +rM) 3.402823466385289e+38, Absolute difference error 3.402823466385289e+38

abs(+0 - +0) 0, Absolute difference error 0

abs(-0 - -0) 0, Absolute difference error 0

abs(+0 - -0) 0, Absolute difference error 0

abs(-0 - +0) 0, Absolute difference error 0

abs(+nan - +0) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - -0) NaN, Absolute difference error 3.402823466385289e+38

abs(+nan - -0) NaN, Absolute difference error 3.402823466385289e+38

abs(-nan - +0) NaN, Absolute difference error 3.402823466385289e+38

abs(+inf - +0) Inf, Absolute difference error 3.402823466385289e+38

abs(-inf - -0) Inf, Absolute difference error 3.402823466385289e+38

abs(+inf - -0) Inf, Absolute difference error 3.402823466385289e+38

abs(-inf - +0) Inf, Absolute difference error 3.402823466385289e+38

Elapsed time is 0.088918 seconds.

These values seems strange 0x40a00000 vs 0x40a00001

abs(+5 - +5next) 4.7684e-07, Absolute difference error 4.7684e-07

abs(-5 - -5next) 4.7684e-07, Absolute difference error 4.7684e-07

abs(+5 - -5next) 10, Absolute difference error 10

abs(-5 - +5next) 10, Absolute difference error 10

abs(+5 - +5after) 4.7684e-07, Absolute difference error 4.7684e-07

abs(-5 - -5after) 4.7684e-07, Absolute difference error 4.7684e-07

abs(+5 - -5after) 10, Absolute difference error 10

abs(-5 - +5after) 10, Absolute difference error 10

Symmetrical form: max( abs(f(x) - ref_f(x)) , abs(ref_f(x) - f(x)) ) is better, (is commutative) ?

I wonder that for special data math (like ARM cores) that do not support subnormals and/or

INF/NAN are treated like big numbers how this absDifErr can be parametrized ?

2 commentaires
Afficher AucuneMasquer Aucune

Firan Lucian le 12 Août 2019

Ouvrir dans MATLAB Online

Some special cases are also treated here:

https://bitbashing.io/comparing-floats.html

// We first check if the values are NaN.
// If this is the case, they're inherently unequal;
// return the maximum distance between the two.
if (isnan(a) || isnan(b)) return max;
// If one's infinite, and they're not equal,
// return the max distance between the two.
if (isinf(a) || isinf(b)) return max;

Firan Lucian le 27 Sep 2019

Ouvrir dans MATLAB Online

other variant

function [absErr] = abs_err_SP(f_x, ref_x)
% MATLAB R2018b
% calculates absolute error for SP real value
% output is bounded to 0 realmax
% if both values identical -> error is zero ( inf==inf, -inf==-inf, nan==nan)
% if one not finite and other finite -> error is max
    % real == real, inf == inf, -inf==-inf
    if f_x == ref_x
         absErr = 0;
         return;
    % nan == nan
    elseif and(isnan(f_x), isnan(ref_x))
         absErr = 0;
         return;
    % at least one is finite, other nan/inf
    elseif or( and(isfinite(f_x), ~isfinite(ref_x)), and(~isfinite(f_x), isfinite(ref_x)))
        absErr = realmax('single');
        return;
    % one is nan the other is inf
    elseif or( and(isnan(f_x), isinf(ref_x)), and(isinf(f_x), isnan(ref_x)))
        absErr = realmax('single');
        return;
    %both different inf: -INF == INF, INF == -INF
    elseif and(isinf(f_x), isinf(ref_x))
        absErr = realmax('single');
        return;
    else
        absErr = abs(f_x - ref_x); 
        if ~isfinite(absErr)
            absErr = realmax('single');
        end        
    end      
end