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The machine epsilon is canonically defined as the smallest number which added to one, gives a result different from one.

There is a Double.Epsilon but the name is very misleading: it is the smallest (denormalized) Double value representable, and thus useless for any kind of numeric programming.

I'd like to get the true epsilon for the Double type, so that not to have to hardcode tolerances into my program. How do I do this ?

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Relevant: – AakashM Feb 22 '12 at 10:28
@AakashM: I read that. The meaning of epsilon is rather clear in view of IEEE754, and it is a shame that Microsoft did something this amateurish. Is their floating point implementation to be trusted ? – Alexandre C. Feb 22 '12 at 10:36
@AlexandreC.: Double.MinValue is most likely defined as it is to correspond to the other MinValue fields in the .NET Framework like Int32.MinValue, DateTime.MinValue etc. This obviously is not the same as DBL_MIN in C. However, I agree that the definition of Double.Epsilon is confusing. – Martin Liversage Feb 22 '12 at 10:54
up vote 7 down vote accepted

It's(on my machine):


You can easily calculate it:

        double machEps = 1.0d;

        do {
           machEps /= 2.0d;
        while ((double)(1.0 + machEps) != 1.0);

        Console.WriteLine( "Calculated machine epsilon: " + machEps );


I calcualted 2 times epsilon, now it should be correct.

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Very good idea. Thanks. – Alexandre C. Feb 22 '12 at 10:34
@Meonester Do you mean to divide machEps by 4 each time (once in the body and once in the condition? If I leave out the condition division ( i.e. while ((double)(1.0 + (machEps)) != 1.0); ) I get a value for machEps of 1.11022302462516E-16. – AlanT Feb 22 '12 at 10:43
@AlanT Right, which matches what the Math.NET code suggests it is. – Christian.K Feb 22 '12 at 11:01
Yes, you are right: Epsilon = 1.11022302462516E-16. There should be: while ((double)(1.0 + (machEps)) != 1.0); – Meonester Feb 22 '12 at 11:11
Wasn't it right the first time? When the loop terminates (1.0 + machEps) == 1.0 which isn't what we want. We want the last value such that (1.0 + machEps) != 1.0. – Rup Feb 22 '12 at 17:11

The Math.NET library defines a Precision class, which has a DoubleMachineEpsilon property.

You could check how they do it.

According to that it is:

    /// <summary>
    /// The base number for binary values
    /// </summary>
    private const int BinaryBaseNumber = 2;

    /// <summary>
    /// The number of binary digits used to represent the binary number for a double precision floating
    /// point value. i.e. there are this many digits used to represent the
    /// actual number, where in a number as: 0.134556 * 10^5 the digits are 0.134556 and the exponent is 5.
    /// </summary>
    private const int DoublePrecision = 53;

    private static readonly double doubleMachinePrecision = Math.Pow(BinaryBaseNumber, -DoublePrecision);

So it is 1,11022302462516E-16 according to this source.

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It is quite complex bit fiddling, needing to know much more about the internal representation of System.Double that I am ready to tackle (it is not just IEEE754 stuff, but also endianness issues, etc). – Alexandre C. Feb 22 '12 at 10:33
@Alexandre: I'm pretty sure that the internal binary representation is mandated by IEEE-754 itself. There's a good description of the internals of double here. There's also a link to Jon's DoubleConverter.cs class in there too; looking at that might offer some clues. – LukeH Feb 22 '12 at 11:08
@LukeH: Now that I notice that Microsoft cannot get even the most basic terminology right, I cannot assume that their floating point implementation is correct for all purposes. – Alexandre C. Feb 22 '12 at 12:26
The majority of the floating point implementation is in hardware, though, so I doubt there's much to worry about. In any case nowhere on the documentation page for Double.Epsilon does it say "machine epsilon" which is the correct term for what you want, so I'm not sure it's that confusing. – Rup Feb 22 '12 at 17:15
@Alexandre, @Rup: ...and IEEE-754 doesn't define "machine epsilon" at all, so the fact that double.Epsilon and machine epsilon aren't the same thing seems completely orthogonal to whether or not Microsoft's FP implementation is correct. – LukeH Feb 22 '12 at 18:34

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