# Extended double precision

Is it possible to obtain more than 16 digits with `double` precision without using `quadruple`? If it is possible, does it depend on compiler or something else? Because I know someone said he was working with `double` precision and had 22 digit precision.

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The data type `double precision` stems from Fortran 77, and the only requirement for that type is that is has more precision than `real`. You shouldn't use that any more.

In Fortran 90/95 and beyond, at least two sizes of real numbers are supported. The precision is determined by the `kind` parameter, of which the value depends on the compiler.

``````real(kind=8) :: a, b
``````

To have a portable way of defining precision, you can obtain a `kind` value that allows a certain precision by using:

``````integer, parameter :: long_double = SELECTED_REAL_KIND(22)
``````

then you can declare your variables as

``````real(kind=long_double) :: a, b
``````

but it is not certain your compiler will support that precision, in which case the `SELECTED_REAL_KIND` function will return a negative number.

But you wrote `integer`. Could only `integer` has 22 digits not `double`? –  Shibli Feb 9 '12 at 12:53
`long_double` is an integer which is used to indicate the `kind` of the `real` variables `a` and `b` such that they have at least precision 22 –  steabert Feb 9 '12 at 13:05
@Shibli It is also often useful to get the kinds of single and double precision floats on your system in portable way. For this one can use `integer, parameter :: sp=kind(1.e0)` and `integer, parameter :: dp=kind(1.d0)`. You can then declare a double precision float as `real(kind=dp) :: double`. –  Chris Feb 9 '12 at 13:08
F2003 also suppots `use iso_fortran_env; real(kind=real64) :: foo`. intel v12 already supports this... –  Jonathan Dursi Feb 9 '12 at 13:15