# 6 dimensional integral by Trapezoid in Fortran using Fortran 90

I need to calculate six dimensional integrals using Trapezoid in Fortran 90 in an efficient way. Here is an example of what I need to do:

Where F is a numerical (e.g. not analytical) function which is to be integrated over x1 to x6, variables. I have initially coded a one dimension subroutine:

``````  SUBROUTINE trapzd(f,mass,x,nstep,deltam)
INTEGER nstep,i
DOUBLE PRECISION mass(nstep+1),f(nstep+1),x,deltam
x=0.d0
do i=1,nstep
x=x+deltam*(f(i)+f(i+1))/2.d0
end do
return
END
``````

Which seems to work fine with one dimension, however, I don't know how to scale this up to six dimensions. Can I re-use this six times, once for every dimension or shall I write a new subroutine?

If you have a fully coded (no library/API use) version of this in another language like Python, MATLAB or Java, I'd be very glad to have a look and get some ideas.

P.S. This is not school homework. I am a PhD student in Biomedicine and this is part of my research in modeling stem cell activities. I do not have a deep background of coding and mathematics.

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Hi. I never use Trapezoid for >2d integrals. Do you consider something else like Monte Carlo? I'm just curious –  Tiago Peczenyj May 23 '12 at 17:17
Where did all the p(xn) go? Also, how is F given? –  Rook May 23 '12 at 17:48
@ldigas: I think `F(x1,x2,x3,x4,x5,x6)` has to be given somewhere as a function. Its implementation is unrelated to this question. –  ja72 May 23 '12 at 17:54
@ja72 - Yes, well ... until I know more about this I'm presuming nothing. And since the OP is having difficulties solving this, I prefer to have the whole problem at hand, rather than assumptions about what is given. –  Rook May 23 '12 at 19:50
F(x1,x2,x3,x4,x5,x6) is not given analytically. we have numerical for that. anyway I want to calculate this integral. –  user1272138 May 24 '12 at 14:03

You could look at the Monte Carlo Integration chapter of the GNU Scientific Library (GSL). Which is both a library, and, since it is open source, source code that you can study.

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Look at section 4.6 of numerical recipes for C.

1. Step one is to reduce the problem using, symmetry and analytical dependencies.
2. Step two is to chain the solution like this:

``````f2(x2,x3,..,x6) = Integrate(f(x,x2,x3..,x6),x,1,x1end)
f3(x3,x4,..,x6) = Integrate(f2(x,x3,..,x6),x,1,x2end)
f4(x4,..,x6) = ...

f6(x6) = Integrate(I4(x,x6),x,1,x5end)
result = Integrate(f6(x),x,1,x6end)
``````
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I'm writing in Fortran 90. and how can I use the recipes for C for my case? –  user1272138 May 24 '12 at 14:06
1st you can understand the algorithm with `C` (I hope) and second you can look at section 4.6 in apps.nrbook.com/fortran/index.html for the `Fortran90` version. –  ja72 May 24 '12 at 15:54