# Random Number Generation to Memory from a Distribution using VBA

I want to generate random numbers from a selected distribution in VBA (Excel 2007). I'm currently using the Analysis Toolpak with the following code:

``````     Application.Run "ATPVBAEN.XLAM!Random", "", A, B, C, D, E, F
``````

Where

``````A = how many variables that are to be randomly generated
B = number of random numbers generated per variable
C = number corresponding to a distribution
1= Uniform
2= Normal
3= Bernoulli
4= Binomial
5= Poisson
6= Patterned
7= Discrete
D = random number seed
E = parameter of distribution (mu, lambda, etc.) depends on choice for C
(F) = additional parameter of distribution (sigma, etc.) depends on choice for C
``````

But I want to have the random numbers be generated into an array, and NOT onto a sheet. I understand that where the `""` is designates where the random numbers should be printed to, but I don't know the syntax for assigning the random numbers to an array, or some other form of memory storage instead of to a sheet.

I've tried following the syntax discussed at this Analysis Toolpak site, but have had no success.

I realize that VBA is not the ideal place to generate random numbers, but I need to do this in VBA. Any help is much appreciated! Thanks!

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Using the inbuilt functions is the key. There is a corresponding version for each of these functions but Poisson. In my presented solution I am using an algorithm presented by Knuth to generate a random number from the Poisson Distribution.

For Discrete or Patterned you obviously have to write your custom algorithm.

Regarding the seed you can place a Randomize [seed] before filling your array.

``````Function RandomNumber(distribution As Integer, Optional param1 = 0, Optional param2 = 0)

Select Case distribution
Case 1 'Uniform
RandomNumber = Rnd()
Case 2 'Normal
RandomNumber = Application.WorksheetFunction.NormInv(Rnd(), param1, param2)
Case 3 'Bernoulli
RandomNumber = IIf(Rnd() > param1, 1, 0)
Case 4 'Binomial
RandomNumber = Application.WorksheetFunction.Binom_Inv(param1, param2, Rnd())
Case 5 'Poisson
RandomNumber = RandomPoisson(param1)
Case 6 'Patterned
RandomNumber = 0
Case 7 'Discrete
RandomNumber = 0
End Select

End Function

Function RandomPoisson(ByVal lambda As Integer)   'Algorithm by Knuth

l = Exp(-lambda)
k = 0
p = 1

Do
k = k + 1
p = p * Rnd()
Loop While p > l

RandomPoisson = k - 1

End Function
``````
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Why not use the inbuilt functions?

1. Uniform = `rnd`
2. Normal = `WorksheetFunction.NormInv`
3. Bernoulli = `iif(rnd()<p,0,1)`
4. Binomial = `WorksheetFunction.Binomdist`
5. Poisson = `WorksheetFunction.poisson`
6. Patterned = `for ... next`
7. Discrete =

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``````select case rnd()
case <0.1
'choice 1
case 0.1 to 0.4
'choice 2
case >0.4
'choice 3
end select
``````
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