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I have an optimization problem with the following mathematical model. It is similar to finding the maximum area of a rectangle given its perimeter but in this example we don't have 2 variables.

I have X number of positive integers whose sum is Y. How can I find the set of integers that will give me the maximum of their multiplications given Y?


Given that Y = 8 the answer should be X[1] = 2; x[2] = 3; x[3] = 3 since that will give me the maximum of multiplications.

Any python code/logic for this kind of problem?

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I don't have a formal proof of this, but I would be willing to bet that the maximum area would be given by the equilateral triangle ... –  mgilson Jun 14 '13 at 15:13
Am I missing something? Shouldnt that be X[1] = 2; x[2] = 2; x[3] = 2? –  thefourtheye Jun 14 '13 at 15:14
Looks like Wikipedia agrees with me. –  mgilson Jun 14 '13 at 15:15
@mgilson I think that might be a step in the right direction, but I think he's looking for an n-dimensional solution where n is either user-defined or one of the variables to be discovered. –  Silas Ray Jun 14 '13 at 15:23
@sr2222 -- Yeah, I know that's not the solution (which is why I posted it as a comment). –  mgilson Jun 14 '13 at 15:25

3 Answers 3

Let n be the number of items, and s the sum. Populate the list of size n with s // n and add 1 to the last s % n elements. This gives you the list with the max product.

max_list = [s//n] * (n - s%n) + [s//n + 1] * (s%n)
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It is true that the “maximum of multiplications will be when all the values are nearest to equal values”, as stated in a previous answer and implemented via
max_list = [s//n] * (n - s%n) + [s//n + 1] * (s%n)
in another answer. This can be justified by techniques similar to those used in proving the arithmetic-mean to geometric-mean inequality, as in (for example) Proof by Pólya.

When the sum Y is given but not the number of terms X, and it's desired to compute X, observe that pow(W,Y/W) is maximal when W = e ≃ 2.71828. The integer nearest to e is 3, so to maximize the product, include mostly 3's, and one or two 2's. In general, include two 2's when Y%3 is 1, and one 2 when Y%3 is 2, and none when Y%3 is 0, and make up the difference with 3's. Examples (in the form, [Y:a b...] for sum Y and terms a,b,...) include [3: 3], [4: 2 2], [5: 3 2], [6:3 3], [7: 3 2 2], [8: 3 3 2], [9:3 3 3], [10: 3 3 2 2] and so forth.

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The maximum of multiplications will be when all the values are nearest to equal values.

X = [Y // 3 for i in range(3)]
difference = Y - X[0] * 3
if difference == 2:
    x[0] += 1
    X[1] += 1
elif difference == 1:
    X[0] += 1
print (X)

Y = 8
X = [3, 3, 2]
Y = 9
X = [3,3,3]
Y = 10
X = [4,3,3]
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Isn't that assuming that there should be 3 variables? What if for some certain cases, the optimum solution has 4 variables? –  Paul Miles Jun 14 '13 at 16:02
@PaulMiles: Do you have any example in mind in which 4 variables gives optimum solution? –  Ankur Ankan Jun 14 '13 at 16:31
For Y=10, there are more than 1 optimal solutions i.e. {2,2,3,3} ; {4,3,3} etc. With this model we are missing out the first. –  Paul Miles Jun 15 '13 at 2:01
@PaulMiles: As other answers suggest one optimal solution will always be having 3 numbers. And if we want to find the other optimal solutions I think we will have to go for some dynamic programming solution.. –  Ankur Ankan Jun 15 '13 at 4:52

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