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Good evening everyone, I will try to be as succint as possible, pardon my wording as I am not well-versed in combinatorial optimization.

I have defined a problem where I want to minimize the total cost $C$ of a system $S$ composed of discrete unique elements, to give a simple example, let's say $A$ and $B$. $S$ must contain $A$ and $B$. Each of these elements has a cost that is a function of other variables of the system. Now, these elements may have alternatives I want to choose from, such that with alternative elements $B_1$, $B_2$ and $B_3$ for $B$, if I were to brute-force the cost calculations, I would need to evaluate $C_{S_1} = C_{A} + C_{B_1}$, $C_{S_2} = C_{A} + C_{B_2}$ and $C_{S_3} = C_{A} + C_{B_3}$.

How can I go about solving this problem ? This looks like a variation of the knapsack problem where I would want to minimize the knapsack's weight given a fixed set of included items, some of them without alternatives. Thank you in advance for your help.

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    $\begingroup$ Do you have a small numerical example? $\endgroup$
    – RobPratt
    Commented Oct 6 at 20:28

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