Abstract
Given a list of n real numbers, one wants to decide whether every number in the list occurs at least k times. It will be shown that $\Omega(n\log n)$ is a sharp lower bound for the depth of an algebraic decision or computation tree solving this problem for a fixed k. For linear decision trees, the coefficient can be taken to be arbitrarily close to 1 (using the ternary logarithm). This is done by using the Björner--Lovász--Yao method, which turns the problem into one of estimating the Möbius function for a certain partition lattice. The method will work also for the more general T-multiplicity problem when T is additive and cofinite. A formula for the exponential generating function for the Möbius function of a partition poset with restricted block sizes in general will also be given.
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