For each integer $n\geq 1$ we consider the arithmetic function $$S(n)=\sum_{k=1}^n n\text{ mod }k,\tag{1}$$
the sum of remainders function, the arithmetic function *A004125* from the [OEIS](https://oeis.org).

**Example.** We've that for $n=6$ $$S(6)=0+0+0+6\text{ mod }4+6\text{ mod }5+0=2+1=3.$$

This arithmetic function was studied for example in [1]. I wondered about a type of problems that are in the literature, that is in our case what about the irrationality of the real number $$\sum_{n=1}^\infty\frac{S(n)}{n!}.\tag{2}$$

I don't know if this previous example is in the literature or has good mathematical content.

>**Question.** Is it possible to deduce that $$\sum_{n=1}^\infty\frac{S(n)}{n!}$$
is irrational? Or well, is it possible to discard it as an irrational? **Many thanks.**

I am asking about if it possible to do or provide some work, reasonings or heuristics, about it. Then I should to accept an answer. If it is in the literature refer the article and I try to search and read the statement and proof.


References:
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[1] Michael Z. Spivey, *The Humble Sum of Remainders Function*, Mathematics Magazine, Vol. **78**, No. 4 (Oct., 2005).