Cross-posted from Math SE.
The linked question explores the concept of a "generalized limit" that assigns values to sequences which diverge in the Cauchy sense. It asks the following question:
Does there exist an "explicitly definable" generalized limit $\operatorname{Lim} : X^\mathbb{N} \rightharpoonup X$ that is stronger than the linear and stable closure of the Cauchy limit?
I'd be curious to know what such a $\operatorname{Lim}$ might be.
As Gerald pointed out, the concept of an almost convergent sequence is relevant.