Introsort (by extension quicksort) dominates most "real world" sorting methods, Ruby, Python, and many implementations of STL sort() are all instances of the perennial algorithm. A rational case is made that these are used as they have been shown to be the most performant, stable, multipurpose sorting algorithms in use. It seems to me that all objects that we could conceive of sorting (realistically) on a computer are countably enumerable. Numbers, characters, strings, even functions (at least results upon application) are amenable to a non-comparison sorting method (As an aside, if you have doubts about string sorting, examine American Flag Sort for a review of lexicographical ordering of strings with Radix sort).
For situations like sorting unlabeled weights, we must use a comparison sort given the absence of a label. However, I have difficulty coming up with a pragmatic case where this property holds (that property being the absence of a cognizable, orderable label) that requires sorting on a machine, ranging from natural orderings to lexicographical ordering.
A candidate counterexample is Radix sort. Radix sort is not comparison based. In general it will behave faster than O(n*log(n)), beating the theoretical comparison sort limit of n * log(n) by a wide margin in many cases with a complexity of O(K*n) -- K being the number of bits that are required to represent a particular item.
Concerns like cache invalidation and memory overhead seem to be an excursion from pragmatism given the properties of contemporary hardware. Memory overhead in relation to quicksort (particular today) is not critical, since you can choose the number of buckets to use and the required memory will certainly be less than say, heap or mergesort's requirements.
However, I don't think the position that Radix sort is "faster" (for any practical metric) than Quicksort is widely accepted amongst Engineers or Computer scientists, but it's not an implausible position. In our contemporary worldview we generally accept Introsort as being the end of the road on sorting efficiency, and for the most part I am perfectly willing to accept that.
On the other hand, it's worth thinking whether you're aiming in the right directly.
Succinctly stated -- Why bother with comparison sorts at all?