The actual implementation of
List<T> is based on arrays, so the difference in memory usage between the two will be negligible.
As far as
IEnumerable<T> is concerned: no, it won't save you any memory.
default elements are perfectly acceptable within an
IEnumerable<T> and the framework doesn't do anything to filter duplicates. It can't, since the memory footprint associated with an
IEnumerable<T> structure are entirely dependent on the class that implements it, and if you just plop an array into an enumerable variable or field, then you aren't changing anything substantial. Enumerables are also immutable, so the proposed switch would probably be a breaking change from your array implementation.
If you don't care about ordering, you can use
HashSet<T>. This actually does filter duplicates, so if many or most of your elements are
default(T), then you will only require memory for one of them. Obviously this will eliminate all duplicates, not just default ones, so this choice would only be useful if there is no other duplication.
If you require mutable semantics - as I suspect you do if you're using arrays - then you could (and should) switch to a mutable interface such as
IList<T>, and write your own implementation - probably based on
List<T> - which ignores
default(T) when you try to add it. That way you could preserve the order of non-
default elements without ever allocating any memory to hold the
If you actually need to preserve all of the original elements then no simple data structure is going to help you. Might I suggest a database? I know that memory is abundant nowadays, but when you're storing hundreds of thousands of items you should at least be considering a data structure or system that's designed for that scale.