There isn't really a requirement that templates have to be in the header. They can very well be in a translation unit. The only requirement is that compiler is either able to instantiate them implicitly when they are used or that they get explicitly instantiated.
Whether separating the templatized code into headers and non-headers based on that is feasible depends pretty much on what is being done. It works rather well, e.g., for the IOStreams library because it is, in practice, only instantiated for the character types
wchar_t. Writing the explicit instantiations is fairly straight forward and even if there are couple of more character types, e.g.,
char32_t, it stays feasible. On the other hand, separating templates like
std::vector<T> in a similar way is rather infeasible.
Using general templates like
std::vector<T> in interfaces between subsystems quickly starts to become a major problem: while concrete instantiations or selected instantiations are OK, as the subsystem can be implemented without being a template, using arbitrary instantiations would force an entire system to be all templates. Doing so is infeasible in any real-world application which are often a couple of million lines of code on the small end.
What this amounts to is to use compilation-firewalls which are fully typed and don't use arbitrary templates between subsystems. To ease the use of the subsystem interfaces there may be thin template wrappers which, e.g., convert one container type into another container or which type-erase the template parameter where feasible. It needs to be recognized, however, that the compilation separation generally comes at a run-time performance cost: calling a
virtual function is a lot more expensive than calling an
inline function. Thus, the abstractions between subsystems may be very different from those within subsystems. For example, iterators are great internal abstractions. Between subsystems, a specific container, e.g., a
std::vector<X> for some type
X, tends to be more effective.
Note that the build-time interactions of templates are inherent in their dependency on specific instantiations. That is, even if there is a rather different system for declarations and template definitions, e.g., in the form of a module system rather than using header files, it won't become feasible to make everything a template. Using templates for local flexibility works great but they don't work without fixing the instantiations globally in large projects.
Finally a plug: here is a write-up on how to organize sources implementing templates.