This question isn't really about templates but about inlining, I think. For the purposes of run-time performance, the compiler probably does the right choice in most cases: if it can see that a function is too big to benefit from inlining it is likely to generate a non-inlined version of any inline function, independently of the function being a template or not. Each translation unit will create its own version of the function and the linker will choose one to use (and, hopefully, throw away the other unused copies but whether it really does this depends on the linker and the object file format).
The interaction with templates comes in when looking at the various interactions between the template code and the functions it calls which may be templates themselves: When forcing the code not to be inlined, the compiler has no chance to avoid the overhead of a function call. Often the abstractions used by templates are very simple functions, e.g., "increment an iterator" and "dereference an iterator" mapping to underlying pointer operations, creation a function call can become rather expensive due to the function call overhead and the lost opportunity for optimizations. However, the compiler can actually see through this and do the right choices in many cases.
That said, I'm a big fan of creating explicit instantiations for certain templates. For example, removing certain parts of the IOStreams library from the headers and explicitly instantiating it in the library has a huge effect on compile time, especially when optimization is turned on: Calling a simple output function for an integer causes lots of templates to be instantiated. Putting this code into its own file and compiling it with the appropriate optimization options probably won't make much of a difference with respect to performance but it does have a major effect on compile times. This may have an indirect impact on performance, though: you can afford more iterations testing the performance of the code using the library.