As others have already noted, templates don't have a direct run-time penalty -- i.e. all their tricks happen at compile time. Indirectly, however, they can slow things down under a few circumstances. In particular, each instantiation of a template (normally) produces code that's separate and unique from other instantiations. Under a few circumstances, this can lead to slow execution, by simply producing enough object code that it no longer fits in the cache well.
Edit: To clarify the situation with respect to code size: yes, most compilers can and will fold together the code for identical instantiations -- but that's normally the case when the intantiations are truly identical. The compiler will not insert code to do even the most trivial conversions to get a use to fit with an existing instantiation. For example, a normal function call can/will convert
T * to
T const * so calls that use either
const or non-
const arguments will use the same code (unless you've chosen to overload the function on
constness, in which case you've probably done so specifically to provide different behavior for the two cases). With a template, that won't happen -- instantiations over
T * and
T const * will result in two entirely separate pieces of code being generated. It's possible the compiler (or linker) may be able to merge the two after the fact, but not entirely certain (e.g., I've certainly used compilers that didn't).
Templates have positive effects on speed far more often than negative.