The relatively runtime speed is a bit hard to predict. At one time, when most people thought of C++ as being all about inheritance, and used virtual functions a lot (even when they weren't particularly appropriate), code written in C++ was typically a little bit slower than equivalent C.
With (what most of us would consider) modern C++, the reverse tends to be true: templates give enough more compile-time flexibility that you can frequently produce code that's noticeably faster than any reasonable equivalent in C. In theory you could always avoid that by writing specialized code equivalent to the result of "expanding" a template -- but in reality, doing so is exceedingly rare, and quite expensive.
There is something of a tendency for C++ to be written somewhat more generally as well -- just for example, reading data into
std::vector<std::string>) so the user can enter an arbitrary amount of data without buffer overflow or the data simply be truncated at some point. In C it's a lot more common to see somebody just code up a fixed-size buffer, and if you enter more than that, it either overflows or truncates. Obviously enough, you pay something for that -- the C++ code typically ends up using dynamic allocation (
new), which is typically slower than just defining an array. OTOH, if you write C to accomplish the same thing, you end up writing a lot of extra code, and it typically runs about the same speed as the C++ version.
In other words, it's pretty easy to write C that's noticeably faster for things like benchmarks and single-use utilities, but the speed advantage evaporates in real code that has to be robust. In the latter case, about the best you can usually hope for is that the C code is equivalent to a C++ version, and in all honesty doing even that well is fairly unusual (at least IME).
Comparing compilation speed is no easier. On one hand, it's absolutely true that templates can be slow -- at least with most compilers, instantiating templates is quite expensive. On a line-for-line basis, there's no question that C will almost always be faster than anything in C++ that uses templates much. The problem with that is that a line-for-line comparison rarely makes much sense -- 10 lines of C++ may easily be equivalent to hundreds or even thousands of lines of C. As long as you look only at compile time (not development time), the balance probably favors C anyway, but certainly not by nearly as dramatic a margin as might initially seem to be the case. This also depends heavily on the compiler: just for example, clang does a lot better than gcc in this respect (and gcc has improved a lot in the last few years too).