As you might know, there are several steps from C# code to the native code those are:
- Compiling from C# to IL(bytecode)
- JITting from bytecode to native code
C# does not have any control of the time when memory is allocated, what you call binding, this is entirely up to JIT. Getting this out of the way let's see what is in C#'s control. The byte code produced by C# has to adhere CLR EMCA standard. If we go to section 220.127.116.11 of Partition 1 we will see, that the standard defines that the local variable's home is in the method header. Since method signatures as a rule tend to show up in the beginning of a method in a listing, you get a (false) impression that they are bound upfront, which in fact may or may not be the case.
If you are however looking at the compiled native code, the result may vary from platform to platform. Historically allocating space on CPU stack for a local variable is done by a single CPU instruction of changing stack pointer. If you want to do it variable by variable then you will have many instructions, one per variable, which is less efficient. This is why, at least on x86 you are going to see that the space on CPU stack is allocated upfront.