Well, you need something which is able to run several threads.
If you are working on developing an operating system kernel on the bare metal, I think that current multi-core processors have only one core working after their power-on reset. Even the BIOS on most PCs probably keep only one core working (and the other cores idle). So you'll need to write (assembly, non-portable) code to start other cores.
And (as James reminded you), most of the time you are using some operating system kernel. For instance, on Linux (I don't know about Windows), threads are known by the kernel (because the tasks it is scheduling are threads) and they need to be initiated by the Linux
clone(2) system call.
Often, kernel threads are quite heavy, and the system has a library (NPTL for Linux Posix threads) which may use fewer kernel threads than user threads (actually Linux NPTL is a 1:1 mapping between kernel and user threads, but on some other systems, like probably Solaris, things are different).