The C language was used to write UNIX to achieve portability -- the same C language program compiled using different compilers produces different machine instructions. How come Windows OS is able to run on both Intel and AMD processors?
AMD and Intel processors(*) have a large set of instructions in common, so it is possible for a compiler or assembler to write binary code which runs "the same" on both.
However, different processor families even from one manufacturer have their own sets of instructions, usually referred to as "extensions" or whatever. Ignoring the x87 co-processor, the first time I remember this being a marketing point was when everything suddenly went "with MMX(TM) technology". Binary code expected to run on any processor either needs to avoid extensions, or to detect the CPU type before using them.
Intel's Itanium 64-bit architecture was completely different from AMD's x86-64 architecture, so for a while their 64bit offerings were non-compatible (and Itanium was nothing like x86, whereas x86-64 extended the instruction set by adding 64bit instructions). Intel blinked first and adopted x86-64, although there are still a few differences: http://en.wikipedia.org/wiki/X86-64#Differences_between_AMD64_and_Intel_64
Windows probably uses the common x86 or x86-64 instruction set for almost all code. I wouldn't be surprised if various drivers and codecs are shipped in multiple versions, and the correct one selected once the CPU has been interrogated.
(*) Actually, Intel make or have made various kinds of processors, including ARM (Intel's ARM processors were called XScale, but I think they've sold that business). And AMD make other processors too. But we know which Intel/AMD processors you mean :-)
As you suspect, the main stream Intel and AMD processors have the same instruction set.
Windows does not run on ARM or PowerPC chips, for example, because it is somewhat dependant on the underlying instruction set.
However, most of Windows is written in C++ (as far as I know), which should be portable to other architectures. Windows NT even ran on PowerPC and other architectures.
AMD are Intel compatible, otherwise they would never have gained a foothold in the market place.
They are effectively clone compatible.
AMD and Intel use the same instruction set.
When you install windows on an AMD processor or an Intel processor, it doesn't "compile" code on the machine.
I remember many people being confused on this subject back during college. They believe that a "setup" means that it is compiling code on your machine. It isn't. Most if not all Windows application outside of the free realms, are given to you by binary.
As for portability, that isn't neccessarily 100% true. While C is highly portable, in many cases writing for a specific OS or system will result in the code only being able to compile/executed on that box. For example, certain Unix machines handle files and directories differently so it might not be 100% portable.