This is a very broad question, to be honest. But to start tackling it, a "cross compiler" has no essential difference from a normal compiler - apart from the fact that it targets another platform than the one it's running on. However, compilers don't usually base their output off the specifics of the platform they're currently running on, anyway, so the difference is actually nonexistent.
You haven't specified what language you're aiming to write a compiler for. Having chosen to write a compiler (and not an interpreter), I take it you've probably implicitly ruled out a few traditionally interpreted languages.
If your source language isn't C, then a good way to start would be to write a source-to-source compiler from the language of your choice to C. It's a really fun exercise and it allows you to stick with high level stuff (like lexing, parsing, function call resolving, etc) without messing with low level stuff like architecture quirks. If your output code is portable C, then you can plug any C compiler (such as GCC) you want and leverage the existing targets.
Alternatively, you can aim to target LLVM, a very powerful and extensible compiler infrastructure, by creating a "frontend" (a compiler from the language of your choice to LLVM IR, which is a form of portable bytecode). Then you can leverage the already existing "backends" (compilers from LLVM IR to any target architecture) to produce your binaries.
If you want to produce the assembly by yourself, that's also possible. The strategy is the same as the one outlined in the two above cases, except you won't emit C, or LLVM IR, but your architecture's assembly. If you're emitting working assembly, changing it to reflect another architecture (and turning it into a cross-compiler) is trivial again.