- pro: CLR environment readily available; a lot of stuff to bind to
- con: bound to CLR (;-); targetting some systems will be hard or impossible (embedded, mainframes, etc. CLR impl. might be less mature on non MS systems)
- pro: independent from MS.
- con: targetting some systems might involve porting LLVM (?); interfacing to DOT-net, Java etc. might be troublesome (possibly needs FFI)
C as target language:
- pro: almost all targets possible; easy code generation
- con: you will have to implement some VM stuff as runtime library (GC, dynload, dyn compilation etc.); some things are hard to do in C (continuations, backtracking, stack tracing, exceptions); some things are hard to do efficiently and portable in C (GC, dynamic types, stack layout dependence).
Java ByteCode as target:
- pro: probably the biggest set of possible target platforms (even mobil phones and embedded stuff); a lot of existing tools around; easy interfacing to existing libraries
- con: some things are hard to implement or hard to implement efficiently (dynamic types, continuations, backtracking)
From all the above, I think targeting Java ByteCode would probably be best for you.
EDIT: actually an answer to a comment, but 300chars are not enough.
JByteCode iffy - I agree (being a Smalltalker, JBytecode is too limiting for me).
VM-wise, I think there is a relatively wide range of performance you can get as JVM, starting at pure slow bytecode interpreters up to high end sophisticated JITting VMs (IBM). I guess, CLR VM's will catch up, as MS is stealing and integrating all innovation anyway sooner or later, and the techniques to speedup dynamic translation are published (read the Self papers, for example). LLVM will probably progress a bit slower, but who knows. With C, you will benefit from better compilers for free, but things like dynamic retranslation etc. are hard to implement with C as target. My own system uses a mixture of precompiled and dynamically compiled code (having all: a slow bytecode interpreter, JITter and precompiled static C-code in one memory space).