Your best bet is too look for comparisons and associated actions/flag usage like a branch. Depending on the type the compiler will generate different code. As most (relevant) architectures provide flags to deal with signed values. Taking x86 for example:
jg, jge, jl, jle = branch based on a signed comparison (They check for the SF flag)
ja, jae, jb, jbe = branch based on a unsigned comparison (They check for the CF flag)
Most instructions on a CPU will be the same for signed/unsigned operations, because we're using a Two's-Complement representation these days. But there are exceptions.
Lets take right shifting as an example. With unsigned values on X86 you would use SHR, to shift something to the right. This will add zeros on on every "newly created bit" on the left.
But for signed values usually SAR will be used, because it will extend the MSB into all new bits. Thats called "sign extension" and again only works because we're using Two's-Complement.
Last but not least there are different instructions for signed/unsigned multiplication/division.
imul+idiv = signed
mul+div = unsigned
As noted in the comments, imul is a special case, because it can also be used for unsigned multiplication. The only difference will be in the flags being set. So don't trust the code too much if you see an imul with the value, it will depend on the circumstances.
Also the NEG instruction will usually only be used on signed values, because it's a two's complement negation.