Simplest answer: instead of the loop you posted, use memmove(v+1, v, N-1). This is likely to run as fast as hand-coded assembly on any decent system, because it is hand-coded assembly, using the proper mix of movdqu/movdqa/movntdqa and loop unrolling.
More complicated answer: I think, looking at the bigger picture, that it is very unlikely you actually need to shift the data. Much more likely, you may need to access a neighboring element and the current element, for example do some kind of calculation on both v[i] and v[i-1].
If you are using SIMD code to do that, the standard technique is to (for example) load bytes 0..15 into xmm0, 16..31 into xmm1, and then shuffle both registers to end up with elements 1..16 in xmm2. Then you can do the calculation with xmm0 (here corresponding to vectorized v[i-1]) and xmm2 (vectorized v[i]). This is not "shift" in the sense of logical/arithmetic shift, but rather a SIMD lane shift.
Example: working with bytes in assembly
movdqa mem, xmm0 // load bytes 0..15
// increment mem by 16
movdqa mem, xmm1 // load bytes 16..31
movdqa xmm0, xmm2 // make a copy
movdqa xmm1, xmm3 // make a copy
psrldq xmm2, 1 // ends up with bytes 1..15 and a zero
pslldq xmm3, 15 // ends up with zeros and byte 16
por xmm2, xmm3 // ends up with bytes 1..16
// do something with xmm3 and xmm0 here, they contain bytes 1..16 and 0..15 respectively
// in other words xmm3 is a lane-shifted
movdqa xmm1, xmm0 // use our copy of bytes 16..31 to continue the loop
// goto loop
Why not do this: "what if I just decrement the pointer ... v = (v-1);"
This will crash:
char* v = (char*)malloc(...);
v = 0; // or any read or write of v
If v points to somewhere in the middle of (not the beginning of) a block of allocated memory, then decrement will work fine, but you have to have a way of being sure that is always the case (for example, the memory is allocated in the same function that will use this trick).