I'm interested in finding the fastest way (lowest cycle count) of comparing the values stored into NEON registers (say Q0 and Q3) on a Cortex-A9 core (VFP instructions allowed).

So far I have the following:

(1) Using the VFP floating point comparison:

```
vcmp.f64 d0, d6
vmrs APSR_nzcv, fpscr
vcmpeq.f64 d1, d7
vmrseq APSR_nzcv, fpscr
```

If the 64bit "floats" are equivalent to NaN, this version will not work.

(2) Using the NEON narrowing and the VFP comparison (this time only once and in a NaN-safe manner):

```
vceq.i32 q15, q0, q3
vmovn.i32 d31, q15
vshl.s16 d31, d31, #8
vcmp.f64 d31, d29
vmrs APSR_nzcv, fpscr
```

The D29 register is previously preloaded with the right 16bit pattern:

```
vmov.i16 d29, #65280 ; 0xff00
```

My question is: is there any better than this? Am I overseeing some obvious way to do it?