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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?

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1 Answer 1

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I believe you can reduce it by one instruction. By using the shift left and insert (VLSI), you can combine the 4 32-bit values of Q15 into 4 16-bit values in D31. You can then compare with 0 and get the floating point flags.

vceq.i32  q15, q0, q3
vlsi.32   d31, d30, #16
vcmp.f64  d31, #0
vmrs      APSR_nzcv, fpscr
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  • The first intruction "overwrites" the whole Q15 (i.e. D30 and D31), while the second only has D31 as a destination, therefore some information is lost and the comparison will not always yield the right result.
    – Mircea
    Jan 31, 2012 at 21:29
  • When you use vceq.i32, it places all 1's or all 0's into each of the 4 32-bit lanes. The first instruction combines the useful info from D30 and D31 into D31 (the lower 16-bits of all 4 compares). The second instruction compares the lower 64-bits which HAS all of the useful info.
    – BitBank
    Jan 31, 2012 at 21:38
  • The first instruction (i.e. vceq.i32) does not "combine" anything. Furthermore, the second one does not use D31 as an input...
    – Mircea
    Feb 1, 2012 at 2:06
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    See this page (second diagram) blogs.arm.com/software-enablement/…
    – BitBank
    Feb 1, 2012 at 14:08
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    OK, you're right, sorry for arguing. BUT the code still has the same NaN problem as my first implementation: if Q0 and Q3 are equal, D31 will end up with all the bits set (and therefore being NaN) => VCMP will not work.
    – Mircea
    Feb 1, 2012 at 14:55

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