# Mixing NEON assembly with non-vector functions

I think I found the answer to my question. There is an "fmacs" instruction for VFP which may do the trick which does scalar computation on NEON/VFP registers.

I'm very new to NEON or ARM programming...

I want to load up an upper triangular matrix into NEON registers and integrate (accumulate) the outer product of a vector using single precision. The basic ideas is A += x'*x where A is an upper triangular matrix. Some of the operations can be done by vectorizing the operations by using the NEON instruction "vmla.f32" on quad or double registers. However, sometimes I only need to operate on a single precision register 1 at a time, i.e. not on 2 or 4 single precision registers. In the example below (does not work), I'm interested in the line

``````// A[8-14] += A[1]*x[1-7]
"mla  s16, s16, d0[1]\n\t"
``````

I want to use the NEON registers to perform one single precision operation.

Code snippet:

``````    __asm__ volatile (
"vldmia    %0, {d0-d3}\n\t"
"vldmia    %1, {d4-d12}\n\t"
"vldmia    %1, {d13-d21}\n\t"
// A[0-7] += x[0]*x[0-7]
"vmla.f32  q2, q2, d0[0]\n\t"
"vmla.f32  q3, q3, d0[0]\n\t"
// A[8-14] += A[1]*x[1-7]
"mla  s16, s16, d0[1]\n\t"
// output
:
// input
: "r"(A), "r"(x)
// registers
: "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "q8", "q9", "q10"
);
``````
-
You're not really going to want to switch from NEON to VFP instructions like that. Both the Cortex-A8 and the Cortex-A9 used in the most recent generations of iPhone (what you've posted about before) suffer a long hiccup between such operations. You may also be better off doing a vector op for the last part of your computation. –  ohmantics May 17 '11 at 14:24