Android supports ARMv5TE and ARMv7-A. Read NDK docs about supported CPU ARCHs & ABIs available at
ARMv5TE is default and doesn't give you any hardware floating point support, you can see Android NDK page more about this. You should add ARMv7-A support to your application to get best support from hardware.
ARMv6 is somewhere in between and if you want to target these devices you must do some
Nowadays if you are coding a modern app you'll be probably targeting newer devices with ARMv7-A processor type having VFPv3 and NEON. If you just want to support ARMv6, you should use ARMv5TE to cover those. If you want to take advantage of a little bit extra provided by ARMv6 then you'll loose ARMv5TE support completely.
I compiled your simple line of code with NDK r8c, and it can produce me a binary like below. Best ARM VFP allows for your statement is
multiply and accumulate instruction which is
fmac and compiler can emit these easly.
0: ee607aa2 fmuls s15, s1, s5
4: ed9f7a05 flds s14, [pc, #20]
8: ee407a07 fmacs s15, s0, s14
c: ee417a03 fmacs s15, s2, s6
10: ee417ae3 fnmacs s15, s3, s7
14: eeb00a67 fcpys s0, s15
18: ee020a44 fnmacs s0, s4, s8
1c: e12fff1e bx lr
It might be better to divide your statement into a few chunks to get dual issuing possible but you can do this in C.
You can't create miracles by just using assembly however compiler can also create a huge crap. GCC and ARM is not as good as GCC and Intel. Especially in vectorization, NEON usage. It is always good to check what compiler produces if you need to have high performing routines.