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c - How to stop GCC from breaking my NEON intrinsics?

I need to write optimized NEON code for a project and I'm perfectly happy to write assembly language, but for portability/maintainability I'm using NEON instrinsics. This code needs to be as fast as possible, so I'm using my experience in ARM optimization to properly interleave instructions and avoid pipe stalls. No matter what I do, GCC works against me and creates slower code full of stalls.

Does anyone know how to have GCC get out of the way and just translate my intrinsics into code?

Here's an example: I have a simple loop which negates and copies floating point values. It works with 4 sets of 4 at a time to allow some time for the memory to load and instructions to execute. There are plenty of registers left over, so it's got no reason to mangle things so badly.

float32x4_t f32_0, f32_1, f32_2, f32_3;
int x;
for (x=0; x<n-15; x+=16)
{
   f32_0 = vld1q_f32(&s[x]);
   f32_1 = vld1q_f32(&s[x+4]);
   f32_2 = vld1q_f32(&s[x+8]);
   f32_3 = vld1q_f32(&s[x+12]);
   __builtin_prefetch(&s[x+64]);
   f32_0 = vnegq_f32(f32_0);
   f32_1 = vnegq_f32(f32_1);
   f32_2 = vnegq_f32(f32_2);
   f32_3 = vnegq_f32(f32_3);
   vst1q_f32(&d[x], f32_0);
   vst1q_f32(&d[x+4], f32_1);
   vst1q_f32(&d[x+8], f32_2);
   vst1q_f32(&d[x+12], f32_3);
} 

This is the code it generates:

vld1.32 {d18-d19}, [r5]
vneg.f32  q9,q9        <-- GCC intentionally causes stalls
add r7,r7,#16
vld1.32 {d22-d23}, [r8]
add r5,r1,r4
vneg.f32 q11,q11   <-- all of my interleaving is undone (why?!!?)
add r8,r3,#256
vld1.32 {d20-d21}, [r10]
add r4,r1,r3
vneg.f32 q10,q10
add lr,r1,lr
vld1.32 {d16-d17}, [r9]
add ip,r1,ip
vneg.f32 q8,q8

More info:

  • GCC 4.9.2 for Raspbian
  • compiler flags: -c -fPIE -march=armv7-a -Wall -O3 -mfloat-abi=hard -mfpu=neon

When I write the loop in ASM code patterned exactly as my intrinsics (without even making use of extra src/dest registers to gain some free ARM cycles), it's still faster than GCC's code.

Update: I appreciate James' answer, but in the scheme of things, it doesn't really help with the problem. The simplest of my functions perform a little better with the cortex-a7 option, but the majority saw no change. The sad truth is that GCC's optimization of intrinsics is not great. When I worked with the Microsoft ARM compiler a few years ago, it consistently created well crafted output for NEON intrinsics while GCC consistently stumbled. With GCC 4.9.x, nothing has changed. I certainly appreciate the FOSS nature of GCC and the greater GNU effort, but there is no denying that it doesn't do as good a job as Intel, Microsoft or even ARM's compilers.

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Broadly, the class of optimisation you are seeing here is known as "instruction scheduling". GCC uses instruction scheduling to try to build a better schedule for the instructions in each basic block of your program. Here, a "schedule" refers to any correct ordering of the instructions in a block, and a "better" schedule might be one which avoids stalls and other pipeline hazards, or one which reduces the live range of variables (resulting in better register allocation), or some other ordering goal on the instructions.

To avoid stalls due to hazards, GCC uses a model of the pipeline of the processor you are targeting (see here for details of the specification language used for these, and here for an example pipeline model). This model gives some indication to the GCC scheduling algorithms of the functional units of a processor, and the execution characteristics of instructions on those functional units. GCC can then schedule instructions to minimise structural hazards due to multiple instructions requiring the same processor resources.

Without a -mcpu or -mtune option (to the compiler), or a --with-cpu, or --with-tune option (to the configuration of the compiler), GCC for ARM or AArch64 will try to use a representative model for the architecture revision you are targeting. In this case, -march=armv7-a, causes the compiler to try to schedule instructions as if -mtune=cortex-a8 were passed on the command line.

So what you are seeing in your output is GCC's attempt at transforming your input in to a schedule it expects to execute well when running on a Cortex-A8, and to run reasonably well on processors which implement the ARMv7-A architecture.

To improve on this you can try:

  • Explicitly setting the processor you are targeting (-mcpu=cortex-a7)
  • Disabling instruction scheduling entirely (`-fno-schedule-insns -fno-schedule-insns2)

Note that disabling instruction scheduling entirely may well cause you problems elsewhere, as GCC will no longer be trying to reduce pipeline hazards across your code.

Edit With regards to your edit, performance bugs in GCC can be reported in the GCC Bugzilla (see https://gcc.gnu.org/bugs/ ) just as correctness bugs can be. Naturally with all optimisations there is some degree of heuristic involved and a compiler may not be able to beat a seasoned assembly programmer, but if the compiler is doing something especially egregious it can be worth highlighting.


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