I'm trying to find the minimum of an array which has exactly 4 elements. Each element is a signed int type, but only non-negative numbers are used, and -1 is used to represent an invalid value.

The instructions generated for the 2nd version is using SSE which uses SIMD shuffle and compare correctly. I expected this to run faster on Broadwell and Skylake, but when microbenchmarking it, SIMD version runs slower around 3.5ns on Skylake and 2.7ns on Broadwell.

Could you help me explaining why?

int example(int* values) {
  int min_value = 0x7FFFFFFF;
  for (int n = 0; n < 4; ++n) {
    if (values[n] != -1 &&
        values[n] < min_value) {
      min_value = values[n];
  return min_value;


int example(int* values) {
  uint min_0 = (uint)values[0] < (uint)values[1] ? (uint)values[0] : (uint)values[1];
  uint min_1 = (uint)values[2] < (uint)values[3] ? (uint)values[2] : (uint)values[3];

  return min_0 < min_1 ? min_0 : min_1;


My whole program https://gcc.godbolt.org/z/bUXBqd

  • How did you time an interval that short? Possibly you're bottlenecking on store-forwarding stalls, if you do scalar stores to create the input for the SIMD load? Once the value is loaded into a register, that sequence of pshufd/ pminud should have 4 cycle latency, and throughput of 2 cycles per iteration. (Not counting the mov eax, xmm0). Either way it should be faster than the cmp/cmov sequence, unless that loop (which does more work to ignore -1) optimizes differently when inlined... Can you provide a minimal reproducible example of how you tested? – Peter Cordes Jul 4 at 3:04
  • @PeterCordes I run within 5s and count how many iterations the function executed, using github.com/google/benchmark. Will port my code out to give a runnable test. – daole Jul 4 at 3:09
  • Can you link the full version on Godbolt, including the necessary libraries? Godbolt has Google Benchmark, but it's version of Abseil doesn't define int32. gcc.godbolt.org/z/HaNR77. IDK what the point of that is vs. int32_t from stdint.h / cstdint. – Peter Cordes Jul 4 at 3:21
  • Done. Should be int32_t as you suggested. – daole Jul 4 at 3:26
  • 2
    I forgot to say, if your real use-case is only sensitive to throughput (and OoO exec can hide the extra latency from slow-path store forwarding, aka store forwarding stall), it would still be better. Performance of something as short as 5 instructions can't be characterized by a single number. More like 3 factors: latency, front-end uops, and back-end ports. What considerations go into predicting latency for operations on modern superscalar processors and how can I calculate them by hand? – Peter Cordes Jul 4 at 5:34

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