Revision 04c21bf6e5a9d75724a269fff725b82f973813c3 authored by Volodymyr Kysenko on 21 November 2023, 21:56:45 UTC, committed by GitHub on 21 November 2023, 21:56:45 UTC
1 parent f5a4e49
fan_in.cpp
#include "Halide.h"
#include "halide_benchmark.h"
using namespace Halide;
using namespace Halide::Tools;
int main(int argc, char **argv) {
Target target = get_jit_target_from_environment();
if (target.arch == Target::WebAssembly) {
printf("[SKIP] Performance tests are meaningless and/or misleading under WebAssembly interpreter.\n");
return 0;
}
Var x;
const int num_stages = 64;
double times[2];
for (int use_async = 0; use_async < 2; use_async++) {
Func stages[num_stages];
// Construct a DAG-structured pipeline where each leaf is an
// expensive combination of several children, and some of the
// children are shared between multiple parents.
for (int i = num_stages - 1; i >= 0; i--) {
int child_1 = i * 2 + 1;
int child_2 = i * 2 + 2;
int child_3 = i * 2 + 3;
// Initialize the stage.
if (child_3 >= num_stages) {
stages[i](x) = cast<float>(x + i);
} else {
stages[i](x) = stages[child_1](x) + stages[child_2](x) + stages[child_3](x);
}
// Now do something expensive and inherently serial
RDom r(1, 1024 - 1, 0, 64);
stages[i](r.x) = sin(stages[i](r.x - 1));
stages[i].compute_root();
if (use_async) {
stages[i].async();
}
}
stages[0].compile_jit();
Buffer<float> out(1024);
double t = benchmark(3, 3, [&]() {
stages[0].realize(out);
});
times[use_async] = t;
printf("%s async %f\n", use_async ? "With" : "Without", t);
}
if (times[0] < times[1]) {
printf("Using async() was slower!\n");
return 1;
}
printf("Success!\n");
return 0;
}
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