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memcpy-bench-multi.c
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#include <assert.h>
#include <immintrin.h>
#include <pthread.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/mman.h>
#include <sys/syscall.h>
#include <sys/time.h>
#include <time.h>
#include <unistd.h>
#include <x86intrin.h>
// gcc -DI_NO_HIDDEN_LABELS -O3 -march=native memcpy-bench-multi.c -o
// memcpy-bench-multi
#define ALWAYS_INLINE inline __attribute__((always_inline))
#define NEVER_INLINE __attribute__((noinline))
#define CONST_ATTR __attribute__((const))
#define PURE_ATTR __attribute__((pure))
#define BENCH_FUNC __attribute__((noinline, noclone, aligned(4096)))
#define COMPILER_OOE_BARRIER() asm volatile("lfence" : : : "memory")
#define OOE_BARRIER() asm volatile("lfence" : : :)
#define COMPILER_BARRIER() asm volatile("" : : : "memory");
#define COMPILER_DO_NOT_OPTIMIZE_OUT(X) \
asm volatile("" : : "i,r,m,v"(X) : "memory")
#define _CAT(X, Y) X##Y
#define CAT(X, Y) _CAT(X, Y)
#define _V_TO_STR(X) #X
#define V_TO_STR(X) _V_TO_STR(X)
#define NO_LSD_RD(tmp, r) "pop " #tmp "\nmovq " #r ", %%rsp\n"
#define NO_LSD_WR(tmp, r) "push " #tmp "\nmovq " #r ", %%rsp\n"
#define IMPOSSIBLE(X) \
if (X) { \
__builtin_unreachable(); \
}
#define PRINT(...) fprintf(stderr, __VA_ARGS__)
static struct timespec
get_ts() {
struct timespec ts;
clock_gettime(CLOCK_MONOTONIC, &ts);
return ts;
}
static uint64_t
to_ns(struct timespec ts) {
return ts.tv_sec * 1000 * 1000 * 1000 + ts.tv_nsec;
}
static uint64_t
get_ns() {
struct timespec ts = get_ts();
return to_ns(ts);
}
static uint64_t
get_ns_dif(struct timespec ts_start, struct timespec ts_end) {
return to_ns(ts_end) - to_ns(ts_start);
}
static double
gb_sec(uint64_t bytes, uint64_t ns) {
double d_bytes = bytes;
double d_ns = ns;
double d_gb = d_bytes / ((double)1024 * 1024 * 1024);
double d_sec = d_ns / (double)(1000 * 1000 * 1000);
return d_gb / d_sec;
}
static uint32_t g_iter;
static uint32_t g_reuse;
static size_t g_size;
static pthread_barrier_t g_barrier;
typedef struct targs {
uint8_t * dst;
uint8_t * src;
pthread_t tid;
uint64_t ns_out;
uint8_t * sink;
} targs_t;
void * __memcpy_ssse3_back(void *, void const *, size_t);
void * __memcpy_erms(void *, void const *, size_t);
void * __memcpy_sse2_unaligned_erms(void *, void const *, size_t);
void * __memcpy_sse2_unaligned(void *, void const *, size_t);
void * __memcpy_evex_unaligned_erms(void *, void const *, size_t);
void * __memcpy_evex_unaligned(void *, void const *, size_t);
#define ssse3 __memcpy_ssse3_back
#define erms __memcpy_erms
#define sse2_erms __memcpy_sse2_unaligned_erms
#define sse2 __memcpy_sse2_unaligned
#define evex_erms __memcpy_evex_unaligned_erms
#define evex __memcpy_evex_unaligned
static void
memcpy_t(uint8_t * dst, uint8_t const * src, size_t len) {
__m256i v0, v1, v2, v3;
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"1:\n"
"vmovdqu (" VEC_SIZE " * 0)(%[src]), %[v0]\n"
"vmovdqu (" VEC_SIZE " * 1)(%[src]), %[v1]\n"
"vmovdqu (" VEC_SIZE " * 2)(%[src]), %[v2]\n"
"vmovdqu (" VEC_SIZE " * 3)(%[src]), %[v3]\n"
"vmovdqa %[v0], (" VEC_SIZE " * 0)(%[dst])\n"
"vmovdqa %[v1], (" VEC_SIZE " * 1)(%[dst])\n"
"vmovdqa %[v2], (" VEC_SIZE " * 2)(%[dst])\n"
"vmovdqa %[v3], (" VEC_SIZE " * 3)(%[dst])\n"
"subq $(" VEC_SIZE " * -4), %[dst]\n"
"subq $(" VEC_SIZE " * -4), %[src]\n"
"addq $(" VEC_SIZE " * -4), %[len]\n"
"jg 1b"
: [src] "+r"(src), [dst] "+r"(dst), [len] "+r"(len), [v0] "=&v"(v0),
[v1] "=&v"(v1), [v2] "=&v"(v2), [v3] "=&v"(v3)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
};
static void
memcpy_nt(uint8_t * dst, uint8_t const * src, size_t len) {
__m256i v0, v1, v2, v3;
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"1:\n"
"vmovdqu (" VEC_SIZE " * 0)(%[src]), %[v0]\n"
"vmovdqu (" VEC_SIZE " * 1)(%[src]), %[v1]\n"
"vmovdqu (" VEC_SIZE " * 2)(%[src]), %[v2]\n"
"vmovdqu (" VEC_SIZE " * 3)(%[src]), %[v3]\n"
"vmovntdq %[v0], (" VEC_SIZE " * 0)(%[dst])\n"
"vmovntdq %[v1], (" VEC_SIZE " * 1)(%[dst])\n"
"vmovntdq %[v2], (" VEC_SIZE " * 2)(%[dst])\n"
"vmovntdq %[v3], (" VEC_SIZE " * 3)(%[dst])\n"
"subq $(" VEC_SIZE " * -4), %[dst]\n"
"subq $(" VEC_SIZE " * -4), %[src]\n"
"addq $(" VEC_SIZE " * -4), %[len]\n"
"jg 1b\n"
"sfence"
: [src] "+r"(src), [dst] "+r"(dst), [len] "+r"(len), [v0] "=&v"(v0),
[v1] "=&v"(v1), [v2] "=&v"(v2), [v3] "=&v"(v3)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
};
static void
memcpy_nt_ns(uint8_t * dst, uint8_t const * src, size_t len) {
__m256i v0, v1, v2, v3;
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"1:\n"
"vmovdqu (" VEC_SIZE " * 0)(%[src]), %[v0]\n"
"vmovdqu (" VEC_SIZE " * 1)(%[src]), %[v1]\n"
"vmovdqu (" VEC_SIZE " * 2)(%[src]), %[v2]\n"
"vmovdqu (" VEC_SIZE " * 3)(%[src]), %[v3]\n"
"vmovntdq %[v0], (" VEC_SIZE " * 0)(%[dst])\n"
"vmovntdq %[v1], (" VEC_SIZE " * 1)(%[dst])\n"
"vmovntdq %[v2], (" VEC_SIZE " * 2)(%[dst])\n"
"vmovntdq %[v3], (" VEC_SIZE " * 3)(%[dst])\n"
"subq $(" VEC_SIZE " * -4), %[dst]\n"
"subq $(" VEC_SIZE " * -4), %[src]\n"
"addq $(" VEC_SIZE " * -4), %[len]\n"
"jg 1b"
: [src] "+r"(src), [dst] "+r"(dst), [len] "+r"(len), [v0] "=&v"(v0),
[v1] "=&v"(v1), [v2] "=&v"(v2), [v3] "=&v"(v3)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
};
static void
memcpy_cd(uint8_t * dst, uint8_t const * src, size_t len) {
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"1:\n"
"movdir64b (%[src]), %[dst]\n"
"subq $-64, %[dst]\n"
"movdir64b 64(%[src]), %[dst]\n"
"subq $-64, %[dst]\n"
"subq $-128, %[src]\n"
"addq $-128, %[len]\n"
"jg 1b\n"
"sfence"
: [dst] "+r"(dst), [len] "+r"(len),[src]"+r" (src)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
};
static void
memcpy_cd_ns(uint8_t * dst, uint8_t const * src, size_t len) {
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"1:\n"
"movdir64b (%[src]), %[dst]\n"
"subq $-64, %[dst]\n"
"movdir64b 64(%[src]), %[dst]\n"
"subq $-64, %[dst]\n"
"subq $-128, %[src]\n"
"addq $-128, %[len]\n"
"jg 1b"
: [dst] "+r"(dst), [len] "+r"(len),[src]"+r" (src)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
};
static void
memcpy_erms(uint8_t * dst, uint8_t const * src, size_t len) {
__asm__ volatile("rep movsb"
: "+D"(dst), "+S"(src), "+c"(len)
:
: "memory");
}
static size_t
use(uint8_t * dst, uint8_t const * src, size_t len) {
__m256i v0, v1, v2, v3;
#define VEC_SIZE "32"
// clang-format off
__asm__ volatile(
"vpxor %[v0], %[v0], %[v0]\n"
"vpxor %[v1], %[v1], %[v1]\n"
"vpxor %[v2], %[v2], %[v2]\n"
"vpxor %[v3], %[v3], %[v3]\n"
"1:\n"
"vpxor (" VEC_SIZE " * 0)(%[dst]), %[v0]\n"
"vpxor (" VEC_SIZE " * 1)(%[dst]), %[v1]\n"
"vpxor (" VEC_SIZE " * 2)(%[dst]), %[v2]\n"
"vpxor (" VEC_SIZE " * 3)(%[dst]), %[v3]\n"
"subq $(" VEC_SIZE " * -4), %[dst]\n"
"addq $(" VEC_SIZE " * -4), %[len]\n"
"jg 1b"
"vpxor %[v0], %[v1], %[v1]\n"
"vpxor %[v2], %[v3], %[v3]\n"
"vpxor %[v1], %[v3], %[v3]\n"
"vpcmpeqb %[v0], %[v0], %[v0]\n"
"vpor %[v0], %[v3], %[v3]\n"
"vmovq %[v3], %[len]\n"
"incq %[len]\n"
: [dst] "+r"(dst), [len] "+r"(len), [v0] "=&v"(v0),
[v1] "=&v"(v1), [v2] "=&v"(v2), [v3] "=&v"(v3)
:
: "cc", "memory");
// clang-format on
#undef VEC_SIZE
return len;
};
#ifndef TODO
# define TODO 6
#endif
#if TODO == 0
# define FUNC memcpy_erms
#elif TODO == 1
# define FUNC memcpy_t
#elif TODO == 2
# define FUNC memcpy_nt
#elif TODO == 3
# define FUNC memcpy_nt_ns
#elif TODO == 4
# define FUNC memcpy_cd
#elif TODO == 5
# define FUNC memcpy_cd_ns
#else
# error "Unknown TODO"
#endif
#define NAME V_TO_STR(FUNC)
void * BENCH_FUNC
bench(void * arg) {
struct timespec start, end;
uint32_t bench_iter = g_iter;
uint32_t reuse = g_reuse;
size_t sz = g_size;
bench_iter &= -1;
uint8_t * dst = ((targs_t *)arg)->dst;
uint8_t * src = ((targs_t *)arg)->src;
uint8_t * sink = ((targs_t *)arg)->sink;
assert(reuse <= 5);
switch (reuse) {
case 0:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; --bench_iter) {
FUNC(dst, src, sz);
}
end = get_ts();
break;
case 1:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; bench_iter -= 2) {
FUNC(dst, src, sz);
FUNC(src, dst, sz);
}
end = get_ts();
break;
case 2:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; bench_iter -= 2) {
FUNC(dst, src, sz);
FUNC(sink, dst, sz);
}
end = get_ts();
break;
case 3:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; bench_iter -= 2) {
FUNC(dst, src, sz);
FUNC(sink, dst, sz);
}
end = get_ts();
break;
case 4:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; bench_iter -= 2) {
FUNC(dst, src, sz);
COMPILER_DO_NOT_OPTIMIZE_OUT(use(dst, src, sz));
}
end = get_ts();
break;
case 5:
pthread_barrier_wait(&g_barrier);
start = get_ts();
__asm__ volatile(".p2align 6\n" : : :);
for (; bench_iter; bench_iter -= 2) {
FUNC(dst, src, sz);
src += use(dst, src, sz);
}
end = get_ts();
break;
default:
__builtin_unreachable();
}
((targs_t *)arg)->ns_out = get_ns_dif(start, end);
return NULL;
}
int
main(int argc, char ** argv) {
if (argc < 5) {
printf("Usage: %s <nthreads> <size> <iter> <opt:align> <opt:reuse>\n",
argv[0]);
return 0;
}
long nthreads = strtol(argv[1], NULL, 10);
char * end;
size_t size = strtoul(argv[2], &end, 10);
if (strncasecmp(end, "kb", 2) == 0) {
size *= 1024;
}
else if (strncasecmp(end, "mb", 2) == 0) {
size *= 1024 * 1024;
}
else if (strncasecmp(end, "gb", 2) == 0) {
size *= 1024 * 1024 * 1024;
}
uint32_t iter = strtoul(argv[3], NULL, 10);
iter &= -1;
uint32_t align = argc >= 5 ? strtoul(argv[4], NULL, 10) : 0;
uint32_t reuse = argc >= 6 ? strtoul(argv[5], NULL, 10) : 10;
assert(reuse <= 5);
align %= 4096;
assert(nthreads != 0 && size != 0 && iter != 0);
if (nthreads < 0) {
nthreads = sysconf(_SC_NPROCESSORS_ONLN);
}
g_iter = iter;
g_size = size;
assert(pthread_barrier_init(&g_barrier, NULL, nthreads) == 0);
pthread_attr_t attr;
assert(pthread_attr_init(&attr) == 0);
assert(pthread_attr_setstacksize(&attr, 524288) == 0);
targs_t targs[nthreads];
for (long i = 0; i < nthreads; ++i) {
uint8_t * dst = (uint8_t *)mmap(NULL, size, PROT_READ | PROT_WRITE,
MAP_ANONYMOUS | MAP_PRIVATE, -1, 0L);
uint8_t * sink = (uint8_t *)mmap(NULL, size, PROT_READ | PROT_WRITE,
MAP_ANONYMOUS | MAP_PRIVATE, -1, 0L);
uint8_t * src =
(uint8_t *)mmap(NULL, size + align, PROT_READ | PROT_WRITE,
MAP_ANONYMOUS | MAP_PRIVATE, -1, 0L);
assert(dst != MAP_FAILED && src != MAP_FAILED);
src += align;
targs[i].dst = dst;
targs[i].src = src;
targs[i].sink = sink;
assert(pthread_create(&(targs[i].tid), &attr, bench,
(void *)(targs + i)) == 0);
}
for (long i = 0; i < nthreads; ++i) {
assert(pthread_join(targs[i].tid, NULL) == 0);
}
for (long i = 0; i < nthreads; ++i) {
munmap(targs[i].dst, size);
munmap(targs[i].src - align, size + align);
munmap(targs[i].sink, size);
}
#if 0
printf("Nthreads = %ld, Size = %zu Bytes, Iter = %u, Align = %u\n", nthreads, size,
iter, align);
printf("Impl: %s\n", NAME);
double sum = 0.0;
size_t bytes = size * iter;
for (long i = 0; i < nthreads; ++i) {
double bw = gb_sec(bytes, targs[i].ns_out);
printf("Thread %-2ld: %.4lf GB/sec\n", i, bw);
sum += bw;
}
printf("Average: %.4lf GB/sec\n", sum / ((double)nthreads));
#else
printf("func,nthreads,iter,size,align,reuse,time_ns\n");
for (long i = 0; i < nthreads; ++i) {
printf("%s,%ld,%u,%zu,%u,%u,%lu\n", NAME, nthreads, iter, size, align,
reuse, targs[i].ns_out);
}
#endif
}