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/*
* Copyright (C) 2021-2022 Colin Ian King
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "stress-ng.h"
#include "core-arch.h"
#include "core-put.h"
#include "core-target-clones.h"
#include "core-vecmath.h"
#define VERY_WIDE (0)
static const stress_help_t help[] = {
{ NULL, "vecwide N", "start N workers performing vector math ops" },
{ NULL, "vecwide-ops N", "stop after N vector math bogo operations" },
{ NULL, NULL, NULL }
};
#if defined(HAVE_VECMATH)
/*
* 8 bit vectors, named by int8wN where N = number of bits width
*/
#if VERY_WIDE
typedef int8_t stress_vint8w8192_t __attribute__ ((vector_size(8192 / 8)));
typedef int8_t stress_vint8w4096_t __attribute__ ((vector_size(4096 / 8)));
#endif
typedef int8_t stress_vint8w2048_t __attribute__ ((vector_size(2048 / 8)));
typedef int8_t stress_vint8w1024_t __attribute__ ((vector_size(1024 / 8)));
typedef int8_t stress_vint8w512_t __attribute__ ((vector_size(512 / 8)));
typedef int8_t stress_vint8w256_t __attribute__ ((vector_size(256 / 8)));
typedef int8_t stress_vint8w128_t __attribute__ ((vector_size(128 / 8)));
typedef int8_t stress_vint8w64_t __attribute__ ((vector_size(64 / 8)));
typedef int8_t stress_vint8w32_t __attribute__ ((vector_size(32 / 8)));
#if VERY_WIDE
#define VEC_MAX_SZ sizeof(stress_vint8w8192_t)
#else
#define VEC_MAX_SZ sizeof(stress_vint8w2048_t)
#endif
typedef struct {
uint8_t a[VEC_MAX_SZ];
uint8_t b[VEC_MAX_SZ];
uint8_t c[VEC_MAX_SZ];
uint8_t s[VEC_MAX_SZ];
uint8_t v23[VEC_MAX_SZ];
uint8_t v3[VEC_MAX_SZ];
uint8_t res[VEC_MAX_SZ];
} vec_args_t;
typedef void (*stress_vecwide_func_t)(vec_args_t *vec_args);
typedef struct {
stress_vecwide_func_t vecwide_func;
size_t byte_size;
double duration;
} stress_vecwide_funcs_t;
#define STRESS_VECWIDE(name, type) \
static void TARGET_CLONES OPTIMIZE3 name (vec_args_t *vec_args) \
{ \
type a, b, c, s, v23, v3, res; \
register int i; \
\
(void)memcpy(&a, vec_args->a, sizeof(a)); \
(void)memcpy(&b, vec_args->b, sizeof(b)); \
(void)memcpy(&c, vec_args->c, sizeof(c)); \
(void)memcpy(&s, vec_args->s, sizeof(s)); \
(void)memcpy(&v23, vec_args->v23, sizeof(s)); \
(void)memcpy(&v3, vec_args->v23, sizeof(s)); \
\
for (i = 2048; i; i--) { \
a += b; \
b -= c; \
c += v3; \
s ^= b; \
a += v23; \
b *= v3; \
a *= s; \
} \
\
res = a + b + c; \
\
for (i = 0; i < (int)sizeof(res); i++) { \
stress_uint8_put(res[i]); \
} \
}
#if VERY_WIDE
STRESS_VECWIDE(stress_vecwide_8192, stress_vint8w8192_t)
STRESS_VECWIDE(stress_vecwide_4096, stress_vint8w4096_t)
#endif
STRESS_VECWIDE(stress_vecwide_2048, stress_vint8w2048_t)
STRESS_VECWIDE(stress_vecwide_1024, stress_vint8w1024_t)
STRESS_VECWIDE(stress_vecwide_512, stress_vint8w512_t)
STRESS_VECWIDE(stress_vecwide_256, stress_vint8w256_t)
STRESS_VECWIDE(stress_vecwide_128, stress_vint8w128_t)
STRESS_VECWIDE(stress_vecwide_64, stress_vint8w64_t)
STRESS_VECWIDE(stress_vecwide_32, stress_vint8w32_t)
static stress_vecwide_funcs_t stress_vecwide_funcs[] = {
#if VERY_WIDE
{ stress_vecwide_8192, sizeof(stress_vint8w8192_t), 0.0 },
{ stress_vecwide_4096, sizeof(stress_vint8w4096_t), 0.0 },
#endif
{ stress_vecwide_2048, sizeof(stress_vint8w2048_t), 0.0 },
{ stress_vecwide_1024, sizeof(stress_vint8w1024_t), 0.0 },
{ stress_vecwide_512, sizeof(stress_vint8w512_t), 0.0 },
{ stress_vecwide_256, sizeof(stress_vint8w256_t), 0.0 },
{ stress_vecwide_128, sizeof(stress_vint8w128_t), 0.0 },
{ stress_vecwide_64, sizeof(stress_vint8w64_t), 0.0 },
{ stress_vecwide_32, sizeof(stress_vint8w32_t), 0.0 },
};
static int stress_vecwide(const stress_args_t *args)
{
static vec_args_t *vec_args;
size_t i;
double total_duration = 0.0;
size_t total_bytes = 0;
const size_t vec_args_size = (sizeof(*vec_args) + args->page_size - 1) & ~(args->page_size - 1);
vec_args = (vec_args_t *)mmap(NULL, vec_args_size, PROT_READ | PROT_WRITE,
MAP_ANONYMOUS | MAP_PRIVATE, -1, 0);
if (vec_args == MAP_FAILED) {
pr_inf("%s: skipping stressor, failed to allocate vectors, errno=%d (%s)\n",
args->name, errno, strerror(errno));
return EXIT_NO_RESOURCE;
}
for (i = 0; i < SIZEOF_ARRAY(stress_vecwide_funcs); i++)
stress_vecwide_funcs[i].duration = 0.0;
for (i = 0; i < SIZEOF_ARRAY(vec_args->a); i++) {
vec_args->a[i] = (int8_t)i;
vec_args->b[i] = stress_mwc8();
vec_args->c[i] = stress_mwc8();
vec_args->s[i] = stress_mwc8();
}
(void)memset(&vec_args->v23, 23, sizeof(vec_args->v23));
(void)memset(&vec_args->v3, 3, sizeof(vec_args->v3));
stress_set_proc_state(args->name, STRESS_STATE_RUN);
do {
for (i = 0; i < SIZEOF_ARRAY(stress_vecwide_funcs); i++) {
double t1, t2, dt;
t1 = stress_time_now();
stress_vecwide_funcs[i].vecwide_func(vec_args);
t2 = stress_time_now();
dt = (t2 - t1);
total_duration += dt;
stress_vecwide_funcs[i].duration += dt;
inc_counter(args);
}
} while (keep_stressing(args));
for (i = 0; i < SIZEOF_ARRAY(stress_vecwide_funcs); i++) {
total_bytes += stress_vecwide_funcs[i].byte_size;
}
if (args->instance == 0) {
bool lock = false;
pr_lock(&lock);
pr_dbg_lock(&lock, "Bytes %% dur %% exp (x win) (> 1.0 is better than expected)\n");
for (i = 0; i < SIZEOF_ARRAY(stress_vecwide_funcs); i++) {
double dur_pc, exp_pc, win;
dur_pc = stress_vecwide_funcs[i].duration / total_duration * 100.0;
exp_pc = (double)stress_vecwide_funcs[i].byte_size / (double)total_bytes * 100.0;
win = exp_pc / dur_pc;
pr_dbg_lock(&lock, "%5zd %5.2f%% %5.2f%% %5.2f\n",
stress_vecwide_funcs[i].byte_size,
dur_pc, exp_pc, win);
}
pr_unlock(&lock);
}
stress_set_proc_state(args->name, STRESS_STATE_DEINIT);
(void)munmap((void *)vec_args, vec_args_size);
return EXIT_SUCCESS;
}
stressor_info_t stress_vecwide_info = {
.stressor = stress_vecwide,
.class = CLASS_CPU | CLASS_CPU_CACHE,
.help = help
};
#else
stressor_info_t stress_vecwide_info = {
.stressor = stress_not_implemented,
.class = CLASS_CPU | CLASS_CPU_CACHE,
.help = help
};
#endif
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