ardupilot/Tools/CPUInfo/CPUInfo.cpp

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/*
test CPU speed
Andrew Tridgell September 2011
*/
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#define ALLOW_DOUBLE_MATH_FUNCTIONS
#include <cmath>
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#include <AP_HAL/AP_HAL.h>
#include <AP_Common/AP_Common.h>
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#include <AP_Math/AP_Math.h>
#include <AP_ESC_Telem/AP_ESC_Telem.h>
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#include "EKF_Maths.h"
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void setup();
void loop();
const AP_HAL::HAL& hal = AP_HAL::get_HAL();
#if CONFIG_HAL_BOARD != HAL_BOARD_LINUX
// On H750 we want to measure external flash to ram performance
#if defined(EXT_FLASH_SIZE_MB) && defined(STM32H7)
#define DISABLE_CACHES
#endif
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#ifdef STM32_SYS_CK
static uint32_t sysclk = STM32_SYS_CK;
#elif defined(STM32_SYSCLK)
static uint32_t sysclk = STM32_SYSCLK;
#else
static uint32_t sysclk = 0;
#endif
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static EKF_Maths ekf;
HAL_Semaphore sem;
AP_ESC_Telem telem;
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void setup() {
#ifdef DISABLE_CACHES
SCB_DisableDCache();
SCB_DisableICache();
#endif
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ekf.init();
}
static void show_sizes(void)
{
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hal.console->printf("SYSCLK %uMHz\n", unsigned(sysclk/1000000U));
hal.console->printf("Type sizes:\n");
hal.console->printf("char : %lu\n", (unsigned long)sizeof(char));
hal.console->printf("short : %lu\n", (unsigned long)sizeof(short));
hal.console->printf("int : %lu\n", (unsigned long)sizeof(int));
hal.console->printf("long : %lu\n", (unsigned long)sizeof(long));
hal.console->printf("long long : %lu\n", (unsigned long)sizeof(long long));
hal.console->printf("bool : %lu\n", (unsigned long)sizeof(bool));
hal.console->printf("void* : %lu\n", (unsigned long)sizeof(void *));
hal.console->printf("printing NaN: %f\n", (double)sqrtf(-1.0f));
hal.console->printf("printing +Inf: %f\n", (double)(1.0f/0.0f));
hal.console->printf("printing -Inf: %f\n", (double)(-1.0f/0.0f));
}
#define TENTIMES(x) do { x; x; x; x; x; x; x; x; x; x; } while (0)
#define FIFTYTIMES(x) do { TENTIMES(x); TENTIMES(x); TENTIMES(x); TENTIMES(x); TENTIMES(x); } while (0)
#define TIMEIT(name, op, count) do { \
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uint16_t us_end, us_start; \
us_start = AP_HAL::micros16(); \
for (uint8_t i = 0; i < count; i++) { \
FIFTYTIMES(op); \
} \
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us_end = AP_HAL::micros16(); \
uint16_t dt_us = us_end - us_start; \
hal.console->printf("%-10s %7.4f usec/call\n", name, double(dt_us) / double(count * 50.0)); \
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hal.scheduler->delay(10); \
} while (0)
volatile float v_f = 1.0;
volatile float v_out;
volatile double v_d = 1.0;
volatile double v_out_d;
volatile uint32_t v_32 = 1;
volatile uint32_t v_out_32 = 1;
volatile uint16_t v_16 = 1;
volatile uint16_t v_out_16 = 1;
volatile uint8_t v_8 = 1;
volatile uint8_t v_out_8 = 1;
volatile uint8_t mbuf1[128], mbuf2[128];
volatile uint64_t v_64 = 1;
volatile uint64_t v_out_64 = 1;
static void show_timings(void)
{
v_f = 1+(AP_HAL::micros() % 5);
v_out = 1+(AP_HAL::micros() % 3);
v_32 = AP_HAL::millis();
v_32 = 1+(AP_HAL::micros() % 5);
v_out_32 = 1+(AP_HAL::micros() % 3);
v_16 = 1+(AP_HAL::micros() % 5);
v_out_16 = 1+(AP_HAL::micros() % 3);
v_8 = 1+(AP_HAL::micros() % 5);
v_out_8 = 1+(AP_HAL::micros() % 3);
hal.console->printf("Operation timings:\n");
hal.console->printf("Note: timings for some operations are very data dependent\n");
TIMEIT("nop", asm volatile("nop"::), 255);
TIMEIT("micros()", AP_HAL::micros(), 200);
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TIMEIT("micros16()", AP_HAL::micros16(), 200);
TIMEIT("millis()", AP_HAL::millis(), 200);
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TIMEIT("millis16()", AP_HAL::millis16(), 200);
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TIMEIT("micros64()", AP_HAL::micros64(), 200);
TIMEIT("fadd", v_out += v_f, 100);
TIMEIT("fsub", v_out -= v_f, 100);
TIMEIT("fmul", v_out *= v_f, 100);
TIMEIT("fdiv /=", v_out /= v_f, 100);
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TIMEIT("fdiv 2/x", v_out = 2.0f/v_f, 100);
TIMEIT("dadd", v_out_d += v_d, 100);
TIMEIT("dsub", v_out_d -= v_d, 100);
TIMEIT("dmul", v_out_d *= v_d, 100);
TIMEIT("ddiv", v_out_d /= v_d, 100);
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TIMEIT("sinf()", v_out = sinf(v_f), 20);
TIMEIT("cosf()", v_out = cosf(v_f), 20);
TIMEIT("tanf()", v_out = tanf(v_f), 20);
TIMEIT("acosf()", v_out = acosf(v_f * 0.2), 20);
TIMEIT("asinf()", v_out = asinf(v_f * 0.2), 20);
TIMEIT("atan2f()", v_out = atan2f(v_f * 0.2, v_f * 0.3), 20);
TIMEIT("sqrtf()",v_out = sqrtf(v_f), 20);
TIMEIT("sin()", v_out = sin(v_f), 20);
TIMEIT("cos()", v_out = cos(v_f), 20);
TIMEIT("tan()", v_out = tan(v_f), 20);
TIMEIT("acos()", v_out = acos(v_f * 0.2), 20);
TIMEIT("asin()", v_out = asin(v_f * 0.2), 20);
TIMEIT("atan2()", v_out = atan2(v_f * 0.2, v_f * 0.3), 20);
TIMEIT("sqrt()",v_out = sqrt(v_f), 20);
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TIMEIT("sq()",v_out = sq(v_f), 20);
TIMEIT("powf(v,2)",v_out = powf(v_f, 2), 20);
TIMEIT("powf(v,3.1)",v_out = powf(v_f, 3.1), 20);
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TIMEIT("EKF",v_out = ekf.test(), 5);
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TIMEIT("iadd8", v_out_8 += v_8, 100);
TIMEIT("isub8", v_out_8 -= v_8, 100);
TIMEIT("imul8", v_out_8 *= v_8, 100);
TIMEIT("idiv8", v_out_8 /= v_8, 100);
TIMEIT("iadd16", v_out_16 += v_16, 100);
TIMEIT("isub16", v_out_16 -= v_16, 100);
TIMEIT("imul16", v_out_16 *= v_16, 100);
TIMEIT("idiv16", v_out_16 /= v_16, 100);
TIMEIT("iadd32", v_out_32 += v_32, 100);
TIMEIT("isub32", v_out_32 -= v_32, 100);
TIMEIT("imul32", v_out_32 *= v_32, 100);
TIMEIT("idiv32", v_out_32 /= v_32, 100);
TIMEIT("iadd64", v_out_64 += v_64, 100);
TIMEIT("isub64", v_out_64 -= v_64, 100);
TIMEIT("imul64", v_out_64 *= v_64, 100);
TIMEIT("idiv64", v_out_64 /= v_64, 100);
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TIMEIT("memcpy128", memcpy((void*)mbuf1, (const void *)mbuf2, sizeof(mbuf1)); v_out_8 += mbuf1[0], 200);
TIMEIT("memset128", memset((void*)mbuf1, 1, sizeof(mbuf1)); v_out_8 += mbuf1[0], 200);
TIMEIT("delay(1)", hal.scheduler->delay(1), 5);
TIMEIT("SEM", { WITH_SEMAPHORE(sem); v_out_32 += v_32;}, 100);
}
void loop()
{
show_sizes();
hal.console->printf("\n");
show_timings();
hal.console->printf("\n");
hal.scheduler->delay(3000);
}
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#else
void loop() {}
void setup() {}
#endif
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AP_HAL_MAIN();