int main(void)
{
pin_setup();
enable_1v8_power();
cpu_clock_init();
scs_dwt_cycle_counter_enabled();
systick_setup();
gpio_set(PORT_LED1_3, (PIN_LED1|PIN_LED2|PIN_LED3)); /* LEDs on */
while (1)
{
gpio_set(PORT_LED1_3, (PIN_LED1)); /* LED1 on */
gpio_set(PORT_LED1_3, (PIN_LED2)); /* LED2 on */
gpio_set(PORT_LED1_3, (PIN_LED3)); /* LED3 on */
sys_tick_wait_time_ms(500);
gpio_clear(PORT_LED1_3, (PIN_LED3)); /* LED3 off */
gpio_clear(PORT_LED1_3, (PIN_LED2)); /* LED2 off */
gpio_clear(PORT_LED1_3, (PIN_LED1)); /* LED1 off */
sys_tick_wait_time_ms(500);
}
return 0;
}
int main(void)
{
pin_setup();
enable_1v8_power();
cpu_clock_init();
scs_dwt_cycle_counter_enabled();
systick_setup();
led_on(LED1);
led_on(LED2);
led_on(LED3);
while (1)
{
led_on(LED1);
led_on(LED2);
led_on(LED3);
sys_tick_wait_time_ms(500);
led_off(LED1);
led_off(LED2);
led_off(LED3);
sys_tick_wait_time_ms(500);
}
return 0;
}
int main(void)
{
systick_setup();
gpio_setup();
/* SCS & Cycle Counter enabled (used to count number of cycles executed per second see g_NbCyclePerSecond */
scs_dwt_cycle_counter_enabled();
while (1)
{
gpio_set(PORT_LED1_3, (PIN_LED1|PIN_LED2|PIN_LED3)); /* LEDs on */
sys_tick_wait_time_ms(500);
gpio_clear(PORT_LED1_3, (PIN_LED1|PIN_LED2|PIN_LED3)); /* LED off */
sys_tick_wait_time_ms(500);
}
return 0;
}
int main(void)
{
pin_setup();
gpio_set(PORT_EN1V8, PIN_EN1V8); /* 1V8 on */
cpu_clock_init();
scs_dwt_cycle_counter_enabled();
systick_setup();
gpio_clear(PORT_LED1_3, (PIN_LED1)); /* LED1 off */
/* Test number of instruction per second (MIPS) slow blink ON 1s, OFF 1s */
LED1_TOGGLE();
nb_inst_per_sec[0] = test_nb_instruction_per_sec_100_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[1]= test_nb_instruction_per_sec_105_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[2]= test_nb_instruction_per_sec_110_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[3]= test_nb_instruction_per_sec_115_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[4] = test_nb_instruction_per_sec_120_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[5] = test_nb_instruction_per_sec_150_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[6] = test_nb_instruction_per_sec_200_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[7] = test_nb_instruction_per_sec_1000_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[8] = test_nb_instruction_per_sec_100_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[9]= test_nb_instruction_per_sec_105_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[10]= test_nb_instruction_per_sec_110_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[11]= test_nb_instruction_per_sec_115_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[12] = test_nb_instruction_per_sec_120_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[13] = test_nb_instruction_per_sec_150_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[14] = test_nb_instruction_per_sec_200_nop_asm();
LED1_TOGGLE();
nb_inst_per_sec[15] = test_nb_instruction_per_sec_1000_nop_asm();
LED1_TOGGLE();
/* Test finished fast blink */
while (1)
{
gpio_set(PORT_LED1_3, (PIN_LED1)); /* LED1 on */
gpio_set(PORT_LED1_3, (PIN_LED2)); /* LED2 on */
gpio_set(PORT_LED1_3, (PIN_LED3)); /* LED3 on */
sys_tick_wait_time_ms(250);
gpio_clear(PORT_LED1_3, (PIN_LED3)); /* LED3 off */
gpio_clear(PORT_LED1_3, (PIN_LED2)); /* LED2 off */
gpio_clear(PORT_LED1_3, (PIN_LED1)); /* LED1 off */
sys_tick_wait_time_ms(250);
}
return 0;
}
