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I am using STm32f2 controller and I have interfaced St7036 LCd display via 8 bit parallel interface. The data sheet says there shoul be nano second delay between address hold and setup time. Could any pls let me know how to generate a delay for 20nanosecond delay in c.

Thanks

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Have you tried the nanosleep() function ? Note : you need to include <time.h>to use it. –  NNzz Nov 14 '12 at 12:56

2 Answers 2

For all your needs, the stm32 provides the DWT_CYCCNT register, which counts clock ticks. It is located at address 0xE0001004. Use the code below to accomplish your delays, and also for testing. For clocking, you can save stopwatch_getticks() to a variable, run some code, and then save stopwatch_getticks() to a different variable and take the difference.

uint32_t m_nStart;               //DEBUG Stopwatch start cycle counter value
uint32_t m_nStop;                //DEBUG Stopwatch stop cycle counter value

#define DEMCR_TRCENA    0x01000000

/* Core Debug registers */
#define DEMCR           (*((volatile uint32_t *)0xE000EDFC))
#define DWT_CTRL        (*(volatile uint32_t *)0xe0001000)
#define CYCCNTENA       (1<<0)
#define DWT_CYCCNT      ((volatile uint32_t *)0xE0001004)
#define CPU_CYCLES      *DWT_CYCCNT

#define STOPWATCH_START { m_nStart = *((volatile unsigned int *)0xE0001004);}//DWT_CYCCNT;}
#define STOPWATCH_STOP  { m_nStop = *((volatile unsigned int *)0xE0001004);}


static inline void stopwatch_reset(void)
{
    /* Enable DWT */
    DEMCR |= DEMCR_TRCENA; 
    *DWT_CYCCNT = 0;             
    /* Enable CPU cycle counter */
    DWT_CTRL |= CYCCNTENA;
}

static inline uint32_t stopwatch_getticks()
{
    return CPU_CYCLES;
}

static inline void stopwatch_delay(uint32_t ticks)
{
    stopwatch_reset();
    while(1)
    {
            if (stopwatch_getticks() >= ticks)
                    break;
    }
}

uint32_t CalcNanosecondsFromStopwatch(uint32_t nStart, uint32_t nStop)
{
    uint32_t nTemp;
    uint32_t n;

    nTemp = nStop - nStart;

    nTemp *= 1000;                          // Scale cycles by 1000.
    n = SystemCoreClock / 1000000;          // Convert Hz to MHz. SystemCoreClock = 168000000
    nTemp = nTemp / n;                      // nanosec = (Cycles * 1000) / (Cycles/microsec)

    return nTemp;
} 

void main (void)
{
    int timeDiff = 0;

    STOPWATCH_START;
    run_my_function();
    STOPWATCH_STOP;
    timeDiff = CalcNanosecondsFromStopwatch(m_nStart, m_nStop);
    printf("My function took %d nanoseconds\n", timeDiff);
}
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Are you sure this would work? An instruction cycle would be around 5ns..Obviously the code uses more than 5 instructions. So the minimum time would be 25ns... The delay used in hardware, however, could be much less than 25ns. –  richieqianle Jul 31 at 2:16
    
Yep. The code is to be modified as needed. One could surely just use the minimum of pieces needed, or ideally a user of this code would run __no_operation() one thousand times in a loop inside main() (e.g. where run_my_function() is) to get the nano-second stopwatch for 1000 runs, and then just divide that number by 1000 to see how long one single pipelined __no_operation() call takes on the system in question...and then use as desired. –  JSalazar Jul 31 at 2:50
1  
Just a comment, 1000 NOP/1000 may not be equal to 1 NOP. Great explanation anyway! –  richieqianle Jul 31 at 3:56
    
True, it only approximates a pipelined NOP. So yea, the fewer NOPs used, the more the measurement will drift from reality (to some small degree). –  JSalazar Jul 31 at 14:05

The first specification I found of Stm32f2 assumes a clock frequency of 120 MHz. That's about 8ns per clock cycle. You would need about three single cycle instructions between successive write or read/write operations. In C, a++; will probably do (if a is located in stack).

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Yeah - exactly - all the answers but this one give solutions that would take 100x more time than required... 20ns is just a few cycles, a few NOPs in assembly will be more than adequate... –  Freddie Chopin Nov 23 at 19:32

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