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I am working on a project which accurate timer is really crucial. I am working on python and am using timer.sleep() function.

I noticed that timer.sleep() function will add additional delay because of the scheduling problem (refer to timer.sleep docs). Due to that issue, the longer my program runs, the more inaccurate the timer is.

Is there any more accurate timer/ticker to sleep the program or solution for this problem?

Any help would be appreciated. Cheers.

21
  • I don't think there is, because the OS scheduler is doing its own thing. I'm monitoring this question with interest, though.
    – timgeb
    May 24, 2018 at 15:01
  • On linux it's 0.001 ms inaccurate. On Windows it's around 16 ms inaccurate. It's because of OS and I'm not aware of any better solution. I guess will follow this question. May 24, 2018 at 15:03
  • Did you tried to give your process real time priority? Accuracy is a problem of non-deterministic systems, but linux can be really close to most needs. How much delay you're willing to tolerate? ms, us, ns? Time constrained solutions are always hard to delivery and very fragile, any changes on code, kernel, or runtime in general will impact such solutions.
    – geckos
    May 24, 2018 at 15:08
  • What operating system are you using? See this c++ question: Precise thread sleep needed. Max 1ms error May 24, 2018 at 15:09
  • 3
    Are you calling timer.sleep multiple times ("the longer my program runs, the more inaccurate the timer is")? If so, could you correct the sleep time by keeping track of the actual time using something like time.clock_gettime?
    – cdarke
    May 24, 2018 at 15:11

3 Answers 3

3

I had a solution similar to above, but it became processor heavy very quickly. Here is a processor-heavy idea and a workaround.

def processor_heavy_sleep(ms):  # fine for ms, starts to work the computer hard in second range.
    start = time.clock()
    end = start + ms /1000.
    while time.clock() < end:
        continue
    return start, time.clock()


def efficient_sleep(secs, expected_inaccuracy=0.5):  # for longer times
    start = time.clock()
    end = secs + start
    time.sleep(secs - expected_inaccuracy)
    while time.clock() < end:
        continue
    return start, time.clock()

output of efficient_sleep(5, 0.5) 3 times was:

  • (3.1999303695151594e-07, 5.0000003199930365)
  • (5.00005983869791, 10.00005983869791)
  • (10.000092477987678, 15.000092477987678)

This is on windows. I'm running it for 100 loops right now. Here are the results.

  • (485.003749358414, 490.003749358414)
  • (490.0037919174879, 495.0037922374809)
  • (495.00382903668014, 500.00382903668014)

The sleeps remain accurate, but the calls are always delayed a little. If you need a scheduler that accurately calls every xxx secs to the millisecond, that would be a different thing.

1

the longer my program runs, the more inaccurate the timer is.

So, for example by expecting 0.5s delay, it will be time.sleep(0.5 - (start-end)). But still didn't solve the issue

You seem to be complaining about two effects, 1) the fact that timer.sleep() may take longer than you expect, and 2) the inherent creep in using a series of timer.sleep() calls.

You can't do anything about the first, short of switching to a real-time OS. The underlying OS calls are defined to sleep for at least as long as requested. They only guarantee that you won't wake early; they make no guarantee that you won't wake up late.

As for the second, you ought to figure your sleep time according to an unchanging epoch, not from your wake-up time. For example:

import time
import random

target = time.time()
def myticker():
    # Sleep for 0.5s between tasks, with no creep
    target += 0.5
    now = time.time()
    if target > now:
        time.sleep(target - now)


def main():
    previous = time.time()
    for _ in range(100):
        now = time.time()
        print(now - previous)
        previous = now
        # simulate some work
        time.sleep(random.random() / 10)  # Always < tick frequency
        # time.sleep(random.random())     # Not always < tick frequency
        myticker()

if __name__ == "__main__":
    main()
0

Working on Linux with zero knowledge of Windows, I may be being naive here but is there some reason that writing your own sleep function, won't work for you?
Something like:

import time

def sleep_time():
    start_time = time.time()
    while (time.time() - start_time) < 0.0001:
        continue

end_time = time.time() + 60 # run for a minute
cnt = 0
while time.time() < end_time:
    cnt += 1
    print('sleeping',cnt)
    sleep_time()
    print('Awake')
print("Slept ",cnt," Times")
3
  • This kills the CPU.
    – jbch
    May 24, 2018 at 17:18
  • To elaborate, busy-looping is sometimes the right solution in low-level programming, but that's certainly not OP's case given that he's writing Python.
    – jbch
    May 24, 2018 at 17:29
  • @jbch Indeed it does! Given the OP's predicament, needs must when the devil drives. It's an option, if a little heavy. May 25, 2018 at 8:29

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