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Note: I prefer C++ (the code bellow is C++) but If anyone manages to do the following in any common language, I am OK.

Here is the idea:

a) timer starts.
b) function executes and takes always less than 0.1 second.
c) program sleeps till the time difference from start is exactly 0.1 second.
d) repeats forever.

If the sleep time is a bit higher than 0.1 second, say 0.105 seconds, I am losing 0.005 seconds per second. This inaccuracy costs in my application, as I am losing in a day period: 0.005*3600*24 = 432 seconds.

My application is a realtime one; the time I am losing, is not of low importance.


Execution:

a) the a step was simple, just set a variable x = std::chrono::high_resolution_clock::now(); b) run the function
c)

while((std::chrono::high_resolution_clock::now()-x).count() < 1000000)
        std::this_thread::sleep_for(std::chrono::nanoseconds(1));

d) just loop


Summary:

a) i understand, no matter what, I will lose at least 1 nanosecond per second.
b) after reading those articles: first, second I realize, it's possible to make my application lose just 30 microseconds per second = 0.00003 second. This means, in a day: 0.00003*3600*24 = 2.592 seconds per day.
c) at the moment using the function descibed above the best I managed is losing 7 minutes per day.


What I am really trying to do:

I am given access to a server with one limitation: Only one request per 0.1 second is allowed. If it takes less, they will ban me. If my request take longer, I am downloading less data. My application downloads a file every 0.1 seconds. If due to delays I lose 432 seconds per day, this means I could have downloaded 4320 files more.

Q: How to implement CPU shielding on CentOS preferable, or any other OS?

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1  
I don't know what support for this there is in the C++ libraries, but with Posix timer functions, you specify the absolute expiry time, rather than the delta (you can also specify the repetition interval). That would immediately solve your problem. –  Oliver Charlesworth Dec 25 '13 at 21:31
2  
That's 0.1 second by their clock, not yours. How are you so sure they're that much better than you at measuring time? –  Joe Z Dec 25 '13 at 21:45
3  
Losing 3 seconds a day is less than 0.0035%. Are you certain you need that last 0.0035%? –  Joe Z Dec 25 '13 at 21:48
3  
Oli nailed the point I was hinting at. Suppose you download 863999 files one day and 864001 the next because of network jitter. Are you suddenly banned? The framing time on a typical IP connection has way too much jitter. Why the crazy tolerances here? Also, who defines the day boundaries, and what happens when their clock drifts even if yours is perfect? –  Joe Z Dec 25 '13 at 21:53
3  
@Blazer: I fully believe that it takes less than 0.1 seconds. But you seem to misunderstand the point that Joe and I are making. You are saying that you will get banned if you run faster than 0.1 seconds; we are saying that no matter how accurate you make your loop, you will always see (A) variance and (B) drift at the other end of the connection. What kind of service is enforcing such precise constraints? (Put another way, I don't believe that this is the real constraint ;) ) –  Oliver Charlesworth Dec 25 '13 at 22:05

3 Answers 3

up vote 7 down vote accepted

If you don't want to lose time over the day, you wouldn't implement your code like this. You would do something like

for(long next = System.currentTimeMillis() + 100;; start += 100) {
    // do something
    while(true){
        long delay = next - System.currentTimeMillis();
        if (delay <= 0)
            break;
        Thread.sleep(delay);
    }
}

This way you can get jitter of up to 5 ms on bare metal machine and 50 ms on a hypervisor, but this will disappear in the next iteration or the one after.

i.e. there is no cumulative drift in this code. (Note: the high resolution timers drift but this is down to your hardware)

I suspect you are actually trying to solve a different problem you haven't really explained here.

How to implement CPU shielding on CentOS preferable, or any other OS?

What I do for Java is

  • use isocpus=5,6,11,12 or each CPU for each core you want to isolate. I suggest isolating whole cores. This allows you to use hyperthreading selectively.
  • configure IRQ balance to avoid these CPU unless you intend to use them in your thread on this CPU.
  • use sched_setaffinity to bind selected threads to individual CPUs. To allocate a whole core, leave one CPU of the core idle.

BTW I recommend busy waiting rather than using sleep or anything which blocks in the OS as this disturbs the CPU caches. i.e. your code will run significantly slower (2-5x) after waking as the wake time is not the only thing you have to worry about.

BTW2 I haven't found a reliable way to CPU shield on Windows other than setting to priority as high as possible, note: you cannot raise the priority unless you are running as an administrator. On Linux, raising the priority is not as effective as removing the CPU from normal scheduling.

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1  
Good point, you were a minute faster. –  Erbureth Dec 25 '13 at 21:45
    
Thanks, I will check this out. –  Blazer Dec 25 '13 at 22:18

Java has built in functionality to do this, one of the options with a ScheduledExecutorService is to schedule at a fixed rate or with fixed delay.

If you use the fixed rate option then it will give you exactly the behaviour you are looking for, the time it took to run this time will be subtracted from the delay before it runs again.

http://docs.oracle.com/javase/7/docs/api/java/util/concurrent/ScheduledExecutorService.html

Note however that windows is a non-realtime OS running with pre-emptive multi tasking. The service will try and call you back as soon as possible after the next time comes but it is absolutely impossible to guarantee to do so. The only way to avoid that would be to switch to a realtime OS, but that is overkill here really.

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1  
I would add a link from Java 7 given Java 6 is basically EOL. –  Peter Lawrey Dec 25 '13 at 22:01
    
Good point, done that (that particular class hasn't changed but it is still better to point to the more current docs). –  Tim B Dec 25 '13 at 22:03
    
This answer tend to stay for years +1 btw. –  Peter Lawrey Dec 25 '13 at 22:07
    
Thanks, I will also, check this out. –  Blazer Dec 25 '13 at 22:19

You don't need to control CPU usage the user them self can control it. By using task manager in Windows. I beleive you will have to mess with the task manager in your program code.

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Thanks a lot. I tried setting priority to realtime on a windows system. It helped a bit, but only one windows 7. Still far cry from what I am trying to do. –  Blazer Dec 25 '13 at 21:35

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