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.
a) the a step was simple, just set a variable
x = std::chrono::high_resolution_clock::now();
b) run the function
while((std::chrono::high_resolution_clock::now()-x).count() < 1000000) std::this_thread::sleep_for(std::chrono::nanoseconds(1));
d) just loop
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?