I have around 10k video streams that I want to monitor. There's going to be a small cluster (eg: 5-10) of heterogenous machines that monitor these streams. Because there isn't enough CPU to do all this, I will have to shuffle the streams, monitor a couple of them at a time then switch to the next set.
Now, my problem is.. I would like to utilize the cores as much as possible, so that I can use fever sets and this way be able to monitor each stream more often.
Streams have different resolution, so consequently different CPU usage.
- I relatively simple solution would be to measure the CPU usage for the highest bitrate stream on each machine (different CPUs, different usage). If it's 10%, and I have 4 cores I can safely run 9*4=36 processes at a time on that machine. But this would clearly waste a lot of CPU power, as other streams have low bitrates.
- A better solution would be to constantly monitor the usage of the cores and if the utilization is below a threshold (eg: 95-10=85%) then start a new process.
- A complex would be to start a new process with
nice -n 20, then somehow check whether it is able to process the data (xx), if so, then renice it to normal priority and try the same thing with the next process... (xx: at the moment I'm not sure whether this is doable..)
Do you see any flaws in these designs? Any other ideas how to do this efficiently?
My other concern is the linux scheduler.. will it be able to distribute the processes properly? There is
taskset to set CPU affinity a for process, does it make sense to manually control the allocation? (I think it does)
Also, what's the proper way to measure the CPU usage of a process? There is
getrusage, but both of them return used CPU time, but I need a percentage. (Note: this Q has the lowest priority, if there's no response I will just check the source of
top). I know I can monitor the cores with