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In parallel systems every process has an impact onto other processes, because they all compete for several scarce resources like cpu-caches, memory, disk I/O, network, etc.

What method is best suited for measuring interference between processes? Such as Process A & B each access the disk heavily. So running them parallel will probably slower then running sequential (individual runtime). Because the bottleneck is the hard drive.

If I don't know exactly the behaviour of a process (disk-, memory- or cpu- intensive), what method would be best to analyse that?

Measure individual runtime and compare the relative share of each parallel process?

Like process A runs on average 30s alone, when 100% parallel with B 45s, when 20% parallel 35s.. etc ??

Would it be better to compare several indicators like L1 & LLC cache misses, page faults, etc.??

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is this platform agnostic question? if target is windows platform, I guess it does provide individual disk utilization metrics. That's how 'resource monitor' can plot graph of disk activity per process level. –  Ankush Oct 17 '12 at 8:55
You can measure it, just observe consumed time. But the measurement is pretty useless, it will repeat very, very poorly. –  Hans Passant Oct 17 '12 at 9:45
@Ankush the primary platform is Linux –  nairboon Oct 18 '12 at 11:23

1 Answer 1

What you need to do is first determine what the limiting factors are on each of the individual programs. If you want to run CPU-bound and IO-bound at the same time it'll have very little impact. If you want to run two IO-bound processes and the same time there'll be a lot of contention.

I wrote a rather detailed answer about how to interpret the output of "time [command]" results to see what's the limiting factor. It's here: What caused my elapsed time much longer than user time?

Once you have the ouput from "time"ing your programs you can determine which are likely to step on one another and which are not.

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