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I have a computer with Windows XP embedded on it. I run a command (from the prompt or by shelling out with the start command), that is of the form "(step 1) | (step 2) | (step 3) | (step 4)", where each of the steps is a different program that pipes its stdout to the next steps stdin.

This works fine, but, on a multicore machine (with 4 cores), it only uses 25% of the cpu for all of the steps, even though I think they should be able to run on separate cores. Am I missing something? Does piping through a command shell prevent the use of more than one core at a time?

I have tried explicitly changing the affinity of each of my steps, and, while that changes which core is reported to be doing the work, the total CPU usage never rises above 25%. If I just run (step 1) > NUL, then that program consumes one entire core.


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Your pipeline as a whole will only run as fast as its slowest member (which I assume to be single-threaded and CPU-bound from the information you give). Perfectly scaling it over 100 cores would still not make it faster. – Jon Oct 18 '11 at 12:21
I thought each step could run on a different core, and therefore, in my 4 core case, the pipeline would run when the slowest process consumes 1 core completely. – garlon4 Oct 18 '11 at 12:22
Are many of the steps CPU-bound? If just one of them is eating up all CPU and the others just "sample" it, you 'd be hard-pressed to tell which core they are running on. – Jon Oct 18 '11 at 12:24
Two of my steps are cpu intensive. Sometimes my first step is the limiting factor and sometimes the third step. Which one is the limiting factor is dependent on the data that is moving through the process. The other two are very lightweight. Usually, step 1 uses 15% of the cpu and step 3 uses 10 %, with the system showing 75 % idle. – garlon4 Oct 18 '11 at 12:26
It turns out that my (step 2) process was blocking on reading either stdin or writing stdout, and therefore, was prohibiting step 1 and step 3 from running concurrently. Refactoring this program solved my problem. – garlon4 Oct 18 '11 at 18:45

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