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I've got an awk script sending out long strings (>10K chars) to stdout.

I would like to increase the buffer size so that larger chunks of those long strings are written at once. I've timed both pipes below with different -o sizes but there's no significant changes

time stdbuf -o 100MB awk -f processing.awk infile.txt | sort -k1,1 > outfile.txt
time stdbuf -o 100MB awk -f processing.awk infile.txt > outfile.txt

real/user/sys timings are all very similar to oneanother (+- 10% on each metric).

My question is whether I'm using stdbuf the right way? Thank you.

FZ.

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2 Answers

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The stdbuf command manages to alter the buffering of standard I/O channels for the executed commands. However, it doesn't (I don't think it can) alter the capacity of a pipe in the O/S. So, I would not expect to see any difference in the performance.

Note that the difference is that with the big buffer, awk will end up sending all its data in a single monstrous write() system call (unless infile.txt, as modified by the script, is itself bigger than 100 MiB), whereas ordinarily it would write when a buffer of somewhere between 0.5 and 8 KiB is filled. However, the benefit of such a huge write() is minimal; it still has to be segmented by the O/S to fit in the pipe (unless the O/S does things differently - classically, what I describe would be true).

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Thank you. Do you see any benefit in staying out of the pipeline and diverting output explicitly within awk ( looping though stored strings and > outfile.txt within awk)? –  Fritz Zob Oct 17 '11 at 15:32
    
If you need to sort the data, you'll benefit from keeping the buffer size smaller so that sort gets data to work on while awk is also generating the data, so you can take benefit from the parallelism of multiple cores in your CPU. If you make awk hold off producing any output until it's done, there is no parallelism, and the overall process will be slower. In the ordinary course of events, the default sizes for buffers are fine. I would not expect to see more than second-order performance gains from tinkering with the buffer sizes. –  Jonathan Leffler Oct 17 '11 at 15:36
    
THank you. Very instructive, useful answer. –  Fritz Zob Oct 17 '11 at 15:48
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What stdbuf does is changing the buffering in C stdlib, that is, the buffer of stdin, stdout or stderr FILE*.

It doesn't change the size of the pipe buffer in the kernel. This is probably why you don't see any change.

It is a well-known issue that the pipe buffer size can't be changed and is quite small. When processing large files it is often better to write intermediate results into files rather than pipe them into another application. Because the pipe buffer is quite small there is going to be a lot of context switching between applications communicating through the pipe, the overhead of which may dwarf the applications run-time.

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Thank you. I didn't realize the pipe buffer was set. –  Fritz Zob Oct 17 '11 at 15:54
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