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I am currently working on a project involving external merge-sort using replacement-selection and k-way merge. I have implemented the project in C++[runs on linux]. Its very simple and right now deals with only fixed sized records.

For reading & writing I use (i/o)fstream classes. After executing the program for few iterations, I noticed that

  • I/O read blocks for requests of size more than 4K(typical block size). Infact giving buffer sizes greater than 4K causes performance to decrease.
  • The output operations does not seem to need buffering, linux seemed to take care of buffering output. So I issue a write(record) instead of maintaining special buffer of writes and then flushing them out at once using write(records[]).

But the performance of the application does not seem to be great. How could I improve the performance? Should I maintain special I/O threads to take care of reading blocks or are there existing C++ classes providing this abstraction already?(Something like BufferedInputStream in java)

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2  
Profile first! Performance decreases only slowly for larger than optimal block sizes, so that probably won't be the first concern. –  Potatoswatter Apr 23 '10 at 1:49
    
For >4096 byte buffers, were they an exact multiple of 512? –  wallyk Apr 23 '10 at 1:51
    
The 4k thing makes sense. That's usually the native block size of many filesystems, and it's also the x86's native page size. –  Billy ONeal Apr 23 '10 at 3:53
    
@wallyk: Yes, they were.. Looks like I/O blocks and waits for all the blocks to be read. During this time, some memory ops could have been done. –  Ajay Nadathur Apr 24 '10 at 8:24
    
@Potatoswatter, do you use any specific tools for profiling ? –  Ajay Nadathur Apr 24 '10 at 8:24

3 Answers 3

up vote 3 down vote accepted

Such high performance I/O is easiest done with mmap. This gives the kernel far more freedom to perform I/O and schedule CPU time for your app. For instance, when you read in 1 MB using ifstream, the kernel can only return when all the data is read. But with mmap(), the data can be returned incrementally as it becomes available.

However, you should understand how that happens. Just because the data appears to be in RAM doesn't mean that you should treat it as random accessibly. Don't feed it to std::sort. This will touch random parts of the mmap'ed area, causing page faults left right and center. As a result, you'll be causing heavy disk seeking to resolve the random page faults. Instead, mmap() two inputs and merge them. Because the mmap command told the kernel what data you need in the future, the kernel will feed you data as fast as it can, and your merge sort will page fault (i.e. stall) when it is temporarily out of data.

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Thank you. I will try mmap and get back with the results soon! –  Ajay Nadathur Apr 24 '10 at 8:23

Look at using The C Low Level IO library. http://www.linuxtopia.org/online_books/programming_books/gnu_libc_guide/Low_002dLevel-I_002fO.html or ftp://ftp2.developpez.be/developps/linux/alp/alp-apB-low-level-io.pdf

In windows a long time ago I got some IO to run 10 times faster using the Low Level IO open than using fopen.

Maybe you will not get the same performance benefit, I know it will be something.

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Streams are known for their performance issues compared to plain-C I/O. In fact, they act as 'easy to use and suitable for different situations', but lack in performance. What I would do in your situation is switching to C-style I/O, profiling and then acting based on the profiling results.

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