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Suppose I'm writing a couple of files to disk, between 2MB and 5GB. What are sensible buffer values for the FileStream ?

Is it sensible to work with buffersizes of several megabytes, or should I stick to kilobyte-buffers ?

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Why not let .Net handle the buffer and just write as you need to? –  cjk Dec 7 '09 at 21:24
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Just try it. Write a little benchmark using StopWatch and tell us the results. –  J. Random Coder Dec 7 '09 at 21:25
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I suspect the "buffer" in question is the buffer you have to declare when you're e.g. copying from one stream to another (i.e. how much bytes you Read and then Write on one iteration). –  Pavel Minaev Dec 7 '09 at 21:26
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Why not let .Net handle it -> well, if there's something more optimal for large writes (which I don't know) I'd like to use that. Just try it -> Well, a stopwatch just tells me timings, it doesn't tell me if by using extremely large buffers I could cause other problems by stalling my program or other programs, or cause other unforeseen side-effects. The point is I don't know what the effects could be of the buffersize, therefore I ask you bunch of hyperintelligent people ! :-P –  Pygmy Dec 7 '09 at 21:34
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None of the hyperintelligent people know what other programs are running on your machine, much less your customers' machines. You're going to have to test this under real-world conditions, and you're the only one who knows what those real-world conditions are for your customers. –  Eric Lippert Dec 7 '09 at 22:20
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2 Answers

Default buffer size is 4 KiB.

Also, take a look here: Sequential File Programming Patterns and Performance with .NET

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msdn.microsoft.com/en-us/library/dd783870.aspx Default size is 4096 bytes –  VMAtm Jun 9 '13 at 10:23
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Just decompiled System.IO.FileStream. internal const int DefaultBufferSize = 4096; –  Vladimirs Nov 22 '13 at 12:38
    
@VMAtm - that reference is bogus (in terms of answering the question about what the FileStream class normally uses internally). The CopyTo buffer size is substantially larger, 80 KiB, to be exact. I did a write up on some of the IO file performance characteristics of .NET here (stackoverflow.com/questions/1540658/…) –  John Leidegren Dec 10 '13 at 11:46
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A quick little benchmark based on the document referenced shows no increase in performance on my system greater than 128KB buffer size. Your mileage may vary, feel free to use the below.

        Stopwatch sw = new Stopwatch();
        Random rand = new Random();  // seed a random number generator
        int numberOfBytes = 2 << 22; //8,192KB File
        byte nextByte;
        for (int i = 1; i <= 28; i++) //Limited loop to 28 to prevent out of memory
        {
            sw.Start();
            using (FileStream fs = new FileStream(
                String.Format(@"C:\TEMP\TEST{0}.DAT", i),  // name of file
                FileMode.Create,    // create or overwrite existing file
                FileAccess.Write,   // write-only access
                FileShare.None,     // no sharing
                2 << i,             // block transfer of i=18 -> size = 256 KB
                FileOptions.None))  
            {
                for (int j = 0; j < numberOfBytes; j++)
                {
                    nextByte = (byte)(rand.Next() % 256); // generate a random byte
                    fs.WriteByte(nextByte);               // write it
                } 
            }
            sw.Stop();
            Console.WriteLine(String.Format("Buffer is 2 << {0} Elapsed: {1}", i, sw.Elapsed));
            sw.Reset();
        }
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+1 for the benchmark code but the OP did ask for write buffer sizes. The approach is sound, however. –  James Dunne Dec 8 '09 at 2:06
    
Hm, your comment contradicts itself. You say size = 256 KB, but at the same time you claim i=18, and 2 << 18 is actually 512 KB. –  Timwi Mar 22 at 9:10
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