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I have a long-running process that reads large files and writes summary files. To speed things up, I'm processing multiple files simultaneously using regular old threads:

ThreadStart ts = new ThreadStart(Work);
Thread t = new Thread(ts);

What I've found is that even with separate threads reading separate files and no locking between them and using 4 threads on a 24-core box, I can't even get up to 10% on the CPU or 10% on disk I/O. If I use more threads in my app, it seems to run even more slowly.

I'd guess I'm doing something wrong, but where it gets curious is that if I start the whole exe a second and third time, then it actually processes files two and three times faster. My question is, why can't I get 12 threads in my one app to process data and tax the machine as well as 4 threads in 3 instances of my app?

I've profiled the app and the most time-intensive and frequently called functions are all string processing calls.

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Impossible to say without the actual code doing the file processing. –  Daniel Hilgarth Sep 29 '11 at 13:16
What did the profile run tell you about where the bottleneck is? –  Eric Lippert Sep 29 '11 at 13:19
There are should be some common places (which are accessed by the processing threads) with locking/synchronization code, could you share this sync code –  sll Sep 29 '11 at 13:19
Basically, the Work() function is simply reading a line from a gzipstream through a streamreader, parsing it and writing it to a buffer that is periodically committed to disk. –  powlette Sep 29 '11 at 13:20
Agree with Daniel, need more code. One thing you might look for is anything shared between the threads. If one thread is waiting for another to free up a resource this could slow things down. –  krs1 Sep 29 '11 at 13:23

4 Answers 4

It's possible that your computing problem is not CPU bound, but I/O bound. It doesn't help to state that your disk I/O is "only at 10%". I'm not sure such performance counter even exists.

The reason why it gets slower while using more threads is because those threads are all trying to get to their respective files at the same time, while the disk subsystem is having a hard time trying to accomodate all of the different threads. You see, even with a modern technology like SSDs where the seek time is several orders of magnitude smaller than with traditional hard drives, there's still a penalty involved.

Rather, you should conclude that your problem is disk bound and a single thread will probably be the fastest way to solve your problem.

One could argue that you could use asynchronous techniques to process a bit that's been read, while on the background the next bit is being read in, but I think you'll see very little performance improvement there.

I've had a similar problem not too long ago in a small tool where I wanted to calculate MD5 signatures of all the files on my harddrive and I found that the CPU is way too fast compared to the storage system and I got similar results trying to get more performance by using more threads.

Using the Task Parallel Library didn't alleviate this problem.

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I agree with what you're saying, but I don't understand why if disk i/o is the problem, I can process files faster using multiple executables over a single exe with more threads. I feel like I'm probably doing something wrong, but I don't know what since each thread operates independently. –  powlette Sep 29 '11 at 13:35
Does your process speed up when you don't do anything with the stuff you read? Perhaps you should disable this and check the result. I'm guessing part of the processing that you're doing has locking issues, even if you can't really see it yet. –  Dave Van den Eynde Sep 29 '11 at 13:49
How much faster is faster? Are we talking about single or double digit performance increases? –  Ramhound Sep 29 '11 at 13:49
Do you BUFFER the files or use FileReader to a Gzip stream? Then... welcome in IO hell. –  TomTom Sep 30 '11 at 4:56

First of all on a 24 core box if you are using only 4 threads the most cpu it could ever use is 16.7% so really you are getting 60% utilization, which is fairly good.

It is hard to tell if your program is I/O bound at this point, my guess is that is is. You need to run a profiler on your project and see what sections of code your project is spending the most of it's time. If it is sitting on a read/write operation it is I/O bound.

It is possable you have some form of inter-thread locking being used. That would cause the program to slow down as you add more threads, and yes running a second process would fix that but fixing your locking would too.

What it all boils down to is without profiling information we can not say if using a second process will speed things up or make things slower, we need to know if the program is hanging on a I/O operation, a locking operation, or just taking a long time in a function that can be parallelized better.

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This is a good one - seems the poster is bad at first level math, and the rest of the other people either. Here is the explanation: A thread runs only on one core. Ever. Can not work on 2 cores at the same time. So with 100% use of 4 cores.... of 24.... the level of usage os 4/24 = 16.7 maximum (+ a little for the OS) anyway. Physically impossible to get more. Want 100%? Move to a 4 core machine. –  TomTom Sep 30 '11 at 4:57
@TomTom As you can read in the question, after the 4 threads the application actually looses performance. In addition, in my 4 Core machine, the same behaviour is experienced when I put more than 2 threads in some intensive task. It is obvious to me that an application has a maximun timeslice allocated by the OS and all its threads must share this timeslice. –  ThunderGr Nov 22 '12 at 7:24
@ThunderGr Each thread get's it's own timeslice, that is the point of a thread. A single core machine can run one concurrent timeslice, a duo core can run two concurrent time slices, ect... The poster's issue is that is that CPU processing power is not his problem, his program is waiting on either the disk to return some IO or some resource that has a lock on it to be freed. Adding more threads increases the scarcity of whatever his program is running short on and makes it run slower –  Scott Chamberlain Nov 23 '12 at 3:14
And how can this explain the fact that, when the poster starts a new process, the work speeds up? If the IO or resource is locked wouldn't this affect the new processes as well? –  ThunderGr Nov 23 '12 at 7:52
@ThunderGr How did you get that from the OP when he said "If I use more threads in my app, it seems to run even more slowly." –  Scott Chamberlain Nov 23 '12 at 16:27

I think you find out what file cache is not ideal in case when one proccess write data in many file concurrently. File cache should sync to disk when the number of dirty page cache exceeds a threshold. It seems concurrent writers in one proccess hit threshold faster than the single thread writer. You can read read about file system cache here File Cache Performance and Tuning

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Try using Task library from .net 4 (System.Threading.Task). This library have built-in optimizations for different number of processors.

Have no clue what is you problem, maybe because your code snippet is not really informative

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Using the Task library will not solve his problem, he already is using Threads, which when you dig down deep enough is what Task will be using. –  Ramhound Sep 29 '11 at 13:50
Thanks for the info, capt. I just meant that task library has scheduling and thread count optimizations. That's not the same as you're using rough threads. Have a good day –  Sergei Bedulenko Sep 29 '11 at 15:06

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