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In my program I am simulating a N-body system for a large number of iterations. For each iteration I produce a set of 6N coordinates which I need to append to a file and then use for executing the next iteration. The code is written in C++ and currently makes use of ofstream's method write() to write the data in binary format at each iteration.

I am not an expert in this field, but I would like to improve this part of the program, since I am in the process of optimizing the whole code. I feel that the latency associated with writing the result of the computation at each cycle significantly slows down the performance of the software.

I'm confused because I have no experience in actual parallel programming and low level file I/O. I thought of some abstract techniques that I imagined I could implement, since I am programming for modern (possibly multi-core) machines with Unix OSes:

  • Writing the data in the file in chunks of n iterations (there seem to be better ways to proceed...)
  • Parallelizing the code with OpenMP (how to actually implement a buffer so that the threads are synchronized appropriately, and do not overlap?)
  • Using mmap (the file size could be huge, on the order of GBs, is this approach robust enough?)

However, I don't know how to best implement them and combine them appropriately.

share|improve this question
What's your question? – Lightness Races in Orbit Jan 3 '12 at 16:16
"I feel that the latency associated with writing the result of the computation at each cycle significantly slows down the performance of the software." do you feel it or you profiled your code? – Alessandro Teruzzi Jan 3 '12 at 16:19
Have you profiled the code to make sure your feelings about the latency are correct? – Grizzly Jan 3 '12 at 16:22
@LightnessRacesinOrbit What could be the fastest techniques for writing the data and doing the computation at the same time and how to implement them. I know it is a very basic question, but I am not an expert in implementing even simple optimizations, such as a buffer. So I would like to know what APIs and techniques I should study – Fiat Lux Jan 3 '12 at 16:25
If you want intelligent suggestions you need to give some numbers. – Steve C Jan 3 '12 at 16:27
up vote 3 down vote accepted

Of course writing into a file at each iteration is inefficient and most likely slow down your computing. (as a rule of thumb, depends on your actuel case)

You have to use a producer -> consumer design pattern. They will be linked by a queue, like a conveyor belt.

  • The producer will try to produce as fast as it can, only slowing if the consumer can't handle it.
  • The consumer will try to "consume" as fast as it can.

By splitting the two, you can increase performance more easily because each process is simpler and has less interferences from the other.

  • If the producer is faster, you need to improve the consumer, in your case by writing into file in the most efficient way, chunk by chunk most likely (as you said)
  • If the consumer is faster, you need to improve the producer, most likely by parallelizing it as you said.

There is no need to optimize both. Only optimize the slowest (the bottleneck).

Practically, you use threads and a synchronized queue between them. For implementation hints, have a look here, especially §18.12 "The Producer-Consumer Pattern".

About flow management, you'll have to add a little bit more complexity by selecting a "max queue size" and making the producer(s) wait if the queue has not enough space. Beware of deadlocks then, code it carefully. (see the wikipedia link I gave about that)

Note : It's a good idea to use boost threads because threads are not very portable. (well, they are since C++0x but C++0x availability is not yet good)

share|improve this answer
But, given the size of the data, how to handle the case where the producer is so fast that it produces something that cannot be stored in memory before the consumer manages to save it to the disk? – Fiat Lux Jan 3 '12 at 16:43
@Fiat Lux Well if you produce data faster than can be stored on your filesystem you have a pretty basic problem completely independent of any software tricks you do. If your bandwidth is too small, sooner or later you'll run out of buffer space and then you'll have to handle that case anyhow. – Voo Jan 3 '12 at 16:53
@FiatLux that's why I said "procducer...only slowing if the consumer can't handle it". I edited to add a link to an implementation example + suggested improvements. You'll have to make the producers wait if memory is full. – Offirmo Jan 3 '12 at 16:54
@FiatLux, then you have to use some quicker hardware, no less than that... – vines Jan 3 '12 at 16:55

It's better to split operation into two independent processes: data-producing and file-writing. Data-producing would use some buffer for iteration-wise data passing, and file-writing would use a queue to store write requests. Then, data-producing would just post a write request and go on, while file-writing would cope with the writing in the background.

Essentially, if the data is produced much faster than it can possibly be stored, you'll quickly end up holding most of it in the buffer. In that case your actual approach seems to be quite reasonable as is, since little can be done programmatically then to improve the situation.

share|improve this answer
Why do you think you can do a better job of buffering than the OS block cache already does? – Steve C Jan 3 '12 at 16:37
@SteveC Because it's generally better to implement the algorithm in the deterministic way, than rely upon implementation-dependent features. I mean, block cache is good, but it might or might not fit the specific situation. It might not be as portable, it might not be as fast, etc., and the OP wasn't too specific anyway :) – vines Jan 3 '12 at 16:49
In that case you should not go through two layers of buffering, but just bypass the filesystem and write to the raw disk. That's "more deterministic" and you can "make it fit the specific situation". Personally, I doubt you can do a better job than the filesystem authors. – Steve C Jan 3 '12 at 19:09
@SteveC: I wouldn't even try to, but you've missed the point. Which is: versatile program languages are agnostic to any undelying OS support (and C++ is). OS buffering may be switched off or completely absent for many reasons, and we can't rely on it unless its presence is explicitly required or guaranteed. – vines Jan 8 '12 at 1:27

If you don't want to play with doing stuff in a different threads, you could try using aio_write(), which allows asynchronous writes. Essentially you give the OS the buffer to write, and the function returns immediately, and finishes the the write while your program continues, you can check later to see if the write has completed.

This solution still does suffer from the producer/consumer problem mentioned in other answers, if your algorithm is producing data faster than it can be written, eventually you will run out of memory to store the results between the algorithm and the write, so you'd have to try it and see how it works out.

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"Using mmap (the file size could be huge, on the order of GBs, is this approach robust enough?)"

mmap is the OS's method of loading programs, shared libraries and the page/swap file - it's as robust as any other file I/O and generally higher performance.

BUT on most OS's it's bad/difficult/impossible to expand the size of a mapped file while it's being used. So if you know the size of the data, or you are only reading, it's great. For a log/dump that you are continually adding to it's less sutiable - unless you know some maximum size.

share|improve this answer
I know the size of the data, but there will be no problem with 32 bit systems if I have a file of some gigabytes? – Fiat Lux Jan 3 '12 at 16:38
@Fiat - that's the big advantage of mmap. You can map multiple views into the file with offsets so you can use a window to access any part of a file as big as your FS will allow. The details depend on your OS – Martin Beckett Jan 3 '12 at 16:42

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