Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I've word a bit with parallel processing in college and now I'm trying to get better at it. I can write code that can run in parallel and then start up threads, but after that I loose control over what the threads do. I would like to know how I can control the threads to things like for example bind a specific thread to a specific processor core.

I am mostly interested in c++ but I've done some coding of this in Java so those answers are also welcome.

share|improve this question
2  
Are you sure you want to be doing this? In many cases, it's better to let the OS and/or JVM make scheduling decisions. –  David Gelhar Jul 22 '10 at 16:25
    
It's more for testing purposes that I want to do it. –  user381261 Jul 22 '10 at 16:31
add comment

3 Answers

up vote 3 down vote accepted

I'm answering in Java perspective: That's not possible. The best what you can control is the thread priority. To force Java to run on certain CPU/core, you have to do it in a platform specific way. In Windows for example, you can do that in the task manager by locating the process in the Processes tab, rightclicking the process in question (usually java.exe), choosing Set Affinity and tick the CPU's/cores.

enter image description here

As you might guess, this indeed globally sets the affinity, not on basis of threads you create in Java.

share|improve this answer
    
So would the way to get around this in Java be to use multiple processes instead of threads? –  user381261 Jul 22 '10 at 16:30
    
In theory, yes. In practice, don't worry. The OS is doing this job better. If your sole purpose is writing for example a benchmark program, rather look for OS-native languages like C++. –  BalusC Jul 22 '10 at 16:42
add comment

On Windows, you can use SetThreadAffinityMask to set the processor affinity for a thread.

share|improve this answer
add comment

Contrary to the advice of some of the other respondents, for some systems (certainly high frequency trading and no doubt many other very low-latency systems such as search engines), binding a thread to a CPU core (or for hyper-threaded cores, a single CPU thread) can have enormous performance benefits.

The naive but increasingly rejected view is that increasing threads (within reason) increases throughput for such systems. However, the evidence is increasing that when designed properly, solutions which use very few threads for the majority of processing are likely to outperform high-concurrency solutions considerably - sometimes by factors of ten, or even one hundred.

The principal reason for this is context switching. Context switching is the process in which one CPU flushes its working environment for the current thread to cache-RAM (if you're lucky) or main RAM (if you're not), and reads in the working environment for the next thread - and it is one of the most expensive operations which a low-latency system can perform.

If you wish to minimise context switching where low latency is paramount, certain critical processes may well be best restricted to a single core or CPU thread. Where it is necessary for multiple threads to read or write data which is managed by those critical thread-restricted processes, you might wish to look at the "Disruptor" pattern, which uses a ring buffer plus a number of clever tricks to allow very fast access to shared data whilst hardly ever requiring an exclusive lock on that data (linked below).

To achieve thread affinity (CPU binding) tasks in an OS-independent manner in Java, you can use Peter Lawrey's Java Thread Affinity library, also linked below. Also note the example in which Peter binds a reader thread to one hyper-thread of a hyper-threaded core, and a writer thread to the other one, a trick which I could envisage having appreciable benefits (though I have not tried it).

Barney

http://lmax-exchange.github.io/disruptor/

https://github.com/peter-lawrey/Java-Thread-Affinity/wiki/How-it-works

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.