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.

In OpenCL, all the threads need to compute few common values. Which of the following two cases is faster? 1. All the threads compute the values, store in the private memory and no synchronization required among threads. 2. One thread computes and stores in local memory. Synchronized by a barrier. All the threads of the work group access the values in the local memory.


share|improve this question
add comment

2 Answers

Is there any correct answer to this, given the range of devices on which OpenCL executes (e.g. various GPUs, various CPUs, and the Cell BE)? The performance characteristics will vary greatly between CPU and GPU, and potentially also between GPU vendors and models.

You will have to measure, on the platforms and implementations of interest to you or your users.

Is it possible in your case to pre-compute the few common values on the host, and pass them in as either dynamic parameters to the OpenCL kernel, or as compile time parameters to the OpenCL kernel?

share|improve this answer
add comment

Depends on the complexity of calculating those common values, and how many work items are able to run in parallel.

Lets say the time to calculate the common values is A, the time to do the rest of the calculation is B, and the overhead for the barrier is AO & BO (A part and B part). We can calculate the time for each option.

  • Option 1 and a single thread and 1000 work items: 1000A + 1000B
  • Option 2 and a single thread and 1000 work items: A + AO + 1000B + 1000BO
  • Option 1 with 1000 threads and 1000 work items : A + B
  • Option 2 with 1000 threads and 1000 work items : A + AO + B + BO

When you've got as many threads as work items, option 2 is obviously slower. When you've got a single thread, if BO is small compared to A, option 2 is probably quicker.

The truth is probably somewhere in the middle.

Option 3 is have the host calculate these values and put the results in constant memory. If you do this, and use a little double buffering you can probably hide the time to calculate the next set of common values whilst you're waiting for OpenCL to do the current calculation.

share|improve this answer
It's actually not quite that simple, since it isn't guaranteed that all threads can execute in parallel, so for 1000 threads it can be something like n*A+n*B for option 1, while being A+n*AO+n*B+n*BO for option 2. And I have to admit I don't understand how the single thread examples make sense. Why would that one thread recalculate A a 1000 times when it wouldn't even need a barrier to syncronize with itself? –  Grizzly Oct 18 '11 at 13:24
Furthermore, depending on the architecture and how exactly A is calculated, there might be resource conflicts making the calculation of A slower when several threads attempt to do it in parallel (e.g. because they are all trying to access the same memory and the architecture can't handle broadcasts), making it m*n*A+n*B for option 1 with m>=1. So in the end it's not really possible to give any answer without nowing the architecture, amount of threads and the costs of calculating A vs the Cost of a barrier –  Grizzly Oct 18 '11 at 13:35
add comment

Your Answer


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.