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I have read some papers talking about "persistent threads" for GPGPU, but I don't really understand it. Can any one give me an example or show me the use of this programming fashion?

What I keep in my mind after reading and googling "persistent threads":

Presistent Threads it's no more than a while loop that keep thread running and computing a lot of bunch of works.

Is this correct? Thanks in advance

Reference: http://www.idav.ucdavis.edu/publications/print_pub?pub_id=1089 http://developer.download.nvidia.com/GTC/PDF/GTC2012/PresentationPDF/S0157-GTC2012-Persistent-Threads-Computing.pdf

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  • Perhaps you should include some specific references to the papers that talk about "Persistent threads". Feb 11, 2013 at 21:51
  • done: A Study of Persistent Threads Style GPU Programming for GPGPU Workloads
    – AmineMs
    Feb 12, 2013 at 7:06
  • You may get some additional useful insights if you watch the presentation. My read of it is that it is more or less as you describe, meaning a kernel that does not exit and is continually polling for work from a queue in global memory. Feb 12, 2013 at 14:52

2 Answers 2

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CUDA exploits the Single Instruction Multiple Data (SIMD) programming model. The computational threads are organized in blocks and the thread blocks are assigned to a different Streaming Multiprocessor (SM). The execution of a thread block on a SM is performed by arranging the threads in warps of 32 threads: each warp operates in lock-step and executes exactly the same instruction on different data.

Generally, to fill up the GPU, the kernel is launched with much more blocks that can actually be hosted on the SMs. Since not all the blocks can be hosted on a SM, a work scheduler performs a context switch when a block has finished computing. It should be noticed that the switching of the blocks is managed entirely in hardware by the scheduler, and the programmer has no means of influencing how blocks are scheduled onto the SM. This exposes a limitation for all those algorithms that do not perfectly fit a SIMD programming model and for which there is work imbalance. Indeed, a block A will not be replaced by another block B on the same SM until the last thread of block A will not have finished to execute.

Although CUDA does not expose the hardware scheduler to the programmer, the persistent threads style bypasses the hardware scheduler by relying on a work queue. When a block finishes, it checks the queue for more work and continues doing so until no work is left, at which point the block retires. In this way, the kernel is launched with as many blocks as the number of available SMs.

The persistent threads technique is better illustrated by the following example, which has been taken from the presentation

“GPGPU” computing and the CUDA/OpenCL Programming Model

Another more detailed example is available in the paper

Understanding the efficiency of ray traversal on GPUs

// Persistent thread: Run until work is done, processing multiple work per thread
// rather than just one. Terminates when no more work is available

// count represents the number of data to be processed

__global__  void persistent(int* ahead, int* bhead, int count, float* a, float* b)
{
    int local_input_data_index, local_output_data_index;
while ((local_input_data_index = read_and_increment(ahead)) <   count)
{                                   
        load_locally(a[local_input_data_index]);

        do_work_with_locally_loaded_data();

        int out_index = read_and_increment(bhead);

        write_result(b[out_index]);
    }
}

// Launch exactly enough threads to fill up machine (to achieve sufficient parallelism 
// and latency hiding)
persistent<<numBlocks,blockSize>>(ahead_addr, bhead_addr, total_count, A, B);
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  • 2
    vote up for emphasizing the point that exactly enough threads be launched to saturate the hardware
    – biubiuty
    Dec 3, 2014 at 19:32
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Quite easy to understand. Usually each work item processed a small amount of work. If you want to save save workgroup switch time, you can let one work item process a lot of work using a loop. For instance, you have one image, and it is 1920x1080, you have 1920 workitem, and each work item processes one column of 1080 pixels using loop.

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