Sign up ×
Stack Overflow is a community of 4.7 million programmers, just like you, helping each other. Join them; it only takes a minute:

I am trying to so some performance analysis on multiple GPU with the OpenCV GPU libraries. However, I noticed the performance does not linearly scale. I am running the same operations on the same image on 4 GPUs using 4 threads simultaneously (using Windows _beginthreadex). Since the GPUs are independent, ideally the running time should be similar to running one image on one GPU. However it takes longer to process 4 images on 4 GPUs than 1 image on 1 GPU. To eliminate the effects of data transfer, I did these test with data pre-allocated on the device and did not copy any results to the host.

At first I thought it might be hardware issue but when I run with my own written kernels using streams, the results are linearly scaled.

Another related question:

I profiled with nsight and I noticed a lot of gaps in between kernel executions for the 4 GPU version. I also noticed many launches of "cudadevicesynchronize". I understand doing this will ensure the date integrity but does executing cudadevicesynchronize affect other threads or other devices?

Any insights or suggestions are welcome!

Thank you!

A simple test source code is listed here:

#include <iostream>
#include <process.h>
#include <cutil.h>
#include <cuda_runtime.h>
#include <opencv2/gpu/gpu.hpp>
#include <opencv2/core/core.hpp>
#include <opencv2/imgproc/imgproc.hpp>
#include <opencv2/highgui/highgui.hpp>
#include <time.h>

using namespace std;
using namespace cv;

#define MAX_GPU_N 4 //we are testing up to 4 gpus
#define RT 10       //Run the process for 10 times for averaging

//Define the thread data structure
struct GPU_INPUT{
    gpu::GpuMat *src;
    gpu::GpuMat *kernel;
    unsigned int gpuid;

//Define the thread function
unsigned __stdcall GPU_MAINFUN(void *input)
    GPU_INPUT* p=(GPU_INPUT*)input;

    gpu::ConvolveBuf buf;
    gpu::GpuMat res;
    for (int i=0;i<RT;i++)

    return 0;


int main()
    //Load the image and convert to float
    Mat img;
    img=imread("some large image");
    if (! {cout<<"Error reading img!"<<endl;return -1;}
    Mat kernel=Mat::ones(16,16,CV_32F); //Create filter kernel

    //define thread related data
    GPU_INPUT gthread[MAX_GPU_N];  //Create data for threads
    HANDLE gthreadHandles[MAX_GPU_N]; //Create space to store the thread handles

    //upload everything to GPU

    gpu::GpuMat gsrc[MAX_GPU_N];    //create GPU data types, values will be set later
    gpu::GpuMat gkernel[MAX_GPU_N];
    for (int j=0;j<MAX_GPU_N;j++)
        cudaSetDevice(j);           //Choose the proper device
        gsrc[j].upload(img);        //upload the image to the proper device
        gkernel[j].upload(kernel);  //upload the filter kernel to the proper device
        cudaDeviceSynchronize();    //Synchronize everything
        //organize and pass thread input data
        gthread[j].src=gsrc+j;      //Put the device pointer of src img to thread data
        gthread[j].kernel=gkernel+j;//Put the device pointer of kernel to the thread data
        gthread[j].gpuid=j;         //mark the device number

    //start the processing, the process will run on 1 GPU and measure the elapsed time ,then on 2 GPUs ,3, 4
    unsigned int timer;//create timer
    for (int gpu_n=1;gpu_n<=MAX_GPU_N;gpu_n++)
        for (int i=0;i<gpu_n;i++)
            //run on different threads

        for (int i=0;i<gpu_n;i++) CloseHandle(gthreadHandles[i]);

        cout<<"Average runtime with "<<gpu_n<<" thread(s) on GPU is "

    //Garbage collection
    for (int i=0;i<MAX_GPU_N;i++)


And I get results like this:

Average runtime with 1 thread(s) on GPU is 0.0420299
Average runtime with 2 thread(s) on GPU is 0.0224676
Average runtime with 3 thread(s) on GPU is 0.015945
Average runtime with 4 thread(s) on GPU is 0.012366

after conversion, I see the speed up is 2GPUs: 1.87, 3GPUs: 2.63, 4GPUs: 3.39 while it should be 2x for 2GPUs and 4x for 4GPUs.

Here I have a screenshot of the Nsight report:Nsight report

Thank you for helping out.

share|improve this question
Without code we can only guess at what is happening. Are you sure the different threads are using different GPUs (they won't automatically)? – harrism Sep 13 '12 at 2:38
If you are on Windows Vista or above and using the default WDDM driver then the issue may be that the work is not being submitted to the GPU. You can force the work to be submitted using cudaEventQuery with null event before submitting work to the GPU. I've seen this behavior multiple times when developers ported to multi-gpu. If you post a Nsight Visual Studio timeline with system and CUDA trace I may be able to identify the issue. – Greg Smith Sep 14 '12 at 5:08
Thank you guys for helping out. To @harrism, I am pretty sure the threads on running on different GPUs because I can see the occupancy in Nsight timeline. I used cudaSelectDevice to switch between different devices in the threads. I'll post my source code somewhere and put a link over here later. I hope this could be helpful. Also I have the Nsight Report and I will also post it later. Thank you. – sunviva Sep 14 '12 at 18:39
I have the source code as well as the nsight report in the dropbox, here are the links: src and report. Thank you. – sunviva Sep 15 '12 at 3:24
Posting via dropbox is discouraged, as these links will rot and people won't be able to benefit from them in the future. Please post the details inline. Create an as-simple-as-possible sample that reproduces the problem rather than posting your entire code. Most people aren't likely to download your code and unzip it... – harrism Sep 16 '12 at 22:56

Your Answer


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

Browse other questions tagged or ask your own question.