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I know that there is function clock() in CUDA where you can put in kernel code and query the GPU time. But I wonder if such a thing exists in OpenCL? Is there any way to query the GPU time in OpenCL? (I'm using NVIDIA's tool kit).

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4 Answers 4

up vote 2 down vote accepted

The NVIDIA OpenCL SDK has an example Using Inline PTX with OpenCL. The clock register is accessible through inline PTX as the special register %clock. %clock is described in PTX: Parallel Thread Execution ISA manual. You should be able to replace the %%laneid with %%clock.

I have never tested this with OpenCL but use it in CUDA.

Please be warned that the compiler may reorder or remove the register read.

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Yes, this is the most possible solution so far I would say. Thanks! –  thanhtuan Oct 18 '12 at 6:15

There is no OpenCL way to query clock cycles directly. However, OpenCL does have a profiling mechanism that exposes incremental counters on compute devices. By comparing the differences between ordered events, elapsed times can be measured. See clGetEventProfilingInfo.

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I think that would give the execution time of the whole kernel. But I want to query timing for a specific number of work-items or work-groups. Is there any way to do this? –  thanhtuan Jan 14 '12 at 5:37
    
Not directly, but you could enqueue a kernel with a specific number of work items or work groups and profile it. –  vocaro Jan 18 '12 at 3:50
    
Yeah I got what you meant. But things are a little bit more complicated. The timing of a work-item is different depending on how many work-items are there in total. For example if there are resources contention then executing only one work-group will be faster than having multiple work-groups together. So I guess profiling (timing) individual work-items, or even work-groups is not yet implemented in OpenCL. –  thanhtuan Jan 20 '12 at 5:32

Just for others coming her for help: Short introduction to profiling kernel runtime with OpenCL

Enable profiling mode:

cmdQueue = clCreateCommandQueue(context, *devices, CL_QUEUE_PROFILING_ENABLE, &err);

Profiling kernel:

cl_event prof_event; 
clEnqueueNDRangeKernel(cmdQueue, kernel, 1 , 0, globalWorkSize, NULL, 0, NULL, &prof_event);

Read profiling data in:

cl_ulong ev_start_time=(cl_ulong)0;     
cl_ulong ev_end_time=(cl_ulong)0;   

clFinish(cmdQueue);
err = clWaitForEvents(1, &prof_event);
err |= clGetEventProfilingInfo(prof_event, CL_PROFILING_COMMAND_START, sizeof(cl_ulong), &ev_start_time, NULL);
err |= clGetEventProfilingInfo(prof_event, CL_PROFILING_COMMAND_END, sizeof(cl_ulong), &ev_end_time, NULL);

Calculate kernel execution time:

float run_time_gpu = (float)(ev_end_time - ev_start_time)/1000; // in usec

Profiling of individual work-items / work-goups is NOT possible yet. You can set globalWorkSize = localWorkSize for profiling. Then you have only one workgroup.

Btw: Profiling of a single work-item (some work-items) isn't very helpful. With only some work-items you won't be able to hide memory latencies and the overhead leading to not meaningful measurements.

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NVIDIA Nsight Visual Studio Edition performs the aforementioned tasks transparent to your application and displays the information in a tabular view as well as on a timeline. The tool works on most OpenCL platforms as it works at the ICD layer. OpenCL does not support a mechanism to synchronize the CPU and GPU timers so the timeline may have synchronization problems (skew, drift) on non-NVIDIA platforms. Other OpenCL vendors have similar tools. –  Greg Smith Oct 17 '12 at 23:06

Try this (Only work with NVidia OpenCL of course) :

uint clock_time()
{
    uint clock_time;
    asm("mov.u32 %0, %%clock;" : "=r"(clock_time));
    return clock_time;
}
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update: since ptx version 2.0 there is a %clock64 register too –  isti_spl Apr 17 '13 at 13:01

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