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I am a bit confused about the usage of cudaEvent_t. Currently, I am using the clock() call like this to find the duration of a kernel call:

cudaThreadSynchronize();
clock_t begin = clock();

fooKernel<<< x, y >>>( z, w );

cudaThreadSynchronize();
clock_t end = clock();

// Print time difference: ( end - begin )

Looking for a timer of higher-resolution I am considering using cudaEvent_t. Do I need to call cudaThreadSynchronize() before I note down the time using cudaEventRecord() or is it redundant?

The reason I am asking is because there is another call cudaEventSynchronize(), which seems to wait until the event is recorded. If the recording is delayed, won't the time difference that is calculated show some extra time after the kernel has finished execution?

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1 Answer

up vote 8 down vote accepted

Actually there are even more synchronization functions (cudaStreamSynchronize). The programming guide has a detailed description what every one of those does. Using events as timers basically comes down to this:

//create events
cudaEvent_t event1, event2;
cudaEventCreate(&event1);
cudaEventCreate(&event2);

//record events around kernel launch
cudaEventRecord(event1, 0); //where 0 is the default stream
kernel<<<grid,block>>>(...); //also using the default stream
cudaEventRecord(event2, 0);

//synchronize
cudaEventSynchronize(event1); //optional
cudaEventSynchronize(event2); //wait for the event to be executed!

//calculate time
float dt_ms;
cudaEventElapsedTime(&dt_ms, event1, event2);

It's important to synchronize on event2 because you want to make sure everything got executed before calculating the time. As both events and the kernel are on the same stream (order is preserved) event1 and kernel got executed too.

You could call cudaStreamSynchronize or even cudaThreadSynchronize instead but both are overkill in this case.

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LumpN: Why isn't the event recorded as soon cudaEventRecord is called? If it is not recorded on that call, how is it representing the time taken by that kernel? –  Ashwin Apr 27 '11 at 9:25
3  
@Ashwin: The event is recorded when it reaches to top of stream, which is acting like a FIFO. When you call cudaEventRecord, you are pushing an event into the stream. If there is work in the stream ahead of the event, the event sits unprocessed in the stream FIFO until every operation ahead of it has completed. All these calls are asynchronous with respect to the calling host thread. –  talonmies Apr 27 '11 at 9:35
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