Reputation: 62469
I need to time a CUDA kernel execution. The Best Practices Guide says that we can use either events or standard timing functions like clock()
in Windows. My problem is that using these two functions gives me a totally different result.
In fact, the result given by events seems to be huge compared to the actual speed in practice.
What I actually need all this for is to be able to predict the running time of a computation by first running a reduced version of it on a smaller data set. Unfortunately, the results of this benchmark are totally unrealistic, being either too optimistic (clock()
) or waaaay too pessimistic (events).
Upvotes: 18
Views: 39305
Reputation: 17477
There is an out-of-box GpuTimer struct for use:
#ifndef __GPU_TIMER_H__
#define __GPU_TIMER_H__
struct GpuTimer
{
cudaEvent_t start;
cudaEvent_t stop;
GpuTimer()
{
cudaEventCreate(&start);
cudaEventCreate(&stop);
}
~GpuTimer()
{
cudaEventDestroy(start);
cudaEventDestroy(stop);
}
void Start()
{
cudaEventRecord(start, 0);
}
void Stop()
{
cudaEventRecord(stop, 0);
}
float Elapsed()
{
float elapsed;
cudaEventSynchronize(stop);
cudaEventElapsedTime(&elapsed, start, stop);
return elapsed;
}
};
#endif /* __GPU_TIMER_H__ */
Upvotes: 12
Reputation: 3720
You could do something along the lines of :
#include <sys/time.h>
struct timeval t1, t2;
gettimeofday(&t1, 0);
kernel_call<<<dimGrid, dimBlock, 0>>>();
HANDLE_ERROR(cudaThreadSynchronize();)
gettimeofday(&t2, 0);
double time = (1000000.0*(t2.tv_sec-t1.tv_sec) + t2.tv_usec-t1.tv_usec)/1000.0;
printf("Time to generate: %3.1f ms \n", time);
or:
float time;
cudaEvent_t start, stop;
HANDLE_ERROR( cudaEventCreate(&start) );
HANDLE_ERROR( cudaEventCreate(&stop) );
HANDLE_ERROR( cudaEventRecord(start, 0) );
kernel_call<<<dimGrid, dimBlock, 0>>>();
HANDLE_ERROR( cudaEventRecord(stop, 0) );
HANDLE_ERROR( cudaEventSynchronize(stop) );
HANDLE_ERROR( cudaEventElapsedTime(&time, start, stop) );
printf("Time to generate: %3.1f ms \n", time);
Upvotes: 27
Reputation: 21515
A satisfactory answer has been already given to your question.
I have constructed classes for timing C/C++ as well as CUDA operations and want to share with other hoping they could be helpful to next users. You will just need to add the 4
files reported below to your project and #include
the two header files as
// --- Timing includes
#include "TimingCPU.h"
#include "TimingGPU.cuh"
The two classes can be used as follows.
Timing CPU section
TimingCPU timer_CPU;
timer_CPU.StartCounter();
CPU perations to be timed
std::cout << "CPU Timing = " << timer_CPU.GetCounter() << " ms" << std::endl;
Timing GPU section
TimingGPU timer_GPU;
timer_GPU.StartCounter();
GPU perations to be timed
std::cout << "GPU Timing = " << timer_GPU.GetCounter() << " ms" << std::endl;
In both the cases, the timing is in milliseconds. Also, the two classes can be used under linux or windows.
Here are the 4
files:
TimingCPU.cpp
/**************/
/* TIMING CPU */
/**************/
#include "TimingCPU.h"
#ifdef __linux__
#include <sys/time.h>
#include <stdio.h>
TimingCPU::TimingCPU(): cur_time_(0) { StartCounter(); }
TimingCPU::~TimingCPU() { }
void TimingCPU::StartCounter()
{
struct timeval time;
if(gettimeofday( &time, 0 )) return;
cur_time_ = 1000000 * time.tv_sec + time.tv_usec;
}
double TimingCPU::GetCounter()
{
struct timeval time;
if(gettimeofday( &time, 0 )) return -1;
long cur_time = 1000000 * time.tv_sec + time.tv_usec;
double sec = (cur_time - cur_time_) / 1000000.0;
if(sec < 0) sec += 86400;
cur_time_ = cur_time;
return 1000.*sec;
}
#elif _WIN32 || _WIN64
#include <windows.h>
#include <iostream>
struct PrivateTimingCPU {
double PCFreq;
__int64 CounterStart;
};
// --- Default constructor
TimingCPU::TimingCPU() { privateTimingCPU = new PrivateTimingCPU; (*privateTimingCPU).PCFreq = 0.0; (*privateTimingCPU).CounterStart = 0; }
// --- Default destructor
TimingCPU::~TimingCPU() { }
// --- Starts the timing
void TimingCPU::StartCounter()
{
LARGE_INTEGER li;
if(!QueryPerformanceFrequency(&li)) std::cout << "QueryPerformanceFrequency failed!\n";
(*privateTimingCPU).PCFreq = double(li.QuadPart)/1000.0;
QueryPerformanceCounter(&li);
(*privateTimingCPU).CounterStart = li.QuadPart;
}
// --- Gets the timing counter in ms
double TimingCPU::GetCounter()
{
LARGE_INTEGER li;
QueryPerformanceCounter(&li);
return double(li.QuadPart-(*privateTimingCPU).CounterStart)/(*privateTimingCPU).PCFreq;
}
#endif
TimingCPU.h
// 1 micro-second accuracy
// Returns the time in seconds
#ifndef __TIMINGCPU_H__
#define __TIMINGCPU_H__
#ifdef __linux__
class TimingCPU {
private:
long cur_time_;
public:
TimingCPU();
~TimingCPU();
void StartCounter();
double GetCounter();
};
#elif _WIN32 || _WIN64
struct PrivateTimingCPU;
class TimingCPU
{
private:
PrivateTimingCPU *privateTimingCPU;
public:
TimingCPU();
~TimingCPU();
void StartCounter();
double GetCounter();
}; // TimingCPU class
#endif
#endif
TimingGPU.cu
/**************/
/* TIMING GPU */
/**************/
#include "TimingGPU.cuh"
#include <cuda.h>
#include <cuda_runtime.h>
struct PrivateTimingGPU {
cudaEvent_t start;
cudaEvent_t stop;
};
// default constructor
TimingGPU::TimingGPU() { privateTimingGPU = new PrivateTimingGPU; }
// default destructor
TimingGPU::~TimingGPU() { }
void TimingGPU::StartCounter()
{
cudaEventCreate(&((*privateTimingGPU).start));
cudaEventCreate(&((*privateTimingGPU).stop));
cudaEventRecord((*privateTimingGPU).start,0);
}
void TimingGPU::StartCounterFlags()
{
int eventflags = cudaEventBlockingSync;
cudaEventCreateWithFlags(&((*privateTimingGPU).start),eventflags);
cudaEventCreateWithFlags(&((*privateTimingGPU).stop),eventflags);
cudaEventRecord((*privateTimingGPU).start,0);
}
// Gets the counter in ms
float TimingGPU::GetCounter()
{
float time;
cudaEventRecord((*privateTimingGPU).stop, 0);
cudaEventSynchronize((*privateTimingGPU).stop);
cudaEventElapsedTime(&time,(*privateTimingGPU).start,(*privateTimingGPU).stop);
return time;
}
TimingGPU.cuh
#ifndef __TIMING_CUH__
#define __TIMING_CUH__
/**************/
/* TIMING GPU */
/**************/
// Events are a part of CUDA API and provide a system independent way to measure execution times on CUDA devices with approximately 0.5
// microsecond precision.
struct PrivateTimingGPU;
class TimingGPU
{
private:
PrivateTimingGPU *privateTimingGPU;
public:
TimingGPU();
~TimingGPU();
void StartCounter();
void StartCounterFlags();
float GetCounter();
}; // TimingCPU class
#endif
Upvotes: 8
Reputation: 6753
You can use the compute visula profiler which will be great for your purpose. it measures the time of every cuda function and tells you how many times you called it .
Upvotes: 1
Reputation: 12249
If you want to measure GPU time you pretty much have to use events. Theres a great discussion thread on the do's and don'ts of timing your application over on the nvidia forums here.
Upvotes: 2