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Anyone can confirm this for me?

I tested this on a GeForce Titan. Even through from the programming guide, Nvidia claimed there are error function (erf()) that can take double precision arguments, whenever I call this erf() within a kernel, it returns no results. However, the single precision version of error function, erff() works flawlessly.

The erf() doesn't work even if CUDA FP64 computation is enabled in the control panel, the driver is the latest 314.22 WHQL and the OS is Windows 7 64 bit, and CUDA 5.0, the C compiler is from VS2010, the building option is set to be 64-bit.

Is this function only supported on Tesla or it is totally broken at the moment?


static __global__ void erftest(double * in, double * out)




I also find not just the error function, but the FP64 version of many variations of error functions, like erfc(), erfinvc(), etc, also doesn't work here.

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It should be supported on GTX titan. How are you determining that a floating point exception occurred? After you switched the CUDA - Double Precision option in the control panel, did you reboot? Can you post a piece of code that is failing? –  Robert Crovella Mar 30 '13 at 22:53
Make sure the code is compiled with -arch=sm_35. Without any flags given, nvcc compiles CUDA for an sm_10 target which doesn't support double precision. –  njuffa Mar 31 '13 at 0:15
@njuffa: I have the arch SM35 compute capability 35 flag set all the time, and the titan card has been doing FP64 ops all the time, until computing error functions, there is no problem found, anyway i have to resort to hand-coding numerical approximation of error function. –  user0002128 Mar 31 '13 at 5:56
You state that trying to use erf() causes a floating-point exception, yet there is no support for floating-point exceptions on the GPU. Are you sure your problem isn't in the host portion of your code? Does your code check the status of every CUDA API call? Can you show a minimal but complete (compilable, runnable) example that reproduces your issue as well as the exact commandline by which nvcc is invoked? –  njuffa Mar 31 '13 at 6:07
Double-precision erf(), erfc(), erfinv(), etc in kernels works fine on every GPU I have ever tried. I suspect that when switching from float to double a relevant CUDA API call (such as a cudaMalloc() or cudaMemcpy() call) was not adjusted accordingly. Check the sizeof() invocations, for example). –  njuffa Mar 31 '13 at 7:11

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