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I am very new to cuda and started reading about parallel programming and cuda just a few weeks ago. After I installed the cuda toolkit, I was browsing the sdk samples (which come with the installation of the toolkit) and wanted to try some of them out. I started with matrixMul from 0_Simple folder. This program executes fine (I am using Visual Studio 2010). Now I want to change the size of the matrices and try with a bigger one (for example 960X960 or 1024x1024). In this case, something crashes (I get black screen, and then the message: display driver stopped responding and has recovered).

I am changing this two lines in the code (from main function):

    dim3 dimsA(8*4*block_size, 8*4*block_size, 1);
    dim3 dimsB(8*4*block_size, 8*4*block_size, 1);

before they were:

dim3 dimsA(5*2*block_size, 5*2*block_size, 1);
dim3 dimsB(5*2*block_size, 5*2*block_size, 1);

Can someone point to me what I am doing wrong. and should I alter something else in this example for it to work properly. Thx!

Edit: like some of you suggested, i changed the timeout value (0 somehow did not work for me, I set the timeout to 60), so my driver does not crash, but I get huge list of errors, like: ... ... ...

Error! Matrix[409598]=6.40005159, ref=6.39999986 error term is > 1e-5
Error! Matrix[409599]=6.40005159, ref=6.39999986 error term is > 1e-5

Does this got something to do with the allocation of the memory. Should I make changes there and what could they be?

share|improve this question
Its a windows tdr event. If kernel execution takes more than about 2 seconds on a windows display gpu windows will detect this as a timeout and reset the gpu and reload the driver. its not easily fixable. – Robert Crovella Dec 10 '12 at 21:53
So u are saying that with this simple sample code I can't multiply matrices with this dimensions? Because I have an assignment where I need to use simple examples to multiply big size matrices and then measure the time of execution per core and overall.. – Sandra Dec 10 '12 at 22:42
See if 6*3*block_size works. If so keep bumping up the size till you find the failure point. – Robert Crovella Dec 11 '12 at 0:39
up vote 1 down vote accepted

Your new problem is actually just the strict tolerances provided in the NVidia example. Your kernel is running correctly. It's just complaining that accumluated error is greater than the limit that they had set for this example. This is just because you're doing a lot more math operations which are all accumulating error. If you look at the numbers it's giving you, you're only off of the reference answer by about 0.00005, which is not unusual after a lot of single-precision floating-point math. The reason you're getting these errors now and not with the default matrix sizes is that the original matricies were smaller and thus required a lot less operations to multiply. Matrix multiplication of N x N matricies requires on the order of N^3 operations, so the number of operations required increases much faster than the size of the matrix and the accumulated error would increase in proportion with the number of operations.

If you look near the end of the runTest() function, there's a call to computeGold() which computes the reference answer on your CPU. There should then be a call to something like shrCompareL2fe that compares the results. The last parameter to this is a tolerance. If you increase the size of this tolerance (say, to 1e-3 or 1e-4 instead of 1e-5,) you should eliminate these error messages. Note that there may be a couple of these calls. The version of the SDK examples that I have has an optional CUBLAS implementation, so it has a comparison for that against the gold, too. The one right after the print statement that says "Comparing CUDA matrixMul & Host results" is the one you'd want to change.

share|improve this answer
Thank you, that finally did it. I've been battling with this problem a couple of days now. You explained nicely and solved the issue. +1 and accepted answer :) – Sandra Dec 11 '12 at 23:37

I'd advise looking at the indexing used in the kernel (matrixMulCUDA) a bit closer - it sounds like you're writing to unallocated memory.

More specifically, is the only thing that you changed the dimsA and dimsB variables? Inside the kernel they use the thread and block index to access the data - did you also increase the data size accordingly? There is no bounds checking going on in the kernel, so if you just change the kernel launch configuration, but not the data, then odds are you're writing past your data into some other memory

share|improve this answer
I did not change anything more in the code, I only changed the dimensions of the matrices. In the example, the matrixMulCuda is called using a FOR function with nIter = 300 set as the number of iterations. I don't understand why 300.. should I change this? – Sandra Dec 10 '12 at 22:35
The 300 is just to control the number of times the kernel is executed; this is get an accurate view of the average runtime and performance, so that's orthogonal to your problem. – alrikai Dec 11 '12 at 7:13
Actually, I eyeballed the code sample, and your problem might indeed be a timeout -- what error code does the kernel return? The error checking code around the kernel invocation will print it. Also, you could try running it in release mode – alrikai Dec 11 '12 at 8:41
I edited my question, and wrote my current situation. – Sandra Dec 11 '12 at 22:43
Thx for the suggestion. +1 – Sandra Dec 13 '12 at 20:31

Have you disabled Timeout Detection and Recovery (TDR) in Windows? It is entirely possible that your code is running fine but that the larger matricies caused the kernel execution to exceed Windows' timeout, which causes Windows to assume the card is locked up, so it resets the card and gives you a message identical to the one you describe. Even if that is not your problem here, you definitely want to disable that before doing any serious CUDA work in Windows. The timeout is quite short by default, since normal graphics rendering should take small fractions of a second per frame.

See this post on the NVidia forums that describes TDR and how to turn it off:

WDDM TDR - NVidia devtalk forum

In particular, you probably want to set the key HKLM\System\CurrentControlSet\Control\GraphicsDrivers\TdrLevel to 0 (Detection Disabled).

Alternatively, you can increase the timeout period by setting HKLM\System\CurrentControlSet\Control\GraphicsDrivers\TdrDelay. It defaults to 2 and is specified in seconds. Personally, I have found that TDR is always annoying when doing work in CUDA, so I just turn it off entirely. IIRC, you need to restart your system for any TDR-related changes to take effect.

share|improve this answer
I edited my question, thx for the suggestion, +1. I still got a problem though.. – Sandra Dec 11 '12 at 22:41

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