# CUDA limit seems to be reached, but what limit is that?

I have a CUDA program that seems to be hitting some sort of limit of some resource, but I can't figure out what that resource is. Here is the kernel function:

``````__global__ void DoCheck(float2* points, int* segmentToPolylineIndexMap,
int segmentCount, int* output)
{
int segmentIndex = threadIdx.x + blockIdx.x * blockDim.x;
int pointCount = segmentCount + 1;

if(segmentIndex >= segmentCount)
return;

int polylineIndex = segmentToPolylineIndexMap[segmentIndex];
int result = 0;
if(polylineIndex >= 0)
{
float2 p1 = points[segmentIndex];
float2 p2 = points[segmentIndex+1];
float2 A = p2;
float2 a;
a.x = p2.x - p1.x;
a.y = p2.y - p1.y;

for(int i = segmentIndex+2; i < segmentCount; i++)
{
int currentPolylineIndex = segmentToPolylineIndexMap[i];

// if not a different segment within out polyline and
// not a fake segment
bool isLegit = (currentPolylineIndex != polylineIndex &&
currentPolylineIndex >= 0);

float2 p3 = points[i];
float2 p4 = points[i+1];
float2 B = p4;
float2 b;
b.x = p4.x - p3.x;
b.y = p4.y - p3.y;

float2 c;
c.x = B.x - A.x;
c.y = B.y - A.y;

float2 b_perp;
b_perp.x = -b.y;
b_perp.y = b.x;

float numerator = dot(b_perp, c);
float denominator = dot(b_perp, a);
bool isParallel = (denominator == 0.0);

float quotient = numerator / denominator;
float2 intersectionPoint;
intersectionPoint.x = quotient * a.x + A.x;
intersectionPoint.y = quotient * a.y + A.y;

result = result | (isLegit && !isParallel &&
intersectionPoint.x > min(p1.x, p2.x) &&
intersectionPoint.x > min(p3.x, p4.x) &&
intersectionPoint.x < max(p1.x, p2.x) &&
intersectionPoint.x < max(p3.x, p4.x) &&
intersectionPoint.y > min(p1.y, p2.y) &&
intersectionPoint.y > min(p3.y, p4.y) &&
intersectionPoint.y < max(p1.y, p2.y) &&
intersectionPoint.y < max(p3.y, p4.y));
}
}

output[segmentIndex] = result;
}
``````

Here is the call to execute the kernel function:

``````DoCheck<<<702, 32>>>(
(float2*)devicePoints,
deviceSegmentsToPolylineIndexMap,
numSegments,
deviceOutput);
``````

The sizes of the parameters are as follows:

• devicePoints = 22,464 float2s = 179,712 bytes
• deviceSegmentsToPolylineIndexMap = 22,463 ints = 89,852 bytes
• numSegments = 1 int = 4 bytes
• deviceOutput = 22,463 ints = 89,852 bytes

When I execute this kernel, it crashes the video card. It would appear that I am hitting some sort of limit, because if I execute the kernel using `DoCheck<<<300, 32>>>(...);`, it works. Just to be clear, the parameters are the same, just the number of blocks is different.

Any idea why one crashes the video driver, and the other doesn't? The one that fail seems to be still within the card's limit on number of blocks.

• Video Card: nVidia 8800GT
• CUDA Version: 1.1
• OS: Windows Server 2008 R2

I also tried it on a laptop with the following configuration, but got the same results:

• Video Card: nVidia Quadro FX 880M
• CUDA Version: 1.2
• OS: Windows 7 64-bit
-
Probably wall clock time if this is a display card. The display driver has a watchdog timer that will kill kernels which take more than a few seconds to complete. Implementation details and work-arounds are OS specific. What OS, card and CUDA version are you using? –  talonmies Aug 2 '11 at 14:25
Interesting. Ok, I will update the question with that information. –  Jonathan DeCarlo Aug 2 '11 at 14:34
Is the watchdog timer still an issue on Windows? If so, your kernel might be taking too long to execute. –  Eric Aug 2 '11 at 14:45
Those CUDA versions are the compute capability of your card, not the version of CUDA you are using... But you ar definitely hitting the display driver watchdog timer limit - I take it you are getting a "driver crashed and was reset" message when executing? –  talonmies Aug 2 '11 at 14:47
@Eric: yes it it, unless using a tesla card with the non-WDDM compute driver. –  talonmies Aug 2 '11 at 14:48