Here's my answer to my question, a short Cuda program that finds unitless equations, on eight axis. The search size on the the second line should be a odd integer greater than five. The program outputs powers of c0 h0 A0 R0 W0 G0 N0 F0 in row form.

I might be wrong but I think the structure is a old school short circuit logic structure The threads diverge and report the right answers; and otherwise the threads just converge and run at full speed with the wrong ones!

Here is unitless equation, for the powers of the constants, that I am solving. I think the program is gnarly because the equation is gnarly. Each parenthesis group has to go to zero to make the equation true. One could use squares or abs or pure logic like my method.

(x4-x5)^2+(x3+x8)^2+(x4+x7+x8)^2+(x2+x4-x6)^2+(-2*(x4+x6)+x8-x1-x2)^2+(2*(x2+x4)+x1+x5+3*x6)^2 = 0

The code slows down for right answers; but they are rare, thus it running near full speed most of the time. Once found, a right answer is easy to check. All rights reserved, M. Snyder June 2013 I have have tired a range of 0 to 59 on eight axis and it ran in a few hours on a GTX 560. Now trying a range of 0 to 95 on my GTX 480.

## If anyone can help me to get it to run faster, I would be interested...

```
#include "stdio.h"
#define searchsize 27
//nvcc helloworld.cu -o helloworld -arch=sm_21 -maxrregcount=20 -ccbin=gcc-4.4
__global__ void helloworld()
{
int x1,x2,x3,x4,x5,x6,x7,x8,rlow,rhgh;
rlow=-((gridDim.x-1)/2);
rhgh=((gridDim.x-1)/2);
x1=blockIdx.x+rlow;
x2=blockIdx.y+rlow;
x3=threadIdx.x+rlow;
x4=rlow;
x5=rlow;
x6=rlow;
x7=rlow;
x8=rlow;
while (x8<=rhgh)
{
if (x4 == x5)
{
if (x3 == -x8)
{
if (x4 + x7 == -x8)
{
if (x2+x4 == x6)
{
if (-2*( x4 + x6) + x8 == x1 + x2)
{
if (2*(x2+x4) + x1 + x5 == -3*x6)
{
printf("%+4d,%+4d,%+4d,%+4d,%+4d,%+4d,%+4d,%+4d \n", x1,x2,x3,x4,x5,x6,x7,x8);
}
}
}
}
}
}
x4=x4+1;
if (x4>rhgh)
{
x5=x5+1;
x4=rlow;
}
if (x5>rhgh)
{
x6=x6+1;
x5=rlow;
}
if (x6>rhgh)
{
x7=x7+1;
x6=rlow;
}
if (x7>rhgh)
{
x8=x8+1;
x7=rlow;
}
}
}
int main()
{
int rangeofsearch(searchsize);
dim3 grid,block;
grid.x=rangeofsearch;
grid.y=rangeofsearch;
block.x=rangeofsearch;
size_t buf=1e7;
cudaDeviceSetLimit(cudaLimitPrintfFifoSize, buf);
helloworld<<<grid,block>>>();
cudaDeviceSynchronize();
return 0;
}
```

```
Sample Output, powers in row form.
c0, h0, A0, R0, W0, G0, N0, F0
-14, -14, +0, +14, +14, +0, -14, +0
-13, -13, +0, +13, +13, +0, -13, +0
-12, -12, +0, +12, +12, +0, -12, +0
-11, -11, +0, +11, +11, +0, -11, +0
-7, -13, -2, +12, +12, -1, -14, +2
-6, -12, -2, +11, +11, -1, -13, +2
-5, -11, -2, +10, +10, -1, -12, +2
+0, -12, -4, +10, +10, -2, -14, +4
+1, -11, -4, +9, +9, -2, -13, +4
+7, -11, -6, +8, +8, -3, -14, +6
-14, -8, +2, +9, +9, +1, -7, -2
-13, -7, +2, +8, +8, +1, -6, -2
-12, -6, +2, +7, +7, +1, -5, -2
-11, -5, +2, +6, +6, +1, -4, -2
...
```