**(correctly and instructively asnwered, see below)**

I'm beginning to do experiments with matlab and gpu (nvidia gtx660).

Now, I wrote this simple monte carlo algorithm to calculate PI. The following is the CPU version:

```
function pig = mc1vecnocuda(n)
countr=0;
A=rand(n,2);
for i=1:n
if norm(A(i,:))<1
countr=countr+1;
end
end
pig=(countr/n)*4;
end
```

This takes very little time to be executed on CPU with 100000 points "thrown" into the unit circle:

```
>> tic; mc1vecnocuda(100000);toc;
Elapsed time is 0.092473 seconds.
```

See, instead, what happens with gpu-ized version of the algorithm:

```
function pig = mc1veccuda(n)
countr=0;
gpucountr=gpuArray(countr);
A=gpuArray.rand(n,2);
parfor (i=1:n,1024)
if norm(A(i,:))<1
gpucountr=gpucountr+1;
end
end
pig=(gpucountr/n)*4;
end
```

Now, this takes a LONG time to be executed:

```
>> tic; mc1veccuda(100000);toc;
Elapsed time is 21.137954 seconds.
```

I don't understand why. I used parfor loop with 1024 workers, because querying my nvidia card with gpuDevice, 1024 is the maximum number of simultaneous threads allowed on the gtx660.

Can someone help me? Thanks.

Edit: this is the updated version that avoids IF:

```
function pig = mc2veccuda(n)
countr=0;
gpucountr=gpuArray(countr);
A=gpuArray.rand(n,2);
parfor (i=1:n,1024)
gpucountr = gpucountr+nnz(norm(A(i,:))<1);
end
pig=(gpucountr/n)*4;
end
```

**And this is the code written following Bichoy's guidelines (the
right code to achieve result):**

```
function pig = mc3veccuda(n)
countr=0;
gpucountr=gpuArray(countr);
A=gpuArray.rand(n,2);
Asq = A.^2;
Asqsum_big_column = Asq(:,1)+Asq(:,2);
Anorms=Asqsum_big_column.^(1/2);
gpucountr=gpucountr+nnz(Anorms<1);
pig=(gpucountr/n)*4;
end
```

Please note execution time with n=10 millions:

```
>> tic; mc3veccuda(10000000); toc;
Elapsed time is 0.131348 seconds.
>> tic; mc1vecnocuda(10000000); toc;
Elapsed time is 8.108907 seconds.
```

I not tested my original cuda version (for/parfor), for its execution would require hours with n=10000000.

Great Bichoy! ;)

`pig = nnz(sum(X.^2,2)<=1) * 4 / size(X,1)`

where`X=rand(N,2)`

or similar array on the gpu – Amro Apr 13 '13 at 22:14