# Mathematica/CUDA reduce execution time

I'm writing a simple monte carlo simulation for particle transport. My approach is writing a kernel for CUDA and execute it as a Mathematica function.

Kernel:

``````#include "curand_kernel.h"
#include "math.h"

extern "C" __global__ void monteCarlo(Real_t *transmission, mint seed, mint pathN) {
curandState rngState;

int index = threadIdx.x + blockIdx.x*blockDim.x;

curand_init(seed, index, 0, &rngState);

if (index < pathN) {
//-------------start one packet run----------------------

float packetWeight = 1.0;
int m = 0;

while(packetWeight > 0.0){

//MONTE CARLO CODE

// Test: still in the sample?
if(z_coordinate > sampleThickness){
packetWeight = 0;
z_coordinate = sampleThickness;
transmission[index]=1;
}
}
}
//-------------end one packet run------------------------
}
}
``````

Mathematica code:

``````Needs["CUDALink`"];
"monteCarlo", {{_Real, "Output"}, _Integer, _Integer}, 256,
"UnmangleCode" -> False];

pathN = 100000;
result = 0;  (*count for transmitted particles*)
For[j = 0, j < 10, j++,
buffer = CUDAMemoryAllocate["Float", 100000];
cudaBM[buffer, 1490, pathN];
resultOneRun = Total[CUDAMemoryGet[buffer]];
result = result + resultOneRun;
];
``````

Everything seems to work so far, but the speed improvement compared to the pure C code without CUDA is neglible. I have two problems:

1. the curand_init() function is executed by all threads at the beginning of every sumulation step -> can I call this function once for all threads?
2. the kernel returns to Mathematica a very large array of reals (100 000). I know, that the bottleneck of CUDA is the channel bandwidth between GPU and CPU. I need only the sum of all elements of the list, so it would be more efficient to calculate the sum of the list elements in the GPU and send only one real number to the CPU.
• Can't you use `CUDATotal` ? – b.gatessucks Jan 9 '13 at 13:52
• `CUDATotal` will be executed after the result array is copied back to the CPU memory. I want to avoid copying the whole result array to the CPU memory. I think the solution must be in the C part of the code. Thank you for your response. – user1961006 Jan 9 '13 at 14:06
• If so I totally misunderstood the documentation on this; thanks for your reply. – b.gatessucks Jan 9 '13 at 14:13