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Bitonic Sort on CUDA. On a quick benchmark it was 10x faster than the CPU version.
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| /* | |
| * Parallel bitonic sort using CUDA. | |
| * Compile with | |
| * nvcc -arch=sm_11 bitonic_sort.cu | |
| * Based on http://www.tools-of-computing.com/tc/CS/Sorts/bitonic_sort.htm | |
| * License: BSD 3 | |
| */ | |
| #include <stdlib.h> | |
| #include <stdio.h> | |
| #include <time.h> | |
| /* Every thread gets exactly one value in the unsorted array. */ | |
| #define THREADS 512 // 2^9 | |
| #define BLOCKS 32768 // 2^15 | |
| #define NUM_VALS THREADS*BLOCKS | |
| void print_elapsed(clock_t start, clock_t stop) | |
| { | |
| double elapsed = ((double) (stop - start)) / CLOCKS_PER_SEC; | |
| printf("Elapsed time: %.3fs\n", elapsed); | |
| } | |
| float random_float() | |
| { | |
| return (float)rand()/(float)RAND_MAX; | |
| } | |
| void array_print(float *arr, int length) | |
| { | |
| int i; | |
| for (i = 0; i < length; ++i) { | |
| printf("%1.3f ", arr[i]); | |
| } | |
| printf("\n"); | |
| } | |
| void array_fill(float *arr, int length) | |
| { | |
| srand(time(NULL)); | |
| int i; | |
| for (i = 0; i < length; ++i) { | |
| arr[i] = random_float(); | |
| } | |
| } | |
| __global__ void bitonic_sort_step(float *dev_values, int j, int k) | |
| { | |
| unsigned int i, ixj; /* Sorting partners: i and ixj */ | |
| i = threadIdx.x + blockDim.x * blockIdx.x; | |
| ixj = i^j; | |
| /* The threads with the lowest ids sort the array. */ | |
| if ((ixj)>i) { | |
| if ((i&k)==0) { | |
| /* Sort ascending */ | |
| if (dev_values[i]>dev_values[ixj]) { | |
| /* exchange(i,ixj); */ | |
| float temp = dev_values[i]; | |
| dev_values[i] = dev_values[ixj]; | |
| dev_values[ixj] = temp; | |
| } | |
| } | |
| if ((i&k)!=0) { | |
| /* Sort descending */ | |
| if (dev_values[i]<dev_values[ixj]) { | |
| /* exchange(i,ixj); */ | |
| float temp = dev_values[i]; | |
| dev_values[i] = dev_values[ixj]; | |
| dev_values[ixj] = temp; | |
| } | |
| } | |
| } | |
| } | |
| /** | |
| * Inplace bitonic sort using CUDA. | |
| */ | |
| void bitonic_sort(float *values) | |
| { | |
| float *dev_values; | |
| size_t size = NUM_VALS * sizeof(float); | |
| cudaMalloc((void**) &dev_values, size); | |
| cudaMemcpy(dev_values, values, size, cudaMemcpyHostToDevice); | |
| dim3 blocks(BLOCKS,1); /* Number of blocks */ | |
| dim3 threads(THREADS,1); /* Number of threads */ | |
| int j, k; | |
| /* Major step */ | |
| for (k = 2; k <= NUM_VALS; k <<= 1) { | |
| /* Minor step */ | |
| for (j=k>>1; j>0; j=j>>1) { | |
| bitonic_sort_step<<<blocks, threads>>>(dev_values, j, k); | |
| } | |
| } | |
| cudaMemcpy(values, dev_values, size, cudaMemcpyDeviceToHost); | |
| cudaFree(dev_values); | |
| } | |
| int main(void) | |
| { | |
| clock_t start, stop; | |
| float *values = (float*) malloc( NUM_VALS * sizeof(float)); | |
| array_fill(values, NUM_VALS); | |
| start = clock(); | |
| bitonic_sort(values); /* Inplace */ | |
| stop = clock(); | |
| print_elapsed(start, stop); | |
| } |
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