nvGRAPH API参考分析(二)

nvGRAPH API参考分析(二)

nvGRAPH Code Examples

本文提供了简单的示例。

1. nvGRAPH convert topology example

void check(nvgraphStatus_t status) {

    if (status != NVGRAPH_STATUS_SUCCESS) {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv) {

    size_t  n = 6, nnz = 10;

    // nvgraph variables

    nvgraphHandle_t handle;

    nvgraphCSCTopology32I_t CSC_input;

    nvgraphCSRTopology32I_t CSR_output;

    float *src_weights_d, *dst_weights_d;

    cudaDataType_t edge_dimT = CUDA_R_32F;

    // Allocate source data

    CSC_input = (nvgraphCSCTopology32I_t) malloc(sizeof(struct nvgraphCSCTopology32I_st));

    CSC_input->nvertices = n; CSC_input->nedges = nnz;

    cudaMalloc( (void**)&(CSC_input->destination_offsets), (n+1)*sizeof(int));

    cudaMalloc( (void**)&(CSC_input->source_indices), nnz*sizeof(int));

    cudaMalloc( (void**)&src_weights_d, nnz*sizeof(float));

    // Copy source data

    float src_weights_h[] = {0.333333f, 0.5f, 0.333333f, 0.5f, 0.5f, 1.0f, 0.333333f, 0.5f, 0.5f, 0.5f};

    int destination_offsets_h[] = {0, 1, 3, 4, 6, 8, 10};

    int source_indices_h[] = {2, 0, 2, 0, 4, 5, 2, 3, 3, 4};

    cudaMemcpy(CSC_input->destination_offsets, destination_offsets_h, (n+1)*sizeof(int), cudaMemcpyDefault);

    cudaMemcpy(CSC_input->source_indices, source_indices_h, nnz*sizeof(int), cudaMemcpyDefault);

    cudaMemcpy(src_weights_d, src_weights_h, nnz*sizeof(float), cudaMemcpyDefault);

    // Allocate destination data

    CSR_output = (nvgraphCSRTopology32I_t) malloc(sizeof(struct nvgraphCSRTopology32I_st));

    cudaMalloc( (void**)&(CSR_output->source_offsets), (n+1)*sizeof(int));

    cudaMalloc( (void**)&(CSR_output->destination_indices), nnz*sizeof(int));

    cudaMalloc( (void**)&dst_weights_d, nnz*sizeof(float));

    // Starting nvgraph and convert

    check(nvgraphCreate (&handle));

    check(nvgraphConvertTopology(handle, NVGRAPH_CSC_32, CSC_input, src_weights_d,

        &edge_dimT, NVGRAPH_CSR_32, CSR_output, dst_weights_d));

    // Free memory

    check(nvgraphDestroy(handle));

    cudaFree(CSC_input->destination_offsets);

    cudaFree(CSC_input->source_indices);

    cudaFree(CSR_output->source_offsets);

    cudaFree(CSR_output->destination_indices);

    cudaFree(src_weights_d);

    cudaFree(dst_weights_d);

    free(CSC_input);

    free(CSR_output);

    return 0;

}

 

2. nvGRAPH convert graph example

void check(nvgraphStatus_t status) {

    if (status != NVGRAPH_STATUS_SUCCESS) {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv) {

    size_t  n = 6, nnz = 10, vert_sets = 2, edge_sets = 1;

    // nvgraph variables

    nvgraphHandle_t handle; nvgraphGraphDescr_t src_csc_graph;

    nvgraphCSCTopology32I_t CSC_input;

    cudaDataType_t edge_dimT = CUDA_R_32F;

    cudaDataType_t* vertex_dimT;

    // Allocate host data

    float *pr_1 = (float*)malloc(n*sizeof(float));

    void **vertex_dim = (void**)malloc(vert_sets*sizeof(void*));

    vertex_dimT = (cudaDataType_t*)malloc(vert_sets*sizeof(cudaDataType_t));

    CSC_input = (nvgraphCSCTopology32I_t) malloc(sizeof(struct nvgraphCSCTopology32I_st));

    // Initialize host data

    float weights_h[] = {0.333333f, 0.5f, 0.333333f, 0.5f, 0.5f, 1.0f, 0.333333f, 0.5f, 0.5f, 0.5f};

    int destination_offsets_h[] = {0, 1, 3, 4, 6, 8, 10};

    int source_indices_h[] = {2, 0, 2, 0, 4, 5, 2, 3, 3, 4};

    float bookmark_h[] = {0.0f, 1.0f, 0.0f, 0.0f, 0.0f, 0.0f};

    vertex_dim[0] = (void*)bookmark_h; vertex_dim[1]= (void*)pr_1;

    vertex_dimT[0] = CUDA_R_32F; vertex_dimT[1]= CUDA_R_32F, vertex_dimT[2]= CUDA_R_32F;

    // Starting nvgraph

    check(nvgraphCreate (&handle));

    check(nvgraphCreateGraphDescr (handle, &src_csc_graph));

    CSC_input->nvertices = n; CSC_input->nedges = nnz;

    CSC_input->destination_offsets = destination_offsets_h;

    CSC_input->source_indices = source_indices_h;

    // Set graph connectivity and properties (tranfers)

    check(nvgraphSetGraphStructure(handle, src_csc_graph, (void*)CSC_input, NVGRAPH_CSC_32));

    check(nvgraphAllocateVertexData(handle, src_csc_graph, vert_sets, vertex_dimT));

    check(nvgraphAllocateEdgeData  (handle, src_csc_graph, edge_sets, &edge_dimT));

    for (int i = 0; i < 2; ++i)

        check(nvgraphSetVertexData(handle, src_csc_graph, vertex_dim[i], i));

    check(nvgraphSetEdgeData(handle, src_csc_graph, (void*)weights_h, 0));

    // Convert to CSR graph

    nvgraphGraphDescr_t dst_csr_graph;

    check(nvgraphCreateGraphDescr (handle, &dst_csr_graph));

    check(nvgraphConvertGraph(handle, src_csc_graph, dst_csr_graph, NVGRAPH_CSR_32));

    check(nvgraphDestroyGraphDescr(handle, src_csc_graph));

    check(nvgraphDestroyGraphDescr(handle, dst_csr_graph));

    check(nvgraphDestroy(handle));

    free(pr_1); free(vertex_dim); free(vertex_dimT);

    free(CSC_input);

    return 0;

}

 

3. nvGRAPH pagerank example

void check(nvgraphStatus_t status) {

    if (status != NVGRAPH_STATUS_SUCCESS) {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv) {

    size_t  n = 6, nnz = 10, vert_sets = 2, edge_sets = 1;

    float alpha1 = 0.9f; void *alpha1_p = (void *) &alpha1;

    // nvgraph variables

    nvgraphHandle_t handle; nvgraphGraphDescr_t graph;

    nvgraphCSCTopology32I_t CSC_input;

    cudaDataType_t edge_dimT = CUDA_R_32F;

    cudaDataType_t* vertex_dimT;

    // Allocate host data

    float *pr_1 = (float*)malloc(n*sizeof(float));

    void **vertex_dim = (void**)malloc(vert_sets*sizeof(void*));

    vertex_dimT = (cudaDataType_t*)malloc(vert_sets*sizeof(cudaDataType_t));

    CSC_input = (nvgraphCSCTopology32I_t) malloc(sizeof(struct nvgraphCSCTopology32I_st));

    // Initialize host data

    float weights_h[] = {0.333333f, 0.5f, 0.333333f, 0.5f, 0.5f, 1.0f, 0.333333f, 0.5f, 0.5f, 0.5f};

    int destination_offsets_h[] = {0, 1, 3, 4, 6, 8, 10};

    int source_indices_h[] = {2, 0, 2, 0, 4, 5, 2, 3, 3, 4};

    float bookmark_h[] = {0.0f, 1.0f, 0.0f, 0.0f, 0.0f, 0.0f};

    vertex_dim[0] = (void*)bookmark_h; vertex_dim[1]= (void*)pr_1;

    vertex_dimT[0] = CUDA_R_32F; vertex_dimT[1]= CUDA_R_32F, vertex_dimT[2]= CUDA_R_32F;

    // Starting nvgraph

    check(nvgraphCreate (&handle));

    check(nvgraphCreateGraphDescr (handle, &graph));

    CSC_input->nvertices = n; CSC_input->nedges = nnz;

    CSC_input->destination_offsets = destination_offsets_h;

    CSC_input->source_indices = source_indices_h;

    // Set graph connectivity and properties (tranfers)

    check(nvgraphSetGraphStructure(handle, graph, (void*)CSC_input, NVGRAPH_CSC_32));

    check(nvgraphAllocateVertexData(handle, graph, vert_sets, vertex_dimT));

    check(nvgraphAllocateEdgeData  (handle, graph, edge_sets, &edge_dimT));

    for (int i = 0; i < 2; ++i)

        check(nvgraphSetVertexData(handle, graph, vertex_dim[i], i));

    check(nvgraphSetEdgeData(handle, graph, (void*)weights_h, 0));

   

    check(nvgraphPagerank(handle, graph, 0, alpha1_p, 0, 0, 1, 0.0f, 0));

    // Get result

    check(nvgraphGetVertexData(handle, graph, vertex_dim[1], 1));

    check(nvgraphDestroyGraphDescr(handle, graph));

    check(nvgraphDestroy(handle));

    free(pr_1); free(vertex_dim); free(vertex_dimT);

    free(CSC_input);

    return 0;

}

 

4. nvGRAPH SSSP example

void check(nvgraphStatus_t status) {

    if (status != NVGRAPH_STATUS_SUCCESS) {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv) {

    const size_t  n = 6, nnz = 10, vertex_numsets = 1, edge_numsets = 1;

    float *sssp_1_h;

    void** vertex_dim;

    // nvgraph variables

    nvgraphStatus_t status; nvgraphHandle_t handle;

    nvgraphGraphDescr_t graph;

    nvgraphCSCTopology32I_t CSC_input;

    cudaDataType_t edge_dimT = CUDA_R_32F;

    cudaDataType_t* vertex_dimT;

    // Init host data

    sssp_1_h = (float*)malloc(n*sizeof(float));

    vertex_dim  = (void**)malloc(vertex_numsets*sizeof(void*));

    vertex_dimT = (cudaDataType_t*)malloc(vertex_numsets*sizeof(cudaDataType_t));

    CSC_input = (nvgraphCSCTopology32I_t) malloc(sizeof(struct nvgraphCSCTopology32I_st));

    vertex_dim[0]= (void*)sssp_1_h; vertex_dimT[0] = CUDA_R_32F;

    float weights_h[] = {0.333333, 0.5, 0.333333, 0.5, 0.5, 1.0, 0.333333, 0.5, 0.5, 0.5};

    int destination_offsets_h[] = {0, 1, 3, 4, 6, 8, 10};

    int source_indices_h[] = {2, 0, 2, 0, 4, 5, 2, 3, 3, 4};

    check(nvgraphCreate(&handle));

    check(nvgraphCreateGraphDescr (handle, &graph));

    CSC_input->nvertices = n; CSC_input->nedges = nnz;

    CSC_input->destination_offsets = destination_offsets_h;

    CSC_input->source_indices = source_indices_h;

    // Set graph connectivity and properties (tranfers)

    check(nvgraphSetGraphStructure(handle, graph, (void*)CSC_input, NVGRAPH_CSC_32));

    check(nvgraphAllocateVertexData(handle, graph, vertex_numsets, vertex_dimT));

    check(nvgraphAllocateEdgeData  (handle, graph, edge_numsets, &edge_dimT));

    check(nvgraphSetEdgeData(handle, graph, (void*)weights_h, 0));

    // Solve

    int source_vert = 0;

    check(nvgraphSssp(handle, graph, 0,  &source_vert, 0));

    // Get and print result

    check(nvgraphGetVertexData(handle, graph, (void*)sssp_1_h, 0));

    //Clean

    free(sssp_1_h); free(vertex_dim);

    free(vertex_dimT); free(CSC_input);

    check(nvgraphDestroyGraphDescr(handle, graph));

    check(nvgraphDestroy(handle));

    return 0;

}

 

5. nvGRAPH Semi-Ring SPMV example

void check(nvgraphStatus_t status) {

    if (status != NVGRAPH_STATUS_SUCCESS) {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv) {

    size_t  n = 5, nnz = 10, vertex_numsets = 2, edge_numsets = 1;

    float alpha = 1.0, beta = 0.0;

    void *alpha_p = (void *)&alpha, *beta_p = (void *)&beta;

    void** vertex_dim;

    cudaDataType_t edge_dimT = CUDA_R_32F;

    cudaDataType_t* vertex_dimT;

    // nvgraph variables

    nvgraphStatus_t status; nvgraphHandle_t handle;

    nvgraphGraphDescr_t graph;

    nvgraphCSRTopology32I_t CSR_input;

    // Init host data

    vertex_dim  = (void**)malloc(vertex_numsets*sizeof(void*));

    vertex_dimT = (cudaDataType_t*)malloc(vertex_numsets*sizeof(cudaDataType_t));

    CSR_input = (nvgraphCSRTopology32I_t) malloc(sizeof(struct nvgraphCSRTopology32I_st));

    float x_h[] = {1.1f, 2.2f, 3.3f, 4.4f, 5.5f};

    float y_h[] = {0.0f, 0.0f, 0.0f, 0.0f, 0.0f};

    vertex_dim[0]= (void*)x_h; vertex_dim[1]= (void*)y_h;

    vertex_dimT[0] = CUDA_R_32F; vertex_dimT[1]= CUDA_R_32F;

    float weights_h[] = {1.0f, 4.0f, 2.0f, 3.0f, 5.0f, 7.0f, 8.0f, 9.0f, 6.0f, 1.5f};

    int source_offsets_h[] = {0, 2, 4, 7, 9, 10};

    int destination_indices_h[] = {0, 1, 1, 2, 0, 3, 4, 2, 4, 2};

    check(nvgraphCreate(&handle));

    check(nvgraphCreateGraphDescr(handle, &graph));

    CSR_input->nvertices = n; CSR_input->nedges = nnz;

    CSR_input->source_offsets = source_offsets_h;

    CSR_input->destination_indices = destination_indices_h;

    // Set graph connectivity and properties (tranfers)

    check(nvgraphSetGraphStructure(handle, graph, (void*)CSR_input, NVGRAPH_CSR_32));

    check(nvgraphAllocateVertexData(handle, graph, vertex_numsets, vertex_dimT));

    for (int i = 0; i < vertex_numsets; ++i)

       check(nvgraphSetVertexData(handle, graph, vertex_dim[i], i));

    check(nvgraphAllocateEdgeData  (handle, graph, edge_numsets, &edge_dimT));

    check(nvgraphSetEdgeData(handle, graph, (void*)weights_h, 0));

    // Solve

    check(nvgraphSrSpmv(handle, graph, 0, alpha_p, 0, beta_p, 1, NVGRAPH_PLUS_TIMES_SR));

    //Get result

    check(nvgraphGetVertexData(handle, graph, (void*)y_h, 1));

    //Clean

    check(nvgraphDestroyGraphDescr(handle, graph));

    check(nvgraphDestroy(handle));

    free(vertex_dim); free(vertex_dimT); free(CSR_input);

    return 0;

}

 

6. nvGRAPH Triangles Counting example

#include "stdlib.h"

#include "inttypes.h"

#include "stdio.h"

 

#include "nvgraph.h"

 

#define check( a ) \

{\

    nvgraphStatus_t status = (a);\

    if ( (status) != NVGRAPH_STATUS_SUCCESS) {\

        printf("ERROR : %d in %s : %d\n", status, __FILE__ , __LINE__ );\

        exit(0);\

    }\

}

 

int main(int argc, char **argv)

{

    // nvgraph variables

    nvgraphHandle_t handle;

    nvgraphGraphDescr_t graph;

    nvgraphCSRTopology32I_t CSR_input;

 

    // Init host data

    CSR_input = (nvgraphCSRTopology32I_t) malloc(sizeof(struct nvgraphCSRTopology32I_st));

 

    // Undirected graph:

    // 0       2-------4      

    //  \     / \     / \

    //   \   /   \   /   \

    //    \ /     \ /     \

    //     1-------3-------5

    // 3 triangles

    // CSR of lower triangular of adjacency matrix:

    const size_t n = 6, nnz = 8;

    int source_offsets[] = {0, 0, 1, 2, 4, 6, 8};

    int destination_indices[] = {0, 1, 1, 2, 2, 3, 3, 4};

 

    check(nvgraphCreate(&handle));

    check(nvgraphCreateGraphDescr (handle, &graph));

    CSR_input->nvertices = n;

    CSR_input->nedges = nnz;

    CSR_input->source_offsets = source_offsets;

    CSR_input->destination_indices = destination_indices;

    // Set graph connectivity

    check(nvgraphSetGraphStructure(handle, graph, (void*)CSR_input, NVGRAPH_CSR_32));

 

    uint64_t trcount = 0;

    check(nvgraphTriangleCount(handle, graph, &trcount));

    printf("Triangles count: %" PRIu64 "\n", trcount);

 

    free(CSR_input);

    check(nvgraphDestroyGraphDescr(handle, graph));

    check(nvgraphDestroy(handle));

    return 0;

}

 

7. nvGRAPH Traversal example

void check_status(nvgraphStatus_t status){

    if ((int)status != 0)    {

        printf("ERROR : %d\n",status);

        exit(0);

    }

}

int main(int argc, char **argv){

    //Example of graph (CSR format)

    const size_t  n = 7, nnz = 12, vertex_numsets = 2, edge_numset = 0;

    int source_offsets_h[] = {0, 1, 3, 4, 6, 8, 10, 12};

    int destination_indices_h[] = {5, 0, 2, 0, 4, 5, 2, 3, 3, 4, 1, 5};

    //where to store results (distances from source) and where to store results (predecessors in search tree)

    int bfs_distances_h[n], bfs_predecessors_h[n];

    // nvgraph variables

    nvgraphStatus_t status;

    nvgraphHandle_t handle;

    nvgraphGraphDescr_t graph;

    nvgraphCSRTopology32I_t CSR_input;

    cudaDataType_t* vertex_dimT;

    size_t distances_index = 0;

    size_t predecessors_index = 1;

    vertex_dimT = (cudaDataType_t*)malloc(vertex_numsets*sizeof(cudaDataType_t));

    vertex_dimT[distances_index] = CUDA_R_32I;

    vertex_dimT[predecessors_index] = CUDA_R_32I;

    //Creating nvgraph objects

    check_status(nvgraphCreate (&handle));

    check_status(nvgraphCreateGraphDescr (handle, &graph));

    // Set graph connectivity and properties (tranfers)

    CSR_input = (nvgraphCSRTopology32I_t) malloc(sizeof(struct nvgraphCSCTopology32I_st));

    CSR_input->nvertices = n;

    CSR_input->nedges = nnz;

    CSR_input->source_offsets = source_offsets_h;

    CSR_input->destination_indices = destination_indices_h;

    check_status(nvgraphSetGraphStructure(handle, graph, (void*)CSR_input, NVGRAPH_CSR_32));

    check_status(nvgraphAllocateVertexData(handle, graph, vertex_numsets, vertex_dimT));

    int source_vert = 1;

    //Setting the traversal parameters 

    nvgraphTraversalParameter_t traversal_param;

    nvgraphTraversalParameterInit(&traversal_param);

    nvgraphTraversalSetDistancesIndex(&traversal_param, distances_index);

    nvgraphTraversalSetPredecessorsIndex(&traversal_param, predecessors_index);

    nvgraphTraversalSetUndirectedFlag(&traversal_param, false);

    //Computing traversal using BFS algorithm

    check_status(nvgraphTraversal(handle, graph, NVGRAPH_TRAVERSAL_BFS, &source_vert, traversal_param));

    // Get result

    check_status(nvgraphGetVertexData(handle, graph, (void*)bfs_distances_h, distances_index));

    check_status(nvgraphGetVertexData(handle, graph, (void*)bfs_predecessors_h, predecessors_index));

    // expect bfs distances_h = (1 0 1 3 3 2 2147483647)

    for (int i = 0; i<n; i++)  printf("Distance to vertex %d: %i\n",i, bfs_distances_h[i]); printf("\n");

    // expect bfs predecessors = (1 -1 1 5 5 0 -1)

    for (int i = 0; i<n; i++)  printf("Predecessor of vertex %d: %i\n",i, bfs_predecessors_h[i]); printf("\n");

    free(vertex_dimT);

    free(CSR_input);

    check_status(nvgraphDestroyGraphDescr (handle, graph));

    check_status(nvgraphDestroy (handle));

    return 0;

}

posted @ 2020-12-25 08:45  吴建明wujianming  阅读(122)  评论(0编辑  收藏  举报