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- /* StarPU --- Runtime system for heterogeneous multicore architectures.
- *
- * Copyright (C) 2009, 2010, 2011 Université de Bordeaux 1
- * Copyright (C) 2010, 2011, 2012 Centre National de la Recherche Scientifique
- *
- * StarPU is free software; you can redistribute it and/or modify
- * it under the terms of the GNU Lesser General Public License as published by
- * the Free Software Foundation; either version 2.1 of the License, or (at
- * your option) any later version.
- *
- * StarPU is distributed in the hope that it will be useful, but
- * WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
- *
- * See the GNU Lesser General Public License in COPYING.LGPL for more details.
- */
- /*
- * Conjugate gradients for Sparse matrices
- */
- #include "dw_sparse_cg.h"
- #define FPRINTF(ofile, fmt, args ...) do { if (!getenv("STARPU_SSILENT")) {fprintf(ofile, fmt, ##args); }} while(0)
- static struct starpu_task *create_task(starpu_tag_t id)
- {
- struct starpu_codelet *cl = calloc(1,sizeof(struct starpu_codelet));
- struct starpu_task *task = starpu_task_create();
- task->cl = cl;
- task->cl_arg = NULL;
- task->use_tag = 1;
- task->tag_id = id;
- return task;
- }
- static void create_data(float **_nzvalA, float **_vecb, float **_vecx, uint32_t *_nnz, uint32_t *_nrow, uint32_t **_colind, uint32_t **_rowptr)
- {
- /* we need a sparse symetric (definite positive ?) matrix and a "dense" vector */
-
- /* example of 3-band matrix */
- float *nzval;
- uint32_t nnz;
- uint32_t *colind;
- uint32_t *rowptr;
- nnz = 3*size-2;
- nzval = malloc(nnz*sizeof(float));
- colind = malloc(nnz*sizeof(uint32_t));
- rowptr = malloc(size*sizeof(uint32_t));
- assert(nzval);
- assert(colind);
- assert(rowptr);
- /* fill the matrix */
- unsigned row;
- unsigned pos = 0;
- for (row = 0; row < size; row++)
- {
- rowptr[row] = pos;
- if (row > 0)
- {
- nzval[pos] = 1.0f;
- colind[pos] = row-1;
- pos++;
- }
-
- nzval[pos] = 5.0f;
- colind[pos] = row;
- pos++;
- if (row < size - 1)
- {
- nzval[pos] = 1.0f;
- colind[pos] = row+1;
- pos++;
- }
- }
- *_nnz = nnz;
- *_nrow = size;
- *_nzvalA = nzval;
- *_colind = colind;
- *_rowptr = rowptr;
- STARPU_ASSERT(pos == nnz);
-
- /* initiate the 2 vectors */
- float *invec, *outvec;
- invec = malloc(size*sizeof(float));
- assert(invec);
- outvec = malloc(size*sizeof(float));
- assert(outvec);
- /* fill those */
- unsigned ind;
- for (ind = 0; ind < size; ind++)
- {
- invec[ind] = 2.0f;
- outvec[ind] = 0.0f;
- }
- *_vecb = invec;
- *_vecx = outvec;
- }
- void init_problem(void)
- {
- /* create the sparse input matrix */
- float *nzval;
- float *vecb;
- float *vecx;
- uint32_t nnz;
- uint32_t nrow;
- uint32_t *colind;
- uint32_t *rowptr;
- create_data(&nzval, &vecb, &vecx, &nnz, &nrow, &colind, &rowptr);
- conjugate_gradient(nzval, vecb, vecx, nnz, nrow, colind, rowptr);
- }
- /*
- * cg initialization phase
- */
- void init_cg(struct cg_problem *problem)
- {
- int ret;
- problem->i = 0;
- /* r = b - A x */
- struct starpu_task *task1 = create_task(1UL);
- task1->cl->where = STARPU_CPU;
- task1->cl->cpu_funcs[0] = cpu_codelet_func_1;
- task1->cl->nbuffers = 4;
- task1->cl->modes[0] = STARPU_R;
- task1->cl->modes[1] = STARPU_R;
- task1->cl->modes[2] = STARPU_W;
- task1->cl->modes[3] = STARPU_R;
- task1->handles[0] = problem->ds_matrixA;
- task1->handles[1] = problem->ds_vecx;
- task1->handles[2] = problem->ds_vecr;
- task1->handles[3] = problem->ds_vecb;
- /* d = r */
- struct starpu_task *task2 = create_task(2UL);
- task2->cl->where = STARPU_CPU;
- task2->cl->cpu_funcs[0] = cpu_codelet_func_2;
- task2->cl->nbuffers = 2;
- task2->cl->modes[0] = STARPU_W;
- task2->cl->modes[1] = STARPU_R;
- task2->handles[0] = problem->ds_vecd;
- task2->handles[1] = problem->ds_vecr;
- starpu_tag_declare_deps((starpu_tag_t)2UL, 1, (starpu_tag_t)1UL);
- /* delta_new = trans(r) r */
- struct starpu_task *task3 = create_task(3UL);
- task3->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task3->cl->cuda_funcs[0] = cublas_codelet_func_3;
- #endif
- task3->cl->cpu_funcs[0] = cpu_codelet_func_3;
- task3->cl_arg = problem;
- task3->cl->nbuffers = 1;
- task3->cl->modes[0] = STARPU_R;
- task3->handles[0] = problem->ds_vecr;
- task3->callback_func = iteration_cg;
- task3->callback_arg = problem;
-
- /* XXX 3 should only depend on 1 ... */
- starpu_tag_declare_deps((starpu_tag_t)3UL, 1, (starpu_tag_t)2UL);
- /* launch the computation now */
- ret = starpu_task_submit(task1);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task2);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task3);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- }
- /*
- * the inner iteration of the cg algorithm
- * the codelet code launcher is its own callback !
- */
- void launch_new_cg_iteration(struct cg_problem *problem)
- {
- int ret;
- unsigned iter = problem->i;
- unsigned long long maskiter = (iter*1024);
- /* q = A d */
- struct starpu_task *task4 = create_task(maskiter | 4UL);
- task4->cl->where = STARPU_CPU;
- task4->cl->cpu_funcs[0] = cpu_codelet_func_4;
- task4->cl->nbuffers = 3;
- task4->cl->modes[0] = STARPU_R;
- task4->cl->modes[1] = STARPU_R;
- task4->cl->modes[2] = STARPU_W;
- task4->handles[0] = problem->ds_matrixA;
- task4->handles[1] = problem->ds_vecd;
- task4->handles[2] = problem->ds_vecq;
- /* alpha = delta_new / ( trans(d) q )*/
- struct starpu_task *task5 = create_task(maskiter | 5UL);
- task5->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task5->cl->cuda_funcs[0] = cublas_codelet_func_5;
- #endif
- task5->cl->cpu_funcs[0] = cpu_codelet_func_5;
- task5->cl_arg = problem;
- task5->cl->nbuffers = 2;
- task5->cl->modes[0] = STARPU_R;
- task5->cl->modes[1] = STARPU_R;
- task5->handles[0] = problem->ds_vecd;
- task5->handles[1] = problem->ds_vecq;
- starpu_tag_declare_deps((starpu_tag_t)(maskiter | 5UL), 1, (starpu_tag_t)(maskiter | 4UL));
- /* x = x + alpha d */
- struct starpu_task *task6 = create_task(maskiter | 6UL);
- task6->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task6->cl->cuda_funcs[0] = cublas_codelet_func_6;
- #endif
- task6->cl->cpu_funcs[0] = cpu_codelet_func_6;
- task6->cl_arg = problem;
- task6->cl->nbuffers = 2;
- task6->cl->modes[0] = STARPU_RW;
- task6->cl->modes[1] = STARPU_R;
- task6->handles[0] = problem->ds_vecx;
- task6->handles[1] = problem->ds_vecd;
- starpu_tag_declare_deps((starpu_tag_t)(maskiter | 6UL), 1, (starpu_tag_t)(maskiter | 5UL));
- /* r = r - alpha q */
- struct starpu_task *task7 = create_task(maskiter | 7UL);
- task7->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task7->cl->cuda_funcs[0] = cublas_codelet_func_7;
- #endif
- task7->cl->cpu_funcs[0] = cpu_codelet_func_7;
- task7->cl_arg = problem;
- task7->cl->nbuffers = 2;
- task7->cl->modes[0] = STARPU_RW;
- task7->cl->modes[1] = STARPU_R;
- task7->handles[0] = problem->ds_vecr;
- task7->handles[1] = problem->ds_vecq;
- starpu_tag_declare_deps((starpu_tag_t)(maskiter | 7UL), 1, (starpu_tag_t)(maskiter | 6UL));
- /* update delta_* and compute beta */
- struct starpu_task *task8 = create_task(maskiter | 8UL);
- task8->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task8->cl->cuda_funcs[0] = cublas_codelet_func_8;
- #endif
- task8->cl->cpu_funcs[0] = cpu_codelet_func_8;
- task8->cl_arg = problem;
- task8->cl->nbuffers = 1;
- task8->cl->modes[0] = STARPU_R;
- task8->handles[0] = problem->ds_vecr;
- starpu_tag_declare_deps((starpu_tag_t)(maskiter | 8UL), 1, (starpu_tag_t)(maskiter | 7UL));
- /* d = r + beta d */
- struct starpu_task *task9 = create_task(maskiter | 9UL);
- task9->cl->where = STARPU_CUDA|STARPU_CPU;
- #ifdef STARPU_USE_CUDA
- task9->cl->cuda_funcs[0] = cublas_codelet_func_9;
- #endif
- task9->cl->cpu_funcs[0] = cpu_codelet_func_9;
- task9->cl_arg = problem;
- task9->cl->nbuffers = 2;
- task9->cl->modes[0] = STARPU_RW;
- task9->cl->modes[1] = STARPU_R;
- task9->handles[0] = problem->ds_vecd;
- task9->handles[1] = problem->ds_vecr;
- starpu_tag_declare_deps((starpu_tag_t)(maskiter | 9UL), 1, (starpu_tag_t)(maskiter | 8UL));
- task9->callback_func = iteration_cg;
- task9->callback_arg = problem;
-
- /* launch the computation now */
- ret = starpu_task_submit(task4);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task5);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task6);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task7);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task8);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- ret = starpu_task_submit(task9);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_task_submit");
- }
- void iteration_cg(void *problem)
- {
- struct cg_problem *pb = problem;
- FPRINTF(stdout, "i : %d (MAX %d)\n\tdelta_new %f (%f)\n", pb->i, MAXITER, pb->delta_new, sqrt(pb->delta_new / pb->size));
- if ((pb->i < MAXITER) &&
- (pb->delta_new > pb->epsilon) )
- {
- if (pb->i % 1000 == 0)
- FPRINTF(stdout, "i : %d\n\tdelta_new %f (%f)\n", pb->i, pb->delta_new, sqrt(pb->delta_new / pb->size));
- pb->i++;
- /* we did not reach the stop condition yet */
- launch_new_cg_iteration(problem);
- }
- else
- {
- /* we may stop */
- FPRINTF(stdout, "We are done ... after %d iterations \n", pb->i - 1);
- FPRINTF(stdout, "i : %d\n\tdelta_new %2.5f\n", pb->i, pb->delta_new);
- sem_post(pb->sem);
- }
- }
- /*
- * initializing the problem
- */
- void conjugate_gradient(float *nzvalA, float *vecb, float *vecx, uint32_t nnz,
- unsigned nrow, uint32_t *colind, uint32_t *rowptr)
- {
- /* first register all the data structures to StarPU */
- starpu_data_handle_t ds_matrixA;
- starpu_data_handle_t ds_vecx, ds_vecb;
- starpu_data_handle_t ds_vecr, ds_vecd, ds_vecq;
- /* first the user-allocated data */
- starpu_csr_data_register(&ds_matrixA, 0, nnz, nrow,
- (uintptr_t)nzvalA, colind, rowptr, 0, sizeof(float));
- starpu_vector_data_register(&ds_vecx, 0, (uintptr_t)vecx, nrow, sizeof(float));
- starpu_vector_data_register(&ds_vecb, 0, (uintptr_t)vecb, nrow, sizeof(float));
- /* then allocate the algorithm intern data */
- float *ptr_vecr, *ptr_vecd, *ptr_vecq;
- unsigned i;
- ptr_vecr = malloc(nrow*sizeof(float));
- ptr_vecd = malloc(nrow*sizeof(float));
- ptr_vecq = malloc(nrow*sizeof(float));
- for (i = 0; i < nrow; i++)
- {
- ptr_vecr[i] = 0.0f;
- ptr_vecd[i] = 0.0f;
- ptr_vecq[i] = 0.0f;
- }
- FPRINTF(stdout, "nrow = %u \n", nrow);
- /* and register them as well */
- starpu_vector_data_register(&ds_vecr, 0, (uintptr_t)ptr_vecr, nrow, sizeof(float));
- starpu_vector_data_register(&ds_vecd, 0, (uintptr_t)ptr_vecd, nrow, sizeof(float));
- starpu_vector_data_register(&ds_vecq, 0, (uintptr_t)ptr_vecq, nrow, sizeof(float));
- /* we now have the complete problem */
- struct cg_problem problem;
- problem.ds_matrixA = ds_matrixA;
- problem.ds_vecx = ds_vecx;
- problem.ds_vecb = ds_vecb;
- problem.ds_vecr = ds_vecr;
- problem.ds_vecd = ds_vecd;
- problem.ds_vecq = ds_vecq;
- problem.epsilon = EPSILON;
- problem.size = nrow;
- problem.delta_old = 1.0;
- problem.delta_new = 1.0; /* just to make sure we do at least one iteration */
- /* we need a semaphore to synchronize with callbacks */
- sem_t sem;
- sem_init(&sem, 0, 0U);
- problem.sem = &sem;
- init_cg(&problem);
- sem_wait(&sem);
- sem_destroy(&sem);
- print_results(vecx, nrow);
- starpu_data_unregister(ds_matrixA);
- starpu_data_unregister(ds_vecx);
- starpu_data_unregister(ds_vecb);
- starpu_data_unregister(ds_vecr);
- starpu_data_unregister(ds_vecd);
- starpu_data_unregister(ds_vecq);
- }
- void do_conjugate_gradient(float *nzvalA, float *vecb, float *vecx, uint32_t nnz,
- unsigned nrow, uint32_t *colind, uint32_t *rowptr)
- {
- /* start the runtime */
- int ret;
- ret = starpu_init(NULL);
- if (ret == -ENODEV)
- exit(77);
- STARPU_CHECK_RETURN_VALUE(ret, "starpu_init");
- starpu_helper_cublas_init();
- conjugate_gradient(nzvalA, vecb, vecx, nnz, nrow, colind, rowptr);
- }
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