LIS_INT main(int argc, char* argv[])
{
LIS_Comm comm;
LIS_INT err;
int nprocs,my_rank;
LIS_INT nesol;
LIS_MATRIX A,B;
LIS_VECTOR x;
LIS_SCALAR evalue0;
LIS_ESOLVER esolver;
LIS_REAL residual;
LIS_INT iter;
double time;
double itime,ptime,p_c_time,p_i_time;
char esolvername[128];
LIS_DEBUG_FUNC_IN;
lis_initialize(&argc, &argv);
comm = LIS_COMM_WORLD;
#ifdef USE_MPI
MPI_Comm_size(comm,&nprocs);
MPI_Comm_rank(comm,&my_rank);
#else
nprocs = 1;
my_rank = 0;
#endif
if( argc < 5 )
{
lis_printf(comm,"Usage: %s matrix_a_filename matrix_b_filename evector_filename rhistory_filename [options]\n", argv[0]);
CHKERR(1);
}
lis_printf(comm,"\n");
lis_printf(comm,"number of processes = %d\n",nprocs);
#ifdef _OPENMP
lis_printf(comm,"max number of threads = %d\n",omp_get_num_procs());
lis_printf(comm,"number of threads = %d\n",omp_get_max_threads());
#endif
/* create matrix and vectors */
lis_matrix_create(comm,&A);
lis_matrix_create(comm,&B);
lis_printf(comm,"\nmatrix A:\n");
lis_input_matrix(A,argv[1]);
lis_printf(comm,"matrix B:\n");
lis_input_matrix(B,argv[2]);
lis_vector_duplicate(A,&x);
lis_esolver_create(&esolver);
lis_esolver_set_option("-e gii -eprint mem",esolver);
err = lis_esolver_set_optionC(esolver);
CHKERR(err);
err = lis_gesolve(A,B,x,&evalue0,esolver);
CHKERR(err);
lis_esolver_get_esolver(esolver,&nesol);
lis_esolver_get_esolvername(nesol,esolvername);
lis_esolver_get_residualnorm(esolver,&residual);
lis_esolver_get_iter(esolver,&iter);
lis_esolver_get_timeex(esolver,&time,&itime,&ptime,&p_c_time,&p_i_time);
lis_printf(comm,"%s: mode number = %d\n", esolvername, 0);
#ifdef _COMPLEX
lis_printf(comm,"%s: eigenvalue = (%e, %e)\n", esolvername, (double)creal(evalue0), (double)cimag(evalue0));
#else
lis_printf(comm,"%s: eigenvalue = %e\n", esolvername, (double)evalue0);
#endif
lis_printf(comm,"%s: number of iterations = %D\n",esolvername, iter);
lis_printf(comm,"%s: elapsed time = %e sec.\n", esolvername, time);
lis_printf(comm,"%s: preconditioner = %e sec.\n", esolvername, ptime);
lis_printf(comm,"%s: matrix creation = %e sec.\n", esolvername, p_c_time);
lis_printf(comm,"%s: linear solver = %e sec.\n", esolvername, itime);
lis_printf(comm,"%s: relative residual = %e\n\n",esolvername, (double)residual);
/* write eigenvector */
lis_output_vector(x,LIS_FMT_MM,argv[3]);
/* write residual history */
lis_esolver_output_rhistory(esolver,argv[4]);
lis_esolver_destroy(esolver);
lis_matrix_destroy(A);
lis_matrix_destroy(B);
lis_vector_destroy(x);
lis_finalize();
LIS_DEBUG_FUNC_OUT;
return 0;
}
LIS_INT main(LIS_INT argc, char* argv[])
{
LIS_INT i,n,gn,is,ie;
LIS_INT nprocs,my_rank;
int int_nprocs,int_my_rank;
LIS_INT nesol;
LIS_MATRIX A;
LIS_VECTOR x;
LIS_REAL evalue0;
LIS_ESOLVER esolver;
LIS_REAL residual;
LIS_INT iter;
double time;
double itime,ptime,p_c_time,p_i_time;
char esolvername[128];
LIS_DEBUG_FUNC_IN;
lis_initialize(&argc, &argv);
#ifdef USE_MPI
MPI_Comm_size(MPI_COMM_WORLD,&int_nprocs);
MPI_Comm_rank(MPI_COMM_WORLD,&int_my_rank);
nprocs = int_nprocs;
my_rank = int_my_rank;
#else
nprocs = 1;
my_rank = 0;
#endif
if( argc < 2 )
{
if( my_rank==0 )
{
printf("Usage: %s n [eoptions]\n", argv[0]);
}
CHKERR(1);
}
if( my_rank==0 )
{
printf("\n");
printf("number of processes = %d\n",nprocs);
}
#ifdef _OPENMP
if( my_rank==0 )
{
#ifdef _LONG__LONG
printf("max number of threads = %lld\n",omp_get_num_procs());
printf("number of threads = %lld\n",omp_get_max_threads());
#else
printf("max number of threads = %d\n",omp_get_num_procs());
printf("number of threads = %d\n",omp_get_max_threads());
#endif
}
#endif
/* generate coefficient matrix for one dimensional Poisson equation */
n = atoi(argv[1]);
lis_matrix_create(LIS_COMM_WORLD,&A);
lis_matrix_set_size(A,0,n);
lis_matrix_get_size(A,&n,&gn);
lis_matrix_get_range(A,&is,&ie);
for(i=is;i<ie;i++)
{
if( i>0 ) lis_matrix_set_value(LIS_INS_VALUE,i,i-1,-1.0,A);
if( i<gn-1 ) lis_matrix_set_value(LIS_INS_VALUE,i,i+1,-1.0,A);
lis_matrix_set_value(LIS_INS_VALUE,i,i,2.0,A);
}
lis_matrix_set_type(A,LIS_MATRIX_CSR);
lis_matrix_assemble(A);
lis_vector_duplicate(A,&x);
lis_esolver_create(&esolver);
lis_esolver_set_option("-eprint mem",esolver);
lis_esolver_set_optionC(esolver);
lis_esolve(A, x, &evalue0, esolver);
lis_esolver_get_esolver(esolver,&nesol);
lis_esolver_get_esolvername(nesol,esolvername);
lis_esolver_get_residualnorm(esolver, &residual);
lis_esolver_get_iter(esolver, &iter);
lis_esolver_get_timeex(esolver,&time,&itime,&ptime,&p_c_time,&p_i_time);
if( my_rank==0 ) {
printf("%s: mode number = %d\n", esolvername, 0);
#ifdef _LONG__DOUBLE
printf("%s: eigenvalue = %Le\n", esolvername, evalue0);
#else
printf("%s: eigenvalue = %e\n", esolvername, evalue0);
#endif
#ifdef _LONG__LONG
printf("%s: number of iterations = %lld\n",esolvername, iter);
#else
printf("%s: number of iterations = %d\n",esolvername, iter);
#endif
printf("%s: elapsed time = %e sec.\n", esolvername, time);
printf("%s: preconditioner = %e sec.\n", esolvername, ptime);
printf("%s: matrix creation = %e sec.\n", esolvername, p_c_time);
printf("%s: linear solver = %e sec.\n", esolvername, itime);
#ifdef _LONG__DOUBLE
printf("%s: relative residual = %Le\n\n",esolvername, residual);
#else
printf("%s: relative residual = %e\n\n",esolvername, residual);
#endif
}
/*
lis_vector_nrm2(x, &xnrm2);
lis_vector_scale((1/xnrm2*sqrt(n)), x);
lis_vector_print(x);
*/
/*
lis_vector_create(LIS_COMM_WORLD,&y);
lis_matrix_create(LIS_COMM_WORLD,&B);
lis_esolver_get_evalues(esolver,y);
lis_esolver_get_evectors(esolver,B);
lis_output_vector(y,LIS_FMT_MM,"evalues.out");
lis_output_matrix(B,LIS_FMT_MM,"evectors.out");
lis_vector_destroy(y);
lis_matrix_destroy(B);
*/
lis_esolver_destroy(esolver);
lis_matrix_destroy(A);
lis_vector_destroy(x);
lis_finalize();
LIS_DEBUG_FUNC_OUT;
return 0;
}
LIS_INT main(LIS_INT argc, char* argv[])
{
LIS_INT nprocs,my_rank;
int int_nprocs,int_my_rank;
LIS_INT nsol;
LIS_MATRIX A,B;
LIS_VECTOR x,y,z,w;
LIS_SCALAR evalue0;
LIS_ESOLVER esolver;
LIS_REAL residual;
LIS_INT iter;
double time;
double itime,ptime,p_c_time,p_i_time;
char esolvername[128];
LIS_DEBUG_FUNC_IN;
lis_initialize(&argc, &argv);
#ifdef USE_MPI
MPI_Comm_size(MPI_COMM_WORLD,&int_nprocs);
MPI_Comm_rank(MPI_COMM_WORLD,&int_my_rank);
nprocs = int_nprocs;
my_rank = int_my_rank;
#else
nprocs = 1;
my_rank = 0;
#endif
if( argc < 6 )
{
if( my_rank==0 )
{
printf("Usage: %s matrix_filename evalues_filename evectors_filename residuals_filename iters_filename [options]\n", argv[0]);
}
CHKERR(1);
}
if( my_rank==0 )
{
printf("\n");
printf("number of processes = %d\n",nprocs);
}
#ifdef _OPENMP
if( my_rank==0 )
{
printf("max number of threads = %d\n",omp_get_num_procs());
printf("number of threads = %d\n",omp_get_max_threads());
}
#endif
/* create matrix and vectors */
lis_matrix_create(LIS_COMM_WORLD,&A);
lis_input_matrix(A,argv[1]);
lis_vector_duplicate(A,&x);
lis_esolver_create(&esolver);
lis_esolver_set_option("-e si -ss 1 -eprint mem",esolver);
lis_esolver_set_optionC(esolver);
lis_esolve(A, x, &evalue0, esolver);
lis_esolver_get_esolver(esolver,&nsol);
lis_esolver_get_esolvername(nsol,esolvername);
lis_esolver_get_residualnorm(esolver, &residual);
lis_esolver_get_iter(esolver, &iter);
lis_esolver_get_timeex(esolver,&time,&itime,&ptime,&p_c_time,&p_i_time);
if( my_rank==0 ) {
printf("%s: mode number = %d\n", esolvername, 0);
#ifdef _LONG__DOUBLE
printf("%s: eigenvalue = %Le\n", esolvername, evalue0);
#else
printf("%s: eigenvalue = %e\n", esolvername, evalue0);
#endif
#ifdef _LONG__LONG
printf("%s: number of iterations = %lld\n",esolvername, iter);
#else
printf("%s: number of iterations = %d\n",esolvername, iter);
#endif
printf("%s: elapsed time = %e sec.\n", esolvername, time);
printf("%s: preconditioner = %e sec.\n", esolvername, ptime);
printf("%s: matrix creation = %e sec.\n", esolvername, p_c_time);
printf("%s: linear solver = %e sec.\n", esolvername, itime);
#ifdef _LONG__DOUBLE
printf("%s: relative residual = %Le\n\n",esolvername, residual);
#else
printf("%s: relative residual = %e\n\n",esolvername, residual);
#endif
}
lis_vector_create(LIS_COMM_WORLD,&y);
lis_vector_create(LIS_COMM_WORLD,&z);
lis_vector_create(LIS_COMM_WORLD,&w);
lis_matrix_create(LIS_COMM_WORLD,&B);
lis_esolver_get_evalues(esolver,y);
lis_esolver_get_residualnorms(esolver,z);
lis_esolver_get_iters(esolver,w);
lis_esolver_get_evectors(esolver,B);
/* write eigenvalues */
lis_output_vector(y,LIS_FMT_MM,argv[2]);
/* write eigenvectors */
lis_output_matrix(B,LIS_FMT_MM,argv[3]);
/* write residual norms */
lis_output_vector(z,LIS_FMT_MM,argv[4]);
/* write numbers of iterations */
lis_output_vector(w,LIS_FMT_MM,argv[5]);
lis_esolver_destroy(esolver);
lis_matrix_destroy(A);
lis_vector_destroy(x);
lis_matrix_destroy(B);
lis_vector_destroy(y);
lis_vector_destroy(z);
lis_vector_destroy(w);
lis_finalize();
LIS_DEBUG_FUNC_OUT;
return 0;
}
