/* linsolve.h -- header file for linsolve.c -- declarations and * definitions for use in solving linear system using ScaLAPACK. * Includes prototypes for BLACS functions. */ #ifndef LINSOLVE_H #define LINSOLVE_H /* Size of ScaLAPACK matrix descriptor arrays */ #define DESCRIPTOR_SIZE 10 /*=================================================================== * * BLACS functions */ /* Get info from BLACS */ extern void Cblacs_get(int context, int what, int *val); /* Set up a grid of processes */ extern void Cblacs_gridinit(int* context, char* order, int nproc_rows, int nproc_cols); /* Get process row and column numbers */ extern void Cblacs_pcoord(int context, int p, int* my_proc_row, int* my_proc_col); /* Shut down the blacs */ extern void Cblacs_exit(int doneflag); /*=================================================================== * * Locally defined functions */ void Get_input(int p, int my_rank, int* n, int* nproc_rows, int* nproc_cols, int* row_block_size, int* col_block_size); void Build_input_datatype(MPI_Datatype* input_datatype, int* n, int* nproc_rows, int* nproc_cols, int* row_block_size, int* col_block_size); void Allocate(int my_rank, char* name, void* list, int size, int datatype); void Initialize(int p, int my_rank, float* A_local, int local_mat_rows, int local_mat_cols, float* exact_local, int exact_local_size); /* Use PBLAS routines psaxpy and psnrm2 to compute ||y - x||_2 */ float Norm_diff(int n, float* x_local, int* x_descrip, float* y_local, int* y_descrip); /*=================================================================== * * Wrappers for PBLAS and ScaLAPACK functions */ /* Simplified wrapper for the PBLAS routine psgemv */ /* Compute y = A*x */ void Mat_vect_mult(int m, int n, float* A_local, int* A_descrip, float* x_local, int* x_descrip, float* y_local, int* y_descrip); /* Use PBLAS routines psaxpy and psnrm2 to compute ||x - y||_2 */ float Norm_diff(int n, float* x_local, int* x_descrip, float* y_local, int* y_descrip); /* Simplified wrapper for the ScaLAPACK routine descinit */ void Build_descrip(int my_rank, char* name, int* descrip, int m, int n, int row_block_size, int col_block_size, int blacs_context, int leading_dim); /* Simplified wrapper for the ScaLAPACK routine psgesv */ /* Solve the system Ax = b. Return solution in b */ void Solve(int my_rank, int order, float* A_local, int* A_descrip, int* pivot_list, float *b_local, int* b_descrip); /* Simplified wrapper for ScaLAPACK routine numroc */ int Get_dimension(int order, int block_size, int my_process_row_or_col, int nproc_rows_or_cols); #endif