Functions | |
void | FLASH_Sylv_cntl_init () |
void | FLASH_Sylv_cntl_finalize () |
Variables | |
fla_gemm_t * | flash_gemm_cntl_pm_bp |
fla_gemm_t * | flash_gemm_cntl_ip_bb |
fla_sylv_t * | flash_sylv_cntl_lapack |
fla_sylv_t * | flash_sylv_cntl_mb |
fla_sylv_t * | flash_sylv_cntl |
fla_blocksize_t * | flash_sylv_bsize |
void FLASH_Sylv_cntl_finalize | ( | void | ) |
References FLA_Blocksize_free(), and FLA_Cntl_obj_free().
Referenced by FLA_Cntl_finalize_flash().
00098 { 00099 FLA_Cntl_obj_free( flash_sylv_cntl_lapack ); 00100 FLA_Cntl_obj_free( flash_sylv_cntl_mb ); 00101 FLA_Cntl_obj_free( flash_sylv_cntl ); 00102 00103 FLA_Blocksize_free( flash_sylv_bsize ); 00104 }
void FLASH_Sylv_cntl_init | ( | void | ) |
References FLA_Blocksize_create(), and FLA_Cntl_sylv_obj_create().
Referenced by FLA_Cntl_init_flash().
00044 { 00045 // Set blocksize for hierarchical storage. 00046 flash_sylv_bsize = FLA_Blocksize_create( 1, 1, 1, 1 ); 00047 00048 // Create a control tree that assumes A and B are b x b blocks. 00049 flash_sylv_cntl_lapack = FLA_Cntl_sylv_obj_create( FLA_HIER, 00050 FLA_SUBPROBLEM, 00051 NULL, 00052 NULL, 00053 NULL, 00054 NULL, 00055 NULL, 00056 NULL, 00057 NULL, 00058 NULL, 00059 NULL, 00060 NULL, 00061 NULL, 00062 NULL ); 00063 00064 // Create a control tree that assumes A is a matrix and B is a block. 00065 flash_sylv_cntl_mb = FLA_Cntl_sylv_obj_create( FLA_HIER, 00066 FLA_BLOCKED_VARIANT17, 00067 flash_sylv_bsize, 00068 flash_sylv_cntl_lapack, 00069 NULL, 00070 NULL, 00071 flash_gemm_cntl_ip_bb, 00072 NULL, 00073 NULL, 00074 NULL, 00075 NULL, 00076 NULL, 00077 NULL, 00078 NULL ); 00079 00080 // Create a control tree that assumes A is a matrix and B is a matrix. 00081 flash_sylv_cntl = FLA_Cntl_sylv_obj_create( FLA_HIER, 00082 FLA_BLOCKED_VARIANT15, 00083 flash_sylv_bsize, 00084 flash_sylv_cntl_mb, 00085 NULL, 00086 NULL, 00087 flash_gemm_cntl_pm_bp, 00088 NULL, 00089 NULL, 00090 NULL, 00091 NULL, 00092 NULL, 00093 NULL, 00094 NULL ); 00095 }