libflame  12600
Functions
FLA_Symm_external_gpu.c File Reference

(r12600)

Functions

FLA_Error FLA_Symm_external_gpu (FLA_Side side, FLA_Uplo uplo, FLA_Obj alpha, FLA_Obj A, void *A_gpu, FLA_Obj B, void *B_gpu, FLA_Obj beta, FLA_Obj C, void *C_gpu)

Function Documentation

FLA_Error FLA_Symm_external_gpu ( FLA_Side  side,
FLA_Uplo  uplo,
FLA_Obj  alpha,
FLA_Obj  A,
void *  A_gpu,
FLA_Obj  B,
void *  B_gpu,
FLA_Obj  beta,
FLA_Obj  C,
void *  C_gpu 
)

References FLA_Check_error_level(), FLA_Obj_datatype(), FLA_Obj_has_zero_dim(), FLA_Obj_length(), FLA_Obj_width(), FLA_Param_map_flame_to_netlib_side(), FLA_Param_map_flame_to_netlib_uplo(), and FLA_Symm_check().

Referenced by FLASH_Queue_exec_task_gpu().

{
  FLA_Datatype datatype;
  int          m_C, n_C;
  int          ldim_A;
  int          ldim_B;
  int          ldim_C;
  char         blas_side;
  char         blas_uplo; 

  if ( FLA_Check_error_level() == FLA_FULL_ERROR_CHECKING ) 
    FLA_Symm_check( side, uplo, alpha, A, B, beta, C );

  if ( FLA_Obj_has_zero_dim( C ) ) return FLA_SUCCESS;

  datatype = FLA_Obj_datatype( A );

  ldim_A   = FLA_Obj_length( A );

  ldim_B   = FLA_Obj_length( B );

  m_C      = FLA_Obj_length( C );
  n_C      = FLA_Obj_width( C );
  ldim_C   = FLA_Obj_length( C );

  FLA_Param_map_flame_to_netlib_side( side, &blas_side );
  FLA_Param_map_flame_to_netlib_uplo( uplo, &blas_uplo );


  switch( datatype ){

  case FLA_FLOAT:
  {
    float *buff_alpha = ( float * ) FLA_FLOAT_PTR( alpha );
    float *buff_beta  = ( float * ) FLA_FLOAT_PTR( beta );

    cublasSsymm( blas_side,
                 blas_uplo,
                 m_C,
                 n_C,
                 *buff_alpha,
                 ( float * ) A_gpu, ldim_A,
                 ( float * ) B_gpu, ldim_B,
                 *buff_beta,
                 ( float * ) C_gpu, ldim_C );
    
    break;
  }

  case FLA_DOUBLE:
  {
    double *buff_alpha = ( double * ) FLA_DOUBLE_PTR( alpha );
    double *buff_beta  = ( double * ) FLA_DOUBLE_PTR( beta );

    cublasDsymm( blas_side,
                 blas_uplo,
                 m_C,
                 n_C,
                 *buff_alpha,
                 ( double * ) A_gpu, ldim_A,
                 ( double * ) B_gpu, ldim_B,
                 *buff_beta,
                 ( double * ) C_gpu, ldim_C );
    
    break;
  }

  case FLA_COMPLEX:
  {
    cuComplex *buff_alpha = ( cuComplex * ) FLA_COMPLEX_PTR( alpha );
    cuComplex *buff_beta  = ( cuComplex * ) FLA_COMPLEX_PTR( beta );

    cublasCsymm( blas_side,
                 blas_uplo,
                 m_C,
                 n_C,
                 *buff_alpha,
                 ( cuComplex * ) A_gpu, ldim_A,
                 ( cuComplex * ) B_gpu, ldim_B,
                 *buff_beta,
                 ( cuComplex * ) C_gpu, ldim_C );
    
    break;
  }

  case FLA_DOUBLE_COMPLEX:
  {
    cuDoubleComplex *buff_alpha = ( cuDoubleComplex * ) FLA_DOUBLE_COMPLEX_PTR( alpha );
    cuDoubleComplex *buff_beta  = ( cuDoubleComplex * ) FLA_DOUBLE_COMPLEX_PTR( beta );

    cublasZsymm( blas_side,
                 blas_uplo,
                 m_C,
                 n_C,
                 *buff_alpha,
                 ( cuDoubleComplex * ) A_gpu, ldim_A,
                 ( cuDoubleComplex * ) B_gpu, ldim_B,
                 *buff_beta,
                 ( cuDoubleComplex * ) C_gpu, ldim_C );
    
    break;
  }

  }
  
  return FLA_SUCCESS;
}
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