libflame revision_anchor
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Functions | |
FLA_Error | FLA_Accum_T_UT_fc_opt_var1 (FLA_Obj A, FLA_Obj t, FLA_Obj T) |
FLA_Error | FLA_Accum_T_UT_fc_ops_var1 (int m_A, int n_AT, float *buff_A, int rs_A, int cs_A, float *buff_t, int inc_t, float *buff_T, int rs_T, int cs_T) |
FLA_Error | FLA_Accum_T_UT_fc_opd_var1 (int m_A, int n_AT, double *buff_A, int rs_A, int cs_A, double *buff_t, int inc_t, double *buff_T, int rs_T, int cs_T) |
FLA_Error | FLA_Accum_T_UT_fc_opc_var1 (int m_A, int n_AT, scomplex *buff_A, int rs_A, int cs_A, scomplex *buff_t, int inc_t, scomplex *buff_T, int rs_T, int cs_T) |
FLA_Error | FLA_Accum_T_UT_fc_opz_var1 (int m_A, int n_AT, dcomplex *buff_A, int rs_A, int cs_A, dcomplex *buff_t, int inc_t, dcomplex *buff_T, int rs_T, int cs_T) |
FLA_Error FLA_Accum_T_UT_fc_opc_var1 | ( | int | m_A, |
int | n_AT, | ||
scomplex * | buff_A, | ||
int | rs_A, | ||
int | cs_A, | ||
scomplex * | buff_t, | ||
int | inc_t, | ||
scomplex * | buff_T, | ||
int | rs_T, | ||
int | cs_T | ||
) |
References bli_ccopyv(), bli_cgemv(), and FLA_ONE.
Referenced by FLA_Accum_T_UT_fc_opt_var1().
{ scomplex* buff_1 = FLA_COMPLEX_PTR( FLA_ONE ); int i; for ( i = 0; i < n_AT; ++i ) { scomplex* a10t = buff_A + (0 )*cs_A + (i )*rs_A; scomplex* A20 = buff_A + (0 )*cs_A + (i+1)*rs_A; scomplex* a21 = buff_A + (i )*cs_A + (i+1)*rs_A; scomplex* tau1 = buff_t + (i )*inc_t; scomplex* tau11 = buff_T + (i )*cs_T + (i )*rs_T; scomplex* t01 = buff_T + (i )*cs_T + (0 )*rs_T; int m_ahead = m_A - i - 1; int n_behind = i; /*------------------------------------------------------------*/ // FLA_Copy_external( tau1, tau11 ); *tau11 = *tau1; // FLA_Copyt_external( FLA_CONJ_TRANSPOSE, a10t, t01 ); bli_ccopyv( BLIS_CONJUGATE, n_behind, a10t, cs_A, t01, rs_T ); // FLA_Gemv_external( FLA_CONJ_TRANSPOSE, FLA_ONE, A20, a21, FLA_ONE, t01 ); bli_cgemv( BLIS_CONJ_TRANSPOSE, BLIS_NO_CONJUGATE, m_ahead, n_behind, buff_1, A20, rs_A, cs_A, a21, rs_A, buff_1, t01, rs_T ); /*------------------------------------------------------------*/ } return FLA_SUCCESS; }
FLA_Error FLA_Accum_T_UT_fc_opd_var1 | ( | int | m_A, |
int | n_AT, | ||
double * | buff_A, | ||
int | rs_A, | ||
int | cs_A, | ||
double * | buff_t, | ||
int | inc_t, | ||
double * | buff_T, | ||
int | rs_T, | ||
int | cs_T | ||
) |
References bli_dcopyv(), bli_dgemv(), and FLA_ONE.
Referenced by FLA_Accum_T_UT_fc_opt_var1().
{ double* buff_1 = FLA_DOUBLE_PTR( FLA_ONE ); int i; for ( i = 0; i < n_AT; ++i ) { double* a10t = buff_A + (0 )*cs_A + (i )*rs_A; double* A20 = buff_A + (0 )*cs_A + (i+1)*rs_A; double* a21 = buff_A + (i )*cs_A + (i+1)*rs_A; double* tau1 = buff_t + (i )*inc_t; double* tau11 = buff_T + (i )*cs_T + (i )*rs_T; double* t01 = buff_T + (i )*cs_T + (0 )*rs_T; int m_ahead = m_A - i - 1; int n_behind = i; /*------------------------------------------------------------*/ // FLA_Copy_external( tau1, tau11 ); *tau11 = *tau1; // FLA_Copyt_external( FLA_CONJ_TRANSPOSE, a10t, t01 ); bli_dcopyv( BLIS_CONJUGATE, n_behind, a10t, cs_A, t01, rs_T ); // FLA_Gemv_external( FLA_CONJ_TRANSPOSE, FLA_ONE, A20, a21, FLA_ONE, t01 ); bli_dgemv( BLIS_CONJ_TRANSPOSE, BLIS_NO_CONJUGATE, m_ahead, n_behind, buff_1, A20, rs_A, cs_A, a21, rs_A, buff_1, t01, rs_T ); /*------------------------------------------------------------*/ } return FLA_SUCCESS; }
FLA_Error FLA_Accum_T_UT_fc_ops_var1 | ( | int | m_A, |
int | n_AT, | ||
float * | buff_A, | ||
int | rs_A, | ||
int | cs_A, | ||
float * | buff_t, | ||
int | inc_t, | ||
float * | buff_T, | ||
int | rs_T, | ||
int | cs_T | ||
) |
References bli_scopyv(), bli_sgemv(), and FLA_ONE.
Referenced by FLA_Accum_T_UT_fc_opt_var1().
{ float* buff_1 = FLA_FLOAT_PTR( FLA_ONE ); int i; for ( i = 0; i < n_AT; ++i ) { float* a10t = buff_A + (0 )*cs_A + (i )*rs_A; float* A20 = buff_A + (0 )*cs_A + (i+1)*rs_A; float* a21 = buff_A + (i )*cs_A + (i+1)*rs_A; float* tau1 = buff_t + (i )*inc_t; float* tau11 = buff_T + (i )*cs_T + (i )*rs_T; float* t01 = buff_T + (i )*cs_T + (0 )*rs_T; int m_ahead = m_A - i - 1; int n_behind = i; /*------------------------------------------------------------*/ // FLA_Copy_external( tau1, tau11 ); *tau11 = *tau1; // FLA_Copyt_external( FLA_CONJ_TRANSPOSE, a10t, t01 ); bli_scopyv( BLIS_CONJUGATE, n_behind, a10t, cs_A, t01, rs_T ); // FLA_Gemv_external( FLA_CONJ_TRANSPOSE, FLA_ONE, A20, a21, FLA_ONE, t01 ); bli_sgemv( BLIS_CONJ_TRANSPOSE, BLIS_NO_CONJUGATE, m_ahead, n_behind, buff_1, A20, rs_A, cs_A, a21, rs_A, buff_1, t01, rs_T ); /*------------------------------------------------------------*/ } return FLA_SUCCESS; }
References FLA_Accum_T_UT_fc_opc_var1(), FLA_Accum_T_UT_fc_opd_var1(), FLA_Accum_T_UT_fc_ops_var1(), FLA_Accum_T_UT_fc_opz_var1(), FLA_Obj_col_stride(), FLA_Obj_datatype(), FLA_Obj_length(), FLA_Obj_row_stride(), FLA_Obj_vector_inc(), and FLA_Obj_width().
Referenced by FLA_Accum_T_UT_fc_blk_var2().
{ FLA_Datatype datatype; int m_A, n_AT; int rs_A, cs_A; int inc_t; int rs_T, cs_T; datatype = FLA_Obj_datatype( A ); m_A = FLA_Obj_length( A ); n_AT = FLA_Obj_width( A ); rs_A = FLA_Obj_row_stride( A ); cs_A = FLA_Obj_col_stride( A ); inc_t = FLA_Obj_vector_inc( t ); rs_T = FLA_Obj_row_stride( T ); cs_T = FLA_Obj_col_stride( T ); switch ( datatype ) { case FLA_FLOAT: { float* buff_A = FLA_FLOAT_PTR( A ); float* buff_t = FLA_FLOAT_PTR( t ); float* buff_T = FLA_FLOAT_PTR( T ); FLA_Accum_T_UT_fc_ops_var1( m_A, n_AT, buff_A, rs_A, cs_A, buff_t, inc_t, buff_T, rs_T, cs_T ); break; } case FLA_DOUBLE: { double* buff_A = FLA_DOUBLE_PTR( A ); double* buff_t = FLA_DOUBLE_PTR( t ); double* buff_T = FLA_DOUBLE_PTR( T ); FLA_Accum_T_UT_fc_opd_var1( m_A, n_AT, buff_A, rs_A, cs_A, buff_t, inc_t, buff_T, rs_T, cs_T ); break; } case FLA_COMPLEX: { scomplex* buff_A = FLA_COMPLEX_PTR( A ); scomplex* buff_t = FLA_COMPLEX_PTR( t ); scomplex* buff_T = FLA_COMPLEX_PTR( T ); FLA_Accum_T_UT_fc_opc_var1( m_A, n_AT, buff_A, rs_A, cs_A, buff_t, inc_t, buff_T, rs_T, cs_T ); break; } case FLA_DOUBLE_COMPLEX: { dcomplex* buff_A = FLA_DOUBLE_COMPLEX_PTR( A ); dcomplex* buff_t = FLA_DOUBLE_COMPLEX_PTR( t ); dcomplex* buff_T = FLA_DOUBLE_COMPLEX_PTR( T ); FLA_Accum_T_UT_fc_opz_var1( m_A, n_AT, buff_A, rs_A, cs_A, buff_t, inc_t, buff_T, rs_T, cs_T ); break; } } return FLA_SUCCESS; }
FLA_Error FLA_Accum_T_UT_fc_opz_var1 | ( | int | m_A, |
int | n_AT, | ||
dcomplex * | buff_A, | ||
int | rs_A, | ||
int | cs_A, | ||
dcomplex * | buff_t, | ||
int | inc_t, | ||
dcomplex * | buff_T, | ||
int | rs_T, | ||
int | cs_T | ||
) |
References bli_zcopyv(), bli_zgemv(), and FLA_ONE.
Referenced by FLA_Accum_T_UT_fc_opt_var1().
{ dcomplex* buff_1 = FLA_DOUBLE_COMPLEX_PTR( FLA_ONE ); int i; for ( i = 0; i < n_AT; ++i ) { dcomplex* a10t = buff_A + (0 )*cs_A + (i )*rs_A; dcomplex* A20 = buff_A + (0 )*cs_A + (i+1)*rs_A; dcomplex* a21 = buff_A + (i )*cs_A + (i+1)*rs_A; dcomplex* tau1 = buff_t + (i )*inc_t; dcomplex* tau11 = buff_T + (i )*cs_T + (i )*rs_T; dcomplex* t01 = buff_T + (i )*cs_T + (0 )*rs_T; int m_ahead = m_A - i - 1; int n_behind = i; /*------------------------------------------------------------*/ // FLA_Copy_external( tau1, tau11 ); *tau11 = *tau1; // FLA_Copyt_external( FLA_CONJ_TRANSPOSE, a10t, t01 ); bli_zcopyv( BLIS_CONJUGATE, n_behind, a10t, cs_A, t01, rs_T ); // FLA_Gemv_external( FLA_CONJ_TRANSPOSE, FLA_ONE, A20, a21, FLA_ONE, t01 ); bli_zgemv( BLIS_CONJ_TRANSPOSE, BLIS_NO_CONJUGATE, m_ahead, n_behind, buff_1, A20, rs_A, cs_A, a21, rs_A, buff_1, t01, rs_T ); /*------------------------------------------------------------*/ } return FLA_SUCCESS; }