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libflame
revision_anchor
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Functions | |
| FLA_Error | FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1 (FLA_Obj alpha, FLA_Obj tau, FLA_Obj u, FLA_Obj y, FLA_Obj z, FLA_Obj v, FLA_Obj A, FLA_Obj up, FLA_Obj a, FLA_Obj w) |
| FLA_Error | FLA_Fused_Gerc2_Ahx_Axpy_Ax_ops_var1 (int m_A, int n_A, float *buff_tau, float *buff_alpha, float *buff_u, int inc_u, float *buff_y, int inc_y, float *buff_z, int inc_z, float *buff_v, int inc_v, float *buff_A, int rs_A, int cs_A, float *buff_up, int inc_up, float *buff_a, int inc_a, float *buff_w, int inc_w) |
| FLA_Error | FLA_Fused_Gerc2_Ahx_Axpy_Ax_opd_var1 (int m_A, int n_A, double *buff_tau, double *buff_alpha, double *buff_u, int inc_u, double *buff_y, int inc_y, double *buff_z, int inc_z, double *buff_v, int inc_v, double *buff_A, int rs_A, int cs_A, double *buff_up, int inc_up, double *buff_a, int inc_a, double *buff_w, int inc_w) |
| FLA_Error | FLA_Fused_Gerc2_Ahx_Axpy_Ax_opc_var1 (int m_A, int n_A, scomplex *buff_tau, scomplex *buff_alpha, scomplex *buff_u, int inc_u, scomplex *buff_y, int inc_y, scomplex *buff_z, int inc_z, scomplex *buff_v, int inc_v, scomplex *buff_A, int rs_A, int cs_A, scomplex *buff_up, int inc_up, scomplex *buff_a, int inc_a, scomplex *buff_w, int inc_w) |
| FLA_Error | FLA_Fused_Gerc2_Ahx_Axpy_Ax_opz_var1 (int m_A, int n_A, dcomplex *buff_tau, dcomplex *buff_alpha, dcomplex *buff_u, int inc_u, dcomplex *buff_y, int inc_y, dcomplex *buff_z, int inc_z, dcomplex *buff_v, int inc_v, dcomplex *buff_A, int rs_A, int cs_A, dcomplex *buff_up, int inc_up, dcomplex *buff_a, int inc_a, dcomplex *buff_w, int inc_w) |
| FLA_Error FLA_Fused_Gerc2_Ahx_Axpy_Ax_opc_var1 | ( | int | m_A, |
| int | n_A, | ||
| scomplex * | buff_tau, | ||
| scomplex * | buff_alpha, | ||
| scomplex * | buff_u, | ||
| int | inc_u, | ||
| scomplex * | buff_y, | ||
| int | inc_y, | ||
| scomplex * | buff_z, | ||
| int | inc_z, | ||
| scomplex * | buff_v, | ||
| int | inc_v, | ||
| scomplex * | buff_A, | ||
| int | rs_A, | ||
| int | cs_A, | ||
| scomplex * | buff_up, | ||
| int | inc_up, | ||
| scomplex * | buff_a, | ||
| int | inc_a, | ||
| scomplex * | buff_w, | ||
| int | inc_w | ||
| ) |
References bli_cdot(), bli_csetv(), BLIS_CONJUGATE, F77_caxpy(), FLA_MINUS_ONE, and FLA_ZERO.
Referenced by FLA_Bidiag_UT_u_step_ofc_var3(), and FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1().
{
scomplex* buff_0 = FLA_COMPLEX_PTR( FLA_ZERO );
scomplex* buff_m1 = FLA_COMPLEX_PTR( FLA_MINUS_ONE );
scomplex minus_inv_tau;
scomplex conj_psi1;
scomplex conj_nu1;
scomplex conj_alpha1;
int i;
bli_csetv( m_A,
buff_0,
buff_w, inc_w );
bli_cdiv3( buff_m1, buff_tau, &minus_inv_tau );
for ( i = 0; i < n_A; ++i )
{
scomplex* a1 = buff_A + (i )*cs_A + (0 )*rs_A;
scomplex* u = buff_u;
scomplex* psi1 = buff_y + (i )*inc_y;
scomplex* nu1 = buff_v + (i )*inc_v;
scomplex* z = buff_z;
scomplex* up = buff_up;
scomplex* alpha1 = buff_a + (i )*inc_a;
scomplex* w = buff_w;
scomplex* alpha = buff_alpha;
scomplex temp1;
scomplex temp2;
/*------------------------------------------------------------*/
bli_ccopyconj( psi1, &conj_psi1 );
bli_cmult3( alpha, &conj_psi1, &temp1 );
bli_ccopyconj( nu1, &conj_nu1 );
bli_cmult3( alpha, &conj_nu1, &temp2 );
// bli_caxpyv( BLIS_NO_CONJUGATE,
// m_A,
// &temp1,
// u, inc_u,
// a1, rs_A );
F77_caxpy( &m_A,
&temp1,
u, &inc_u,
a1, &rs_A );
// bli_caxpyv( BLIS_NO_CONJUGATE,
// m_A,
// &temp2,
// z, inc_z,
// a1, rs_A );
F77_caxpy( &m_A,
&temp2,
z, &inc_z,
a1, &rs_A );
bli_cdot( BLIS_CONJUGATE,
m_A,
a1, rs_A,
up, inc_up,
psi1 );
bli_ccopyconj( psi1, &conj_psi1 );
bli_cmult4( &minus_inv_tau, &conj_psi1, alpha1, alpha1 );
bli_ccopyconj( alpha1, &conj_alpha1 );
// bli_caxpyv( BLIS_NO_CONJUGATE,
// m_A,
// conj_alpha1,
// a1, rs_A,
// w, inc_w );
F77_caxpy( &m_A,
&conj_alpha1,
a1, &rs_A,
w, &inc_w );
/*------------------------------------------------------------*/
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Fused_Gerc2_Ahx_Axpy_Ax_opd_var1 | ( | int | m_A, |
| int | n_A, | ||
| double * | buff_tau, | ||
| double * | buff_alpha, | ||
| double * | buff_u, | ||
| int | inc_u, | ||
| double * | buff_y, | ||
| int | inc_y, | ||
| double * | buff_z, | ||
| int | inc_z, | ||
| double * | buff_v, | ||
| int | inc_v, | ||
| double * | buff_A, | ||
| int | rs_A, | ||
| int | cs_A, | ||
| double * | buff_up, | ||
| int | inc_up, | ||
| double * | buff_a, | ||
| int | inc_a, | ||
| double * | buff_w, | ||
| int | inc_w | ||
| ) |
References bli_d0(), bli_daxpyv(), bli_daxpyv2b(), bli_ddot(), bli_ddotsv2(), bli_dm1(), bli_dsetv(), BLIS_CONJUGATE, and BLIS_NO_CONJUGATE.
Referenced by FLA_Bidiag_UT_u_step_ofd_var3(), and FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1().
{
double zero = bli_d0();
double minus_one = bli_dm1();
double* restrict u = buff_u;
double* restrict up = buff_up;
double* restrict w = buff_w;
double* restrict z = buff_z;
double* restrict alpha = buff_alpha;
double* restrict a1;
double* restrict a2;
double* restrict psi1;
double* restrict psi2;
double* restrict alpha1;
double* restrict alpha2;
double* restrict nu1;
double* restrict nu2;
double minus_inv_tau;
double alpha_conj_psi1;
double alpha_conj_psi2;
double alpha_conj_nu1;
double alpha_conj_nu2;
int i;
int n_run = n_A / 2;
int n_left = n_A % 2;
int twocs_A = 2*cs_A;
int twoinc_y = 2*inc_y;
int twoinc_a = 2*inc_a;
int twoinc_v = 2*inc_v;
bli_dsetv( m_A,
&zero,
buff_w, inc_w );
bli_ddiv3( &minus_one, buff_tau, &minus_inv_tau );
a1 = buff_A;
a2 = buff_A + cs_A;
psi1 = buff_y;
psi2 = buff_y + inc_y;
alpha1 = buff_a;
alpha2 = buff_a + inc_a;
nu1 = buff_v;
nu2 = buff_v + inc_v;
for ( i = 0; i < n_run; ++i )
{
/*------------------------------------------------------------*/
bli_dmult3( alpha, psi1, &alpha_conj_psi1 );
bli_dmult3( alpha, psi2, &alpha_conj_psi2 );
bli_dmult3( alpha, nu1, &alpha_conj_nu1 );
bli_dmult3( alpha, nu2, &alpha_conj_nu2 );
/*
Effective computation:
A = A + alpha * ( u * y' + z * v' );
y = A' * up;
a = a - conj(y) / tau;
w = A * conj(a);
*/
bli_daxpyv2b( m_A,
&alpha_conj_psi1,
&alpha_conj_nu1,
u, inc_u,
z, inc_z,
a1, rs_A );
bli_daxpyv2b( m_A,
&alpha_conj_psi2,
&alpha_conj_nu2,
u, inc_u,
z, inc_z,
a2, rs_A );
bli_ddotsv2( BLIS_CONJUGATE,
m_A,
a1, rs_A,
a2, rs_A,
up, inc_up,
&zero,
psi1,
psi2 );
bli_dmult4( &minus_inv_tau, psi1, alpha1, alpha1 );
bli_dmult4( &minus_inv_tau, psi2, alpha2, alpha2 );
bli_daxpyv2b( m_A,
alpha1,
alpha2,
a1, rs_A,
a2, rs_A,
w, inc_w );
/*------------------------------------------------------------*/
a1 += twocs_A;
a2 += twocs_A;
psi1 += twoinc_y;
psi2 += twoinc_y;
alpha1 += twoinc_a;
alpha2 += twoinc_a;
nu1 += twoinc_v;
nu2 += twoinc_v;
}
if ( n_left == 1 )
{
double rho1;
bli_dmult3( alpha, psi1, &alpha_conj_psi1 );
bli_dmult3( alpha, nu1, &alpha_conj_nu1 );
bli_daxpyv2b( m_A,
&alpha_conj_psi1,
&alpha_conj_nu1,
u, inc_u,
z, inc_z,
a1, rs_A );
bli_ddot( BLIS_CONJUGATE,
m_A,
a1, rs_A,
up, inc_up,
&rho1 );
bli_dscals( &zero, psi1 );
bli_dadd3( psi1, &rho1, psi1 );
bli_dmult4( &minus_inv_tau, psi1, alpha1, alpha1 );
bli_daxpyv( BLIS_NO_CONJUGATE,
m_A,
alpha1,
a1, rs_A,
w, inc_w );
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Fused_Gerc2_Ahx_Axpy_Ax_ops_var1 | ( | int | m_A, |
| int | n_A, | ||
| float * | buff_tau, | ||
| float * | buff_alpha, | ||
| float * | buff_u, | ||
| int | inc_u, | ||
| float * | buff_y, | ||
| int | inc_y, | ||
| float * | buff_z, | ||
| int | inc_z, | ||
| float * | buff_v, | ||
| int | inc_v, | ||
| float * | buff_A, | ||
| int | rs_A, | ||
| int | cs_A, | ||
| float * | buff_up, | ||
| int | inc_up, | ||
| float * | buff_a, | ||
| int | inc_a, | ||
| float * | buff_w, | ||
| int | inc_w | ||
| ) |
References bli_ssetv(), F77_saxpy(), F77_sdot(), FLA_MINUS_ONE, and FLA_ZERO.
Referenced by FLA_Bidiag_UT_u_step_ofs_var3(), and FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1().
{
float* buff_0 = FLA_FLOAT_PTR( FLA_ZERO );
float* buff_m1 = FLA_FLOAT_PTR( FLA_MINUS_ONE );
float minus_inv_tau;
int i;
bli_ssetv( m_A,
buff_0,
buff_w, inc_w );
minus_inv_tau = *buff_m1 / *buff_tau;
for ( i = 0; i < n_A; ++i )
{
float* a1 = buff_A + (i )*cs_A + (0 )*rs_A;
float* u = buff_u;
float* psi1 = buff_y + (i )*inc_y;
float* nu1 = buff_v + (i )*inc_v;
float* z = buff_z;
float* up = buff_up;
float* alpha1 = buff_a + (i )*inc_a;
float* w = buff_w;
float* alpha = buff_alpha;
float temp1;
float temp2;
/*------------------------------------------------------------*/
// bli_smult3( alpha, psi1, &temp1 );
temp1 = *alpha * *psi1;
// bli_smult3( alpha, nu1, &temp2 );
temp2 = *alpha * *nu1;
// bli_saxpyv( BLIS_NO_CONJUGATE,
// m_A,
// &temp1,
// u, inc_u,
// a1, rs_A );
F77_saxpy( &m_A,
&temp1,
u, &inc_u,
a1, &rs_A );
// bli_saxpyv( BLIS_NO_CONJUGATE,
// m_A,
// &temp2,
// z, inc_z,
// a1, rs_A );
F77_saxpy( &m_A,
&temp2,
z, &inc_z,
a1, &rs_A );
// bli_sdot( BLIS_CONJUGATE,
// m_A,
// a1, rs_A,
// u, inc_u,
// psi1 );
*psi1 = F77_sdot( &m_A,
a1, &rs_A,
up, &inc_up );
// bli_smult4( &minus_inv_tau, psi1, alpha1, alpha1 );
*alpha1 = *alpha1 + minus_inv_tau * *psi1;
// bli_saxpyv( BLIS_NO_CONJUGATE,
// m_A,
// alpha1,
// a1, rs_A,
// w, inc_w );
F77_saxpy( &m_A,
alpha1,
a1, &rs_A,
w, &inc_w );
/*------------------------------------------------------------*/
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1 | ( | FLA_Obj | alpha, |
| FLA_Obj | tau, | ||
| FLA_Obj | u, | ||
| FLA_Obj | y, | ||
| FLA_Obj | z, | ||
| FLA_Obj | v, | ||
| FLA_Obj | A, | ||
| FLA_Obj | up, | ||
| FLA_Obj | a, | ||
| FLA_Obj | w | ||
| ) |
References FLA_Fused_Gerc2_Ahx_Axpy_Ax_opc_var1(), FLA_Fused_Gerc2_Ahx_Axpy_Ax_opd_var1(), FLA_Fused_Gerc2_Ahx_Axpy_Ax_ops_var1(), FLA_Fused_Gerc2_Ahx_Axpy_Ax_opz_var1(), FLA_Obj_col_stride(), FLA_Obj_datatype(), FLA_Obj_length(), FLA_Obj_row_stride(), FLA_Obj_vector_inc(), and FLA_Obj_width().
{
/*
Effective computation:
A = A + alpha * ( u * y' + z * v' );
y = A' * up;
a = a - conj(y) / tau;
w = A * conj(a);
*/
FLA_Datatype datatype;
int m_A, n_A;
int rs_A, cs_A;
int inc_u, inc_y, inc_z, inc_v;
int inc_up, inc_a, inc_w;
datatype = FLA_Obj_datatype( A );
m_A = FLA_Obj_length( A );
n_A = FLA_Obj_width( A );
rs_A = FLA_Obj_row_stride( A );
cs_A = FLA_Obj_col_stride( A );
inc_u = FLA_Obj_vector_inc( u );
inc_y = FLA_Obj_vector_inc( y );
inc_z = FLA_Obj_vector_inc( z );
inc_v = FLA_Obj_vector_inc( v );
inc_up = FLA_Obj_vector_inc( up );
inc_a = FLA_Obj_vector_inc( a );
inc_w = FLA_Obj_vector_inc( w );
switch ( datatype )
{
case FLA_FLOAT:
{
float* buff_A = FLA_FLOAT_PTR( A );
float* buff_u = FLA_FLOAT_PTR( u );
float* buff_y = FLA_FLOAT_PTR( y );
float* buff_z = FLA_FLOAT_PTR( z );
float* buff_v = FLA_FLOAT_PTR( v );
float* buff_up = FLA_FLOAT_PTR( up );
float* buff_a = FLA_FLOAT_PTR( a );
float* buff_w = FLA_FLOAT_PTR( w );
float* buff_tau = FLA_FLOAT_PTR( tau );
float* buff_alpha = FLA_FLOAT_PTR( alpha );
FLA_Fused_Gerc2_Ahx_Axpy_Ax_ops_var1( m_A,
n_A,
buff_tau,
buff_alpha,
buff_u, inc_u,
buff_y, inc_y,
buff_z, inc_z,
buff_v, inc_v,
buff_A, rs_A, cs_A,
buff_up, inc_up,
buff_a, inc_a,
buff_w, inc_w );
break;
}
case FLA_DOUBLE:
{
double* buff_A = FLA_DOUBLE_PTR( A );
double* buff_u = FLA_DOUBLE_PTR( u );
double* buff_y = FLA_DOUBLE_PTR( y );
double* buff_z = FLA_DOUBLE_PTR( z );
double* buff_v = FLA_DOUBLE_PTR( v );
double* buff_up = FLA_DOUBLE_PTR( up );
double* buff_a = FLA_DOUBLE_PTR( a );
double* buff_w = FLA_DOUBLE_PTR( w );
double* buff_tau = FLA_DOUBLE_PTR( tau );
double* buff_alpha = FLA_DOUBLE_PTR( alpha );
FLA_Fused_Gerc2_Ahx_Axpy_Ax_opd_var1( m_A,
n_A,
buff_tau,
buff_alpha,
buff_u, inc_u,
buff_y, inc_y,
buff_z, inc_z,
buff_v, inc_v,
buff_A, rs_A, cs_A,
buff_up, inc_up,
buff_a, inc_a,
buff_w, inc_w );
break;
}
case FLA_COMPLEX:
{
scomplex* buff_A = FLA_COMPLEX_PTR( A );
scomplex* buff_u = FLA_COMPLEX_PTR( u );
scomplex* buff_y = FLA_COMPLEX_PTR( y );
scomplex* buff_z = FLA_COMPLEX_PTR( z );
scomplex* buff_v = FLA_COMPLEX_PTR( v );
scomplex* buff_up = FLA_COMPLEX_PTR( up );
scomplex* buff_a = FLA_COMPLEX_PTR( a );
scomplex* buff_w = FLA_COMPLEX_PTR( w );
scomplex* buff_tau = FLA_COMPLEX_PTR( tau );
scomplex* buff_alpha = FLA_COMPLEX_PTR( alpha );
FLA_Fused_Gerc2_Ahx_Axpy_Ax_opc_var1( m_A,
n_A,
buff_tau,
buff_alpha,
buff_u, inc_u,
buff_y, inc_y,
buff_z, inc_z,
buff_v, inc_v,
buff_A, rs_A, cs_A,
buff_up, inc_up,
buff_a, inc_a,
buff_w, inc_w );
break;
}
case FLA_DOUBLE_COMPLEX:
{
dcomplex* buff_A = FLA_DOUBLE_COMPLEX_PTR( A );
dcomplex* buff_u = FLA_DOUBLE_COMPLEX_PTR( u );
dcomplex* buff_y = FLA_DOUBLE_COMPLEX_PTR( y );
dcomplex* buff_z = FLA_DOUBLE_COMPLEX_PTR( z );
dcomplex* buff_v = FLA_DOUBLE_COMPLEX_PTR( v );
dcomplex* buff_up = FLA_DOUBLE_COMPLEX_PTR( up );
dcomplex* buff_a = FLA_DOUBLE_COMPLEX_PTR( a );
dcomplex* buff_w = FLA_DOUBLE_COMPLEX_PTR( w );
dcomplex* buff_tau = FLA_DOUBLE_COMPLEX_PTR( tau );
dcomplex* buff_alpha = FLA_DOUBLE_COMPLEX_PTR( alpha );
FLA_Fused_Gerc2_Ahx_Axpy_Ax_opz_var1( m_A,
n_A,
buff_tau,
buff_alpha,
buff_u, inc_u,
buff_y, inc_y,
buff_z, inc_z,
buff_v, inc_v,
buff_A, rs_A, cs_A,
buff_up, inc_up,
buff_a, inc_a,
buff_w, inc_w );
break;
}
}
return FLA_SUCCESS;
}
| FLA_Error FLA_Fused_Gerc2_Ahx_Axpy_Ax_opz_var1 | ( | int | m_A, |
| int | n_A, | ||
| dcomplex * | buff_tau, | ||
| dcomplex * | buff_alpha, | ||
| dcomplex * | buff_u, | ||
| int | inc_u, | ||
| dcomplex * | buff_y, | ||
| int | inc_y, | ||
| dcomplex * | buff_z, | ||
| int | inc_z, | ||
| dcomplex * | buff_v, | ||
| int | inc_v, | ||
| dcomplex * | buff_A, | ||
| int | rs_A, | ||
| int | cs_A, | ||
| dcomplex * | buff_up, | ||
| int | inc_up, | ||
| dcomplex * | buff_a, | ||
| int | inc_a, | ||
| dcomplex * | buff_w, | ||
| int | inc_w | ||
| ) |
References bli_z0(), bli_zaxpyv(), bli_zaxpyv2b(), bli_zdot(), bli_zdotsv2(), bli_zm1(), bli_zsetv(), BLIS_CONJUGATE, and BLIS_NO_CONJUGATE.
Referenced by FLA_Bidiag_UT_u_step_ofz_var3(), and FLA_Fused_Gerc2_Ahx_Axpy_Ax_opt_var1().
{
dcomplex zero = bli_z0();
dcomplex minus_one = bli_zm1();
dcomplex* restrict u = buff_u;
dcomplex* restrict up = buff_up;
dcomplex* restrict w = buff_w;
dcomplex* restrict z = buff_z;
dcomplex* restrict alpha = buff_alpha;
dcomplex* restrict a1;
dcomplex* restrict a2;
dcomplex* restrict psi1;
dcomplex* restrict psi2;
dcomplex* restrict alpha1;
dcomplex* restrict alpha2;
dcomplex* restrict nu1;
dcomplex* restrict nu2;
dcomplex minus_inv_tau;
dcomplex conj_psi1;
dcomplex conj_psi2;
dcomplex conj_nu1;
dcomplex conj_nu2;
dcomplex conj_alpha1;
dcomplex conj_alpha2;
dcomplex alpha_conj_psi1;
dcomplex alpha_conj_psi2;
dcomplex alpha_conj_nu1;
dcomplex alpha_conj_nu2;
int i;
int n_run = n_A / 2;
int n_left = n_A % 2;
int twocs_A = 2*cs_A;
int twoinc_y = 2*inc_y;
int twoinc_a = 2*inc_a;
int twoinc_v = 2*inc_v;
bli_zsetv( m_A,
&zero,
buff_w, inc_w );
bli_zdiv3( &minus_one, buff_tau, &minus_inv_tau );
a1 = buff_A;
a2 = buff_A + cs_A;
psi1 = buff_y;
psi2 = buff_y + inc_y;
alpha1 = buff_a;
alpha2 = buff_a + inc_a;
nu1 = buff_v;
nu2 = buff_v + inc_v;
for ( i = 0; i < n_run; ++i )
{
/*------------------------------------------------------------*/
bli_zcopyconj( psi1, &conj_psi1 );
bli_zcopyconj( psi2, &conj_psi2 );
bli_zmult3( alpha, &conj_psi1, &alpha_conj_psi1 );
bli_zmult3( alpha, &conj_psi2, &alpha_conj_psi2 );
bli_zcopyconj( nu1, &conj_nu1 );
bli_zcopyconj( nu2, &conj_nu2 );
bli_zmult3( alpha, &conj_nu1, &alpha_conj_nu1 );
bli_zmult3( alpha, &conj_nu2, &alpha_conj_nu2 );
bli_zaxpyv2b( m_A,
&alpha_conj_psi1,
&alpha_conj_nu1,
u, inc_u,
z, inc_z,
a1, rs_A );
bli_zaxpyv2b( m_A,
&alpha_conj_psi2,
&alpha_conj_nu2,
u, inc_u,
z, inc_z,
a2, rs_A );
bli_zdotsv2( BLIS_CONJUGATE,
m_A,
a1, rs_A,
a2, rs_A,
up, inc_up,
&zero,
psi1,
psi2 );
bli_zcopyconj( psi1, &conj_psi1 );
bli_zcopyconj( psi2, &conj_psi2 );
bli_zmult4( &minus_inv_tau, &conj_psi1, alpha1, alpha1 );
bli_zmult4( &minus_inv_tau, &conj_psi2, alpha2, alpha2 );
bli_zcopyconj( alpha1, &conj_alpha1 );
bli_zcopyconj( alpha2, &conj_alpha2 );
bli_zaxpyv2b( m_A,
&conj_alpha1,
&conj_alpha2,
a1, rs_A,
a2, rs_A,
w, inc_w );
/*------------------------------------------------------------*/
a1 += twocs_A;
a2 += twocs_A;
psi1 += twoinc_y;
psi2 += twoinc_y;
alpha1 += twoinc_a;
alpha2 += twoinc_a;
nu1 += twoinc_v;
nu2 += twoinc_v;
}
if ( n_left == 1 )
{
dcomplex rho1;
bli_zcopyconj( psi1, &conj_psi1 );
bli_zmult3( alpha, &conj_psi1, &alpha_conj_psi1 );
bli_zcopyconj( nu1, &conj_nu1 );
bli_zmult3( alpha, &conj_nu1, &alpha_conj_nu1 );
bli_zaxpyv2b( m_A,
&alpha_conj_psi1,
&alpha_conj_nu1,
u, inc_u,
z, inc_z,
a1, rs_A );
bli_zdot( BLIS_CONJUGATE,
m_A,
a1, rs_A,
up, inc_up,
&rho1 );
bli_zscals( &zero, psi1 );
bli_zadd3( psi1, &rho1, psi1 );
bli_zcopyconj( psi1, &conj_psi1 );
bli_zmult4( &minus_inv_tau, &conj_psi1, alpha1, alpha1 );
bli_zcopyconj( alpha1, &conj_alpha1 );
bli_zaxpyv( BLIS_NO_CONJUGATE,
m_A,
&conj_alpha1,
a1, rs_A,
w, inc_w );
}
return FLA_SUCCESS;
}
1.7.6.1