void bli_ger_blk_var2( obj_t* alpha,
obj_t* x,
obj_t* y,
obj_t* a,
cntx_t* cntx,
ger_t* cntl )
{
obj_t a1, a1_pack;
obj_t y1, y1_pack;
dim_t i;
dim_t b_alg;
dim_t n_trans;
// Initialize objects for packing.
bli_obj_init_pack( &a1_pack );
bli_obj_init_pack( &y1_pack );
// Query dimension in partitioning direction.
n_trans = bli_obj_width_after_trans( *a );
// Partition along the n dimension.
for ( i = 0; i < n_trans; i += b_alg )
{
// Determine the current algorithmic blocksize.
b_alg = bli_determine_blocksize_f( i, n_trans, a,
bli_cntl_bszid( cntl ), cntx );
// Acquire partitions for A1 and y1.
bli_acquire_mpart_l2r( BLIS_SUBPART1,
i, b_alg, a, &a1 );
bli_acquire_vpart_f2b( BLIS_SUBPART1,
i, b_alg, y, &y1 );
// Initialize objects for packing A1 and y1 (if needed).
bli_packm_init( &a1, &a1_pack,
cntx, bli_cntl_sub_packm_a( cntl ) );
bli_packv_init( &y1, &y1_pack,
cntx, bli_cntl_sub_packv_y( cntl ) );
// Copy/pack A1, y1 (if needed).
bli_packm_int( &a1, &a1_pack,
cntx, bli_cntl_sub_packm_a( cntl ),
&BLIS_PACKM_SINGLE_THREADED );
bli_packv_int( &y1, &y1_pack,
cntx, bli_cntl_sub_packv_y( cntl ) );
// A1 = A1 + alpha * x * y1;
bli_ger_int( BLIS_NO_CONJUGATE,
BLIS_NO_CONJUGATE,
alpha,
x,
&y1_pack,
&a1_pack,
cntx,
bli_cntl_sub_ger( cntl ) );
// Copy/unpack A1 (if A1 was packed).
bli_unpackm_int( &a1_pack, &a1,
cntx, bli_cntl_sub_unpackm_a( cntl ),
&BLIS_PACKM_SINGLE_THREADED );
}
// If any packing buffers were acquired within packm, release them back
// to the memory manager.
bli_packm_release( &a1_pack, bli_cntl_sub_packm_a( cntl ) );
bli_packv_release( &y1_pack, bli_cntl_sub_packv_y( cntl ) );
}
void bli_her2_blk_var3( conj_t conjh,
obj_t* alpha,
obj_t* alpha_conj,
obj_t* x,
obj_t* y,
obj_t* c,
her2_t* cntl )
{
obj_t c11, c11_pack;
obj_t c10;
obj_t c21;
obj_t x1, x1_pack;
obj_t y1, y1_pack;
obj_t y0;
obj_t y2;
dim_t mn;
dim_t ij;
dim_t b_alg;
// Even though this blocked algorithm is expressed only in terms of the
// lower triangular case, the upper triangular case is still supported:
// when bli_acquire_mpart_tl2br() is passed a matrix that is stored in
// in the upper triangle, and the requested subpartition resides in the
// lower triangle (as is the case for this algorithm), the routine fills
// the request as if the caller had actually requested the corresponding
// "mirror" subpartition in the upper triangle, except that it marks the
// subpartition for transposition (and conjugation).
// Initialize objects for packing.
bli_obj_init_pack( &c11_pack );
bli_obj_init_pack( &x1_pack );
bli_obj_init_pack( &y1_pack );
// Query dimension.
mn = bli_obj_length( *c );
// Partition diagonally.
for ( ij = 0; ij < mn; ij += b_alg )
{
// Determine the current algorithmic blocksize.
b_alg = bli_determine_blocksize_f( ij, mn, c,
cntl_blocksize( cntl ) );
// Acquire partitions for C11, C10, C21, x1, y1, y0, and y2.
bli_acquire_mpart_tl2br( BLIS_SUBPART11,
ij, b_alg, c, &c11 );
bli_acquire_mpart_tl2br( BLIS_SUBPART10,
ij, b_alg, c, &c10 );
bli_acquire_mpart_tl2br( BLIS_SUBPART21,
ij, b_alg, c, &c21 );
bli_acquire_vpart_f2b( BLIS_SUBPART1,
ij, b_alg, x, &x1 );
bli_acquire_vpart_f2b( BLIS_SUBPART1,
ij, b_alg, y, &y1 );
bli_acquire_vpart_f2b( BLIS_SUBPART0,
ij, b_alg, y, &y0 );
bli_acquire_vpart_f2b( BLIS_SUBPART2,
ij, b_alg, y, &y2 );
// Initialize objects for packing C11, x1, and y1 (if needed).
bli_packm_init( &c11, &c11_pack,
cntl_sub_packm_c11( cntl ) );
bli_packv_init( &x1, &x1_pack,
cntl_sub_packv_x1( cntl ) );
bli_packv_init( &y1, &y1_pack,
cntl_sub_packv_y1( cntl ) );
// Copy/pack C11, x1, y1 (if needed).
bli_packm_int( &c11, &c11_pack,
cntl_sub_packm_c11( cntl ),
&BLIS_PACKM_SINGLE_THREADED );
bli_packv_int( &x1, &x1_pack,
cntl_sub_packv_x1( cntl ) );
bli_packv_int( &y1, &y1_pack,
cntl_sub_packv_y1( cntl ) );
// C10 = C10 + alpha * x1 * y0';
bli_ger_int( BLIS_NO_CONJUGATE,
conjh,
alpha,
&x1_pack,
&y0,
&c10,
cntl_sub_ger_rp( cntl ) );
// C21 = C21 + conj(alpha) * y2 * x1';
bli_ger_int( BLIS_NO_CONJUGATE,
conjh,
alpha_conj,
&y2,
&x1_pack,
&c21,
cntl_sub_ger_cp( cntl ) );
// C11 = C11 + alpha * x1 * y1' + conj(alpha) * y1 * x1';
bli_her2_int( conjh,
alpha,
alpha_conj,
&x1_pack,
&y1_pack,
&c11_pack,
cntl_sub_her2( cntl ) );
// Copy/unpack C11 (if C11 was packed).
bli_unpackm_int( &c11_pack, &c11,
cntl_sub_unpackm_c11( cntl ),
&BLIS_PACKM_SINGLE_THREADED );
}
// If any packing buffers were acquired within packm, release them back
// to the memory manager.
bli_obj_release_pack( &c11_pack );
bli_obj_release_pack( &x1_pack );
bli_obj_release_pack( &y1_pack );
}
