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39fa7136f4
Details: - Implemented optional packing for A or B (or both) within the sup framework (which currently only supports gemm). The request for packing either matrix A or matrix B can be made via setting environment variables BLIS_PACK_A or BLIS_PACK_B (to any non-zero value; if set, zero means "disable packing"). It can also be made globally at runtime via bli_pack_set_pack_a() and bli_pack_set_pack_b() or with individual rntm_t objects via bli_rntm_set_pack_a() and bli_rntm_set_pack_b() if using the expert interface of either the BLIS typed or object APIs. (If using the BLAS API, environment variables are the only way to communicate the packing request.) - One caveat (for now) with the current implementation of selective packing is that any blocksize extension registered in the _cntx_init function (such as is currently used by haswell and zen subconfigs) will be ignored if the affected matrix is packed. The reason is simply that I didn't get around to implementing the necessary logic to pack a larger edge-case micropanel, though this is entirely possible and should be done in the future. - Spun off the variant-choosing portion of bli_gemmsup_ref() into bli_gemmsup_int(), in bli_l3_sup_int.c. - Added new files, bli_l3_sup_packm_a.c, bli_l3_sup_packm_b.c, along with corresponding headers, in which higher-level packm-related functions are defined for use within the sup framework. The actual packm variant code resides in bli_l3_sup_packm_var.c. - Pass the following new parameters into var1n and var2m: packa, packb bool_t's, pointer to a rntm_t, pointer to a cntl_t (which is for now always NULL), and pointer to a thrinfo_t* (which for nowis the address of the global single-threaded packm thread control node). - Added panel strides ps_a and ps_b to the auxinfo_t structure so that the millikernel can query the panel stride of the packed matrix and step through it accordingly. If the matrix isn't packed, the panel stride of interest for the given millikernel will be set to the appropriate value so that the mkernel may step through the unpacked matrix as it normally would. - Modified the rv_6x8m and rv_6x8n millikernels to read the appropriate panel strides (ps_a and ps_b, respectively) instead of computing them on the fly. - Spun off the environment variable getting and setting functions into a new file, bli_env.c (with a corresponding prototype header). These functions are now used by the threading infrastructure (e.g. BLIS_NUM_THREADS, BLIS_JC_NT, etc.) as well as the selective packing infrastructure (e.g. BLIS_PACK_A, BLIS_PACK_B). - Added a static initializer for mem_t objects, BLIS_MEM_INITIALIZER. - Added a static initializer for pblk_t objects, BLIS_PBLK_INITIALIZER, for use within the definition of BLIS_MEM_INITIALIZER. - Moved the global_rntm object to bli_rntm.c and extern it where needed. This means that the function bli_thread_init_rntm() was renamed to bli_rntm_init_from_global() and relocated accordingly. - Added a new bli_pack.c function, which serves as the home for functions that manage the pack_a and pack_b fields of the global rntm_t, including from environment variables, just as we have functions to manage the threading fields of the global rntm_t in bli_thread.c. - Reorganized naming for files in frame/thread, which mostly involved spinning off the bli_l3_thread_decorator() functions into their own files. This change makes more sense when considering the further addition of bli_l3_sup_thread_decorator() functions (for now limited only to the single-threaded form found in the _single.c file). - Explicitly initialize the reference sup handlers in both bli_cntx_init_haswell.c and bli_cntx_init_zen.c so that it's more obvious how to customize to a different handler, if desired. - Removed various snippets of disabled code. - Various comment updates.
283 lines
7.8 KiB
C
283 lines
7.8 KiB
C
/*
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BLIS
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An object-based framework for developing high-performance BLAS-like
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libraries.
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Copyright (C) 2014, The University of Texas at Austin
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Copyright (C) 2016, Hewlett Packard Enterprise Development LP
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Copyright (C) 2018 - 2019, Advanced Micro Devices, Inc.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are
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met:
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- Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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- Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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- Neither the name(s) of the copyright holder(s) nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef BLIS_THREAD_H
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#define BLIS_THREAD_H
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// Include thread communicator (thrcomm_t) object definitions and prototypes.
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#include "bli_thrcomm.h"
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// Include thread info (thrinfo_t) object definitions and prototypes.
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#include "bli_thrinfo.h"
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// Include some operation-specific thrinfo_t prototypes.
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// Note that the bli_packm_thrinfo.h must be included before the others!
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#include "bli_packm_thrinfo.h"
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#include "bli_l3_thrinfo.h"
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// Include the level-3 thread decorator and related definitions and prototypes
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// for the conventional code path.
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#include "bli_l3_decor.h"
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// Include the level-3 thread decorator and related definitions and prototypes
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// for the sup code path.
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#include "bli_l3_sup_decor.h"
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// Initialization-related prototypes.
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void bli_thread_init( void );
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void bli_thread_finalize( void );
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#ifdef _MSC_VER
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#define strerror_r(errno,buf,len) strerror_s(buf,len,errno)
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#endif
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// Thread range-related prototypes.
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void bli_thread_range_sub
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(
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thrinfo_t* thread,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* start,
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dim_t* end
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);
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#undef GENPROT
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#define GENPROT( opname ) \
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\
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siz_t PASTEMAC0( opname ) \
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( \
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dir_t direct, \
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thrinfo_t* thr, \
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obj_t* a, \
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obj_t* b, \
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obj_t* c, \
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cntl_t* cntl, \
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cntx_t* cntx, \
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dim_t* start, \
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dim_t* end \
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);
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GENPROT( thread_range_mdim )
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GENPROT( thread_range_ndim )
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#undef GENPROT
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#define GENPROT( opname ) \
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\
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siz_t PASTEMAC0( opname ) \
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( \
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thrinfo_t* thr, \
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obj_t* a, \
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blksz_t* bmult, \
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dim_t* start, \
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dim_t* end \
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);
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GENPROT( thread_range_l2r )
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GENPROT( thread_range_r2l )
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GENPROT( thread_range_t2b )
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GENPROT( thread_range_b2t )
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GENPROT( thread_range_weighted_l2r )
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GENPROT( thread_range_weighted_r2l )
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GENPROT( thread_range_weighted_t2b )
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GENPROT( thread_range_weighted_b2t )
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dim_t bli_thread_range_width_l
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(
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doff_t diagoff_j,
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dim_t m,
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dim_t n_j,
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dim_t j,
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dim_t n_way,
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dim_t bf,
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dim_t bf_left,
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double area_per_thr,
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bool_t handle_edge_low
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);
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siz_t bli_find_area_trap_l
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(
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dim_t m,
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dim_t n,
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doff_t diagoff
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);
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siz_t bli_thread_range_weighted_sub
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(
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thrinfo_t* restrict thread,
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doff_t diagoff,
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uplo_t uplo,
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dim_t m,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* restrict j_start_thr,
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dim_t* restrict j_end_thr
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);
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// -----------------------------------------------------------------------------
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// Factorization and partitioning prototypes
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typedef struct
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{
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dim_t n;
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dim_t sqrt_n;
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dim_t f;
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} bli_prime_factors_t;
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void bli_prime_factorization(dim_t n, bli_prime_factors_t* factors);
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dim_t bli_next_prime_factor(bli_prime_factors_t* factors);
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void bli_partition_2x2(dim_t nthread, dim_t work1, dim_t work2, dim_t* nt1, dim_t* nt2);
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// -----------------------------------------------------------------------------
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dim_t bli_gcd( dim_t x, dim_t y );
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dim_t bli_lcm( dim_t x, dim_t y );
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dim_t bli_ipow( dim_t base, dim_t power );
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// -----------------------------------------------------------------------------
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BLIS_EXPORT_BLIS dim_t bli_thread_get_jc_nt( void );
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BLIS_EXPORT_BLIS dim_t bli_thread_get_pc_nt( void );
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BLIS_EXPORT_BLIS dim_t bli_thread_get_ic_nt( void );
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BLIS_EXPORT_BLIS dim_t bli_thread_get_jr_nt( void );
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BLIS_EXPORT_BLIS dim_t bli_thread_get_ir_nt( void );
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BLIS_EXPORT_BLIS dim_t bli_thread_get_num_threads( void );
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BLIS_EXPORT_BLIS void bli_thread_set_ways( dim_t jc, dim_t pc, dim_t ic, dim_t jr, dim_t ir );
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BLIS_EXPORT_BLIS void bli_thread_set_num_threads( dim_t value );
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void bli_thread_init_rntm_from_env( rntm_t* rntm );
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// -----------------------------------------------------------------------------
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static void bli_thread_range_jrir_rr
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(
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thrinfo_t* thread,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* start,
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dim_t* end,
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dim_t* inc
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)
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{
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// Use interleaved partitioning of jr/ir loops.
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*start = bli_thread_work_id( thread );
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*inc = bli_thread_n_way( thread );
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*end = n;
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}
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static void bli_thread_range_jrir_sl
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(
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thrinfo_t* thread,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* start,
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dim_t* end,
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dim_t* inc
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)
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{
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// Use contiguous slab partitioning of jr/ir loops.
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bli_thread_range_sub( thread, n, bf, handle_edge_low, start, end );
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*inc = 1;
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}
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static void bli_thread_range_jrir
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(
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thrinfo_t* thread,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* start,
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dim_t* end,
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dim_t* inc
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)
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{
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// Define a general-purpose version of bli_thread_range_jrir() whose
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// definition depends on whether slab or round-robin partitioning was
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// requested at configure-time.
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#ifdef BLIS_ENABLE_JRIR_SLAB
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bli_thread_range_jrir_sl( thread, n, bf, handle_edge_low, start, end, inc );
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#else
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bli_thread_range_jrir_rr( thread, n, bf, handle_edge_low, start, end, inc );
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#endif
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}
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#if 0
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static void bli_thread_range_weighted_jrir
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(
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thrinfo_t* thread,
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doff_t diagoff,
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uplo_t uplo,
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dim_t m,
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dim_t n,
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dim_t bf,
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bool_t handle_edge_low,
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dim_t* start,
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dim_t* end,
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dim_t* inc
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)
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{
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#ifdef BLIS_ENABLE_JRIR_SLAB
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// Use contiguous slab partitioning for jr/ir loops.
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bli_thread_range_weighted_sub( thread, diagoff, uplo, m, n, bf,
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handle_edge_low, start, end );
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*start = *start / bf; *inc = 1;
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if ( *end % bf ) *end = *end / bf + 1;
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else *end = *end / bf;
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#else
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// Use interleaved partitioning of jr/ir loops.
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*start = bli_thread_work_id( thread );
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*inc = bli_thread_n_way( thread );
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*end = n;
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#endif
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}
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#endif
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#endif
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