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e293cae2d1
Details: - Created a set of single-precision real millikernels and microkernels comparable to the dgemmsup kernels that already exist within BLIS. - Added prototypes for all kernels within bli_kernels_haswell.h. - Registered entry-point millikernels in bli_cntx_init_haswell.c and bli_cntx_init_zen.c. - Added sgemmsup support to the Makefile, runme.sh script, and source file in test/sup. This included edits that allow for separate "small" dimensions for single- and double-precision as well as for single- vs. multithreaded execution.
681 lines
22 KiB
C
681 lines
22 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) 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 of The University of Texas 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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#include <unistd.h>
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#ifdef EIGEN
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#define BLIS_DISABLE_BLAS_DEFS
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#include "blis.h"
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#include <Eigen/Core>
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//#include <Eigen/src/misc/blas.h>
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using namespace Eigen;
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#else
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#include "blis.h"
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#endif
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//#define PRINT
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int main( int argc, char** argv )
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{
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rntm_t rntm_g;
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bli_init();
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// Copy the global rntm_t object so that we can use it later when disabling
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// sup. Starting with a copy of the global rntm_t is actually necessary;
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// if we start off with a locally-initialized rntm_t, it will not contain
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// the ways of parallelism that were conveyed via environment variables,
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// which is necessary when running this driver with multiple BLIS threads.
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bli_rntm_init_from_global( &rntm_g );
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#ifndef ERROR_CHECK
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bli_error_checking_level_set( BLIS_NO_ERROR_CHECKING );
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#endif
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dim_t n_trials = N_TRIALS;
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num_t dt = DT;
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#if 1
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dim_t p_begin = P_BEGIN;
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dim_t p_max = P_MAX;
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dim_t p_inc = P_INC;
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#else
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dim_t p_begin = 4;
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dim_t p_max = 40;
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dim_t p_inc = 4;
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#endif
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#if 1
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dim_t m_input = M_DIM;
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dim_t n_input = N_DIM;
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dim_t k_input = K_DIM;
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#else
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p_begin = p_inc = 32;
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dim_t m_input = 6;
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dim_t n_input = -1;
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dim_t k_input = -1;
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#endif
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#if 1
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trans_t transa = TRANSA;
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trans_t transb = TRANSB;
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#else
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trans_t transa = BLIS_NO_TRANSPOSE;
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trans_t transb = BLIS_NO_TRANSPOSE;
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#endif
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#if 1
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stor3_t sc = STOR3;
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#else
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stor3_t sc = BLIS_RRR;
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#endif
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inc_t rs_c, cs_c;
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inc_t rs_a, cs_a;
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inc_t rs_b, cs_b;
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f77_int cbla_storage;
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if ( sc == BLIS_RRR ) cbla_storage = CblasRowMajor;
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else if ( sc == BLIS_CCC ) cbla_storage = CblasColMajor;
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else cbla_storage = -1;
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( void )cbla_storage;
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char dt_ch;
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// Choose the char corresponding to the requested datatype.
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if ( bli_is_float( dt ) ) dt_ch = 's';
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else if ( bli_is_double( dt ) ) dt_ch = 'd';
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else if ( bli_is_scomplex( dt ) ) dt_ch = 'c';
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else dt_ch = 'z';
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f77_char f77_transa;
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f77_char f77_transb;
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char transal, transbl;
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bli_param_map_blis_to_netlib_trans( transa, &f77_transa );
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bli_param_map_blis_to_netlib_trans( transb, &f77_transb );
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transal = tolower( f77_transa );
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transbl = tolower( f77_transb );
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f77_int cbla_transa = ( transal == 'n' ? CblasNoTrans : CblasTrans );
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f77_int cbla_transb = ( transbl == 'n' ? CblasNoTrans : CblasTrans );
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( void )cbla_transa;
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( void )cbla_transb;
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dim_t p;
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// Begin with initializing the last entry to zero so that
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// matlab allocates space for the entire array once up-front.
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for ( p = p_begin; p + p_inc <= p_max; p += p_inc ) ;
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printf( "data_%s_%cgemm_%c%c_%s", THR_STR, dt_ch,
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transal, transbl, STR );
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printf( "( %2lu, 1:4 ) = [ %4lu %4lu %4lu %7.2f ];\n",
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( unsigned long )(p - p_begin)/p_inc + 1,
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( unsigned long )0,
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( unsigned long )0,
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( unsigned long )0, 0.0 );
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// Flush the initialization-inducing statement above so there is
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// at least one line of output even if the implementation crashes.
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fflush( stdout );
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//for ( p = p_begin; p <= p_max; p += p_inc )
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for ( p = p_max; p_begin <= p; p -= p_inc )
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{
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obj_t a, b, c;
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obj_t c_save;
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obj_t alpha, beta;
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dim_t m, n, k;
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if ( m_input < 0 ) m = p / ( dim_t )abs(m_input);
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else m = ( dim_t ) m_input;
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if ( n_input < 0 ) n = p / ( dim_t )abs(n_input);
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else n = ( dim_t ) n_input;
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if ( k_input < 0 ) k = p / ( dim_t )abs(k_input);
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else k = ( dim_t ) k_input;
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#ifdef LDIM_SMALL
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// Setting the row and column strides of a matrix to '0' is a shorthand
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// request for column storage; using '-1' is shorthand for row storage.
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//else if ( sc == BLIS_RRC ) { rs_c = cs_c = -1; rs_a = cs_a = -1; rs_b = cs_b = 0; }
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//else if ( sc == BLIS_RCR ) { rs_c = cs_c = -1; rs_a = cs_a = 0; rs_b = cs_b = -1; }
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//else if ( sc == BLIS_RCC ) { rs_c = cs_c = -1; rs_a = cs_a = 0; rs_b = cs_b = 0; }
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//else if ( sc == BLIS_CRR ) { rs_c = cs_c = 0; rs_a = cs_a = -1; rs_b = cs_b = -1; }
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//else if ( sc == BLIS_CRC ) { rs_c = cs_c = 0; rs_a = cs_a = -1; rs_b = cs_b = 0; }
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//else if ( sc == BLIS_CCR ) { rs_c = cs_c = 0; rs_a = cs_a = 0; rs_b = cs_b = -1; }
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if ( sc == BLIS_RRR ) { rs_c = -1; rs_a = -1; rs_b = -1;
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cs_c = -1; cs_a = -1; cs_b = -1; }
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else if ( sc == BLIS_RRC ) { rs_c = -1; rs_a = -1; rs_b = 0;
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cs_c = -1; cs_a = -1; cs_b = 0; }
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else if ( sc == BLIS_RCR ) { rs_c = -1; rs_a = 0; rs_b = -1;
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cs_c = -1; cs_a = 0; cs_b = -1; }
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else if ( sc == BLIS_RCC ) { rs_c = -1; rs_a = 0; rs_b = 0;
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cs_c = -1; cs_a = 0; cs_b = 0; }
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else if ( sc == BLIS_CRR ) { rs_c = 0; rs_a = -1; rs_b = -1;
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cs_c = 0; cs_a = -1; cs_b = -1; }
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else if ( sc == BLIS_CRC ) { rs_c = 0; rs_a = -1; rs_b = 0;
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cs_c = 0; cs_a = -1; cs_b = 0; }
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else if ( sc == BLIS_CCR ) { rs_c = 0; rs_a = 0; rs_b = -1;
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cs_c = 0; cs_a = 0; cs_b = -1; }
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else if ( sc == BLIS_CCC ) { rs_c = 0; rs_a = 0; rs_b = 0;
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cs_c = 0; cs_a = 0; cs_b = 0; }
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else { bli_abort(); }
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#else // LDIM_LARGE
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#if 0
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const dim_t m_large = m;
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const dim_t n_large = n;
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const dim_t k_large = k;
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#else
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const dim_t m_large = p_max;
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const dim_t n_large = p_max;
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const dim_t k_large = p_max;
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#endif
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if ( sc == BLIS_RRR ) { rs_c = n_large; rs_a = k_large; rs_b = n_large;
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cs_c = 1; cs_a = 1; cs_b = 1; }
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else if ( sc == BLIS_RRC ) { rs_c = n_large; rs_a = k_large; rs_b = 1;
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cs_c = 1; cs_a = 1; cs_b = k_large; }
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else if ( sc == BLIS_RCR ) { rs_c = n_large; rs_a = 1; rs_b = n_large;
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cs_c = 1; cs_a = m_large; cs_b = 1; }
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else if ( sc == BLIS_RCC ) { rs_c = n_large; rs_a = 1; rs_b = 1;
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cs_c = 1; cs_a = m_large; cs_b = k_large; }
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else if ( sc == BLIS_CRR ) { rs_c = 1; rs_a = k_large; rs_b = n_large;
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cs_c = m_large; cs_a = 1; cs_b = 1; }
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else if ( sc == BLIS_CRC ) { rs_c = 1; rs_a = k_large; rs_b = 1;
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cs_c = m_large; cs_a = 1; cs_b = k_large; }
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else if ( sc == BLIS_CCR ) { rs_c = 1; rs_a = 1; rs_b = n_large;
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cs_c = m_large; cs_a = m_large; cs_b = 1; }
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else if ( sc == BLIS_CCC ) { rs_c = 1; rs_a = 1; rs_b = 1;
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cs_c = m_large; cs_a = m_large; cs_b = k_large; }
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else { bli_abort(); }
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#endif
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bli_obj_create( dt, 1, 1, 0, 0, &alpha );
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bli_obj_create( dt, 1, 1, 0, 0, &beta );
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bli_obj_create( dt, m, n, rs_c, cs_c, &c );
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bli_obj_create( dt, m, n, rs_c, cs_c, &c_save );
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if ( bli_does_notrans( transa ) )
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bli_obj_create( dt, m, k, rs_a, cs_a, &a );
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else
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bli_obj_create( dt, k, m, cs_a, rs_a, &a );
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if ( bli_does_notrans( transb ) )
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bli_obj_create( dt, k, n, rs_b, cs_b, &b );
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else
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bli_obj_create( dt, n, k, cs_b, rs_b, &b );
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bli_randm( &a );
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bli_randm( &b );
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bli_randm( &c );
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bli_obj_set_conjtrans( transa, &a );
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bli_obj_set_conjtrans( transb, &b );
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bli_setsc( (1.0/1.0), 0.0, &alpha );
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bli_setsc( (1.0/1.0), 0.0, &beta );
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bli_copym( &c, &c_save );
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#ifdef EIGEN
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double alpha_r, alpha_i;
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bli_getsc( &alpha, &alpha_r, &alpha_i );
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void* ap = bli_obj_buffer_at_off( &a );
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void* bp = bli_obj_buffer_at_off( &b );
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void* cp = bli_obj_buffer_at_off( &c );
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const int os_a = ( bli_obj_is_col_stored( &a ) ? bli_obj_col_stride( &a )
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: bli_obj_row_stride( &a ) );
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const int os_b = ( bli_obj_is_col_stored( &b ) ? bli_obj_col_stride( &b )
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: bli_obj_row_stride( &b ) );
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const int os_c = ( bli_obj_is_col_stored( &c ) ? bli_obj_col_stride( &c )
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: bli_obj_row_stride( &c ) );
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Stride<Dynamic,1> stride_a( os_a, 1 );
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Stride<Dynamic,1> stride_b( os_b, 1 );
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Stride<Dynamic,1> stride_c( os_c, 1 );
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#if defined(IS_FLOAT)
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#ifdef A_STOR_R
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typedef Matrix<float, Dynamic, Dynamic, RowMajor> MatrixXs_A;
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#else
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typedef Matrix<float, Dynamic, Dynamic, ColMajor> MatrixXs_A;
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#endif
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#ifdef B_STOR_R
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typedef Matrix<float, Dynamic, Dynamic, RowMajor> MatrixXs_B;
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#else
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typedef Matrix<float, Dynamic, Dynamic, ColMajor> MatrixXs_B;
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#endif
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#ifdef C_STOR_R
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typedef Matrix<float, Dynamic, Dynamic, RowMajor> MatrixXs_C;
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#else
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typedef Matrix<float, Dynamic, Dynamic, ColMajor> MatrixXs_C;
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#endif
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#ifdef A_NOTRANS // A is not transposed
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Map<MatrixXs_A, 0, Stride<Dynamic,1> > A( ( float* )ap, m, k, stride_a );
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#else // A is transposed
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Map<MatrixXs_A, 0, Stride<Dynamic,1> > A( ( float* )ap, k, m, stride_a );
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#endif
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#ifdef B_NOTRANS // B is not transposed
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Map<MatrixXs_B, 0, Stride<Dynamic,1> > B( ( float* )bp, k, n, stride_b );
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#else // B is transposed
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Map<MatrixXs_B, 0, Stride<Dynamic,1> > B( ( float* )bp, n, k, stride_b );
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#endif
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Map<MatrixXs_C, 0, Stride<Dynamic,1> > C( ( float* )cp, m, n, stride_c );
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#elif defined (IS_DOUBLE)
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#ifdef A_STOR_R
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typedef Matrix<double, Dynamic, Dynamic, RowMajor> MatrixXd_A;
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#else
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typedef Matrix<double, Dynamic, Dynamic, ColMajor> MatrixXd_A;
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#endif
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#ifdef B_STOR_R
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typedef Matrix<double, Dynamic, Dynamic, RowMajor> MatrixXd_B;
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#else
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typedef Matrix<double, Dynamic, Dynamic, ColMajor> MatrixXd_B;
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#endif
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#ifdef C_STOR_R
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typedef Matrix<double, Dynamic, Dynamic, RowMajor> MatrixXd_C;
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#else
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typedef Matrix<double, Dynamic, Dynamic, ColMajor> MatrixXd_C;
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#endif
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#ifdef A_NOTRANS // A is not transposed
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Map<MatrixXd_A, 0, Stride<Dynamic,1> > A( ( double* )ap, m, k, stride_a );
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#else // A is transposed
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Map<MatrixXd_A, 0, Stride<Dynamic,1> > A( ( double* )ap, k, m, stride_a );
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#endif
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#ifdef B_NOTRANS // B is not transposed
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Map<MatrixXd_B, 0, Stride<Dynamic,1> > B( ( double* )bp, k, n, stride_b );
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#else // B is transposed
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Map<MatrixXd_B, 0, Stride<Dynamic,1> > B( ( double* )bp, n, k, stride_b );
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#endif
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Map<MatrixXd_C, 0, Stride<Dynamic,1> > C( ( double* )cp, m, n, stride_c );
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#endif
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#endif
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double dtime_save = DBL_MAX;
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for ( dim_t r = 0; r < n_trials; ++r )
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{
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bli_copym( &c_save, &c );
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double dtime = bli_clock();
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#ifdef EIGEN
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#ifdef A_NOTRANS
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#ifdef B_NOTRANS
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C.noalias() += alpha_r * A * B;
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#else // B_TRANS
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C.noalias() += alpha_r * A * B.transpose();
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#endif
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#else // A_TRANS
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#ifdef B_NOTRANS
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C.noalias() += alpha_r * A.transpose() * B;
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#else // B_TRANS
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C.noalias() += alpha_r * A.transpose() * B.transpose();
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#endif
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#endif
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#endif
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#ifdef BLIS
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#ifdef SUP
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// Allow sup.
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bli_gemm( &alpha,
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&a,
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&b,
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&beta,
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&c );
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#else
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// NOTE: We can't use the static initializer and must instead
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// initialize the rntm_t with the copy from the global rntm_t we
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// made at the beginning of main(). Please see the comment there
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// for more info on why BLIS_RNTM_INITIALIZER doesn't work here.
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//rntm_t rntm = BLIS_RNTM_INITIALIZER;
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rntm_t rntm = rntm_g;
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// Disable sup and use the expert interface.
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bli_rntm_disable_l3_sup( &rntm );
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bli_gemm_ex( &alpha,
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&a,
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&b,
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&beta,
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&c, NULL, &rntm );
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#endif
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#endif
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#ifdef BLAS
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if ( bli_is_float( dt ) )
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{
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f77_int mm = bli_obj_length( &c );
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f77_int kk = bli_obj_width_after_trans( &a );
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f77_int nn = bli_obj_width( &c );
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f77_int lda = bli_obj_col_stride( &a );
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f77_int ldb = bli_obj_col_stride( &b );
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f77_int ldc = bli_obj_col_stride( &c );
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float* alphap = ( float* )bli_obj_buffer( &alpha );
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float* ap = ( float* )bli_obj_buffer( &a );
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float* bp = ( float* )bli_obj_buffer( &b );
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float* betap = ( float* )bli_obj_buffer( &beta );
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float* cp = ( float* )bli_obj_buffer( &c );
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#ifdef XSMM
|
|
libxsmm_sgemm( &f77_transa,
|
|
#else
|
|
sgemm_( &f77_transa,
|
|
#endif
|
|
&f77_transb,
|
|
&mm,
|
|
&nn,
|
|
&kk,
|
|
alphap,
|
|
ap, &lda,
|
|
bp, &ldb,
|
|
betap,
|
|
cp, &ldc );
|
|
}
|
|
else if ( bli_is_double( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
double* alphap = ( double* )bli_obj_buffer( &alpha );
|
|
double* ap = ( double* )bli_obj_buffer( &a );
|
|
double* bp = ( double* )bli_obj_buffer( &b );
|
|
double* betap = ( double* )bli_obj_buffer( &beta );
|
|
double* cp = ( double* )bli_obj_buffer( &c );
|
|
|
|
#ifdef XSMM
|
|
libxsmm_dgemm( &f77_transa,
|
|
#else
|
|
dgemm_( &f77_transa,
|
|
#endif
|
|
&f77_transb,
|
|
&mm,
|
|
&nn,
|
|
&kk,
|
|
alphap,
|
|
ap, &lda,
|
|
bp, &ldb,
|
|
betap,
|
|
cp, &ldc );
|
|
}
|
|
else if ( bli_is_scomplex( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
scomplex* alphap = ( scomplex* )bli_obj_buffer( &alpha );
|
|
scomplex* ap = ( scomplex* )bli_obj_buffer( &a );
|
|
scomplex* bp = ( scomplex* )bli_obj_buffer( &b );
|
|
scomplex* betap = ( scomplex* )bli_obj_buffer( &beta );
|
|
scomplex* cp = ( scomplex* )bli_obj_buffer( &c );
|
|
|
|
#ifdef XSMM
|
|
libxsmm_cgemm( &f77_transa,
|
|
#else
|
|
cgemm_( &f77_transa,
|
|
#endif
|
|
&f77_transb,
|
|
&mm,
|
|
&nn,
|
|
&kk,
|
|
alphap,
|
|
ap, &lda,
|
|
bp, &ldb,
|
|
betap,
|
|
cp, &ldc );
|
|
}
|
|
else if ( bli_is_dcomplex( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
dcomplex* alphap = ( dcomplex* )bli_obj_buffer( &alpha );
|
|
dcomplex* ap = ( dcomplex* )bli_obj_buffer( &a );
|
|
dcomplex* bp = ( dcomplex* )bli_obj_buffer( &b );
|
|
dcomplex* betap = ( dcomplex* )bli_obj_buffer( &beta );
|
|
dcomplex* cp = ( dcomplex* )bli_obj_buffer( &c );
|
|
|
|
#ifdef XSMM
|
|
libxsmm_zgemm( &f77_transa,
|
|
#else
|
|
zgemm_( &f77_transa,
|
|
#endif
|
|
&f77_transb,
|
|
&mm,
|
|
&nn,
|
|
&kk,
|
|
alphap,
|
|
ap, &lda,
|
|
bp, &ldb,
|
|
betap,
|
|
cp, &ldc );
|
|
}
|
|
#endif
|
|
#ifdef CBLAS
|
|
if ( bli_is_float( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
#ifdef C_STOR_R
|
|
f77_int lda = bli_obj_row_stride( &a );
|
|
f77_int ldb = bli_obj_row_stride( &b );
|
|
f77_int ldc = bli_obj_row_stride( &c );
|
|
#else
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
#endif
|
|
float* alphap = bli_obj_buffer( &alpha );
|
|
float* ap = bli_obj_buffer( &a );
|
|
float* bp = bli_obj_buffer( &b );
|
|
float* betap = bli_obj_buffer( &beta );
|
|
float* cp = bli_obj_buffer( &c );
|
|
|
|
cblas_sgemm( cbla_storage,
|
|
cbla_transa,
|
|
cbla_transb,
|
|
mm,
|
|
nn,
|
|
kk,
|
|
*alphap,
|
|
ap, lda,
|
|
bp, ldb,
|
|
*betap,
|
|
cp, ldc );
|
|
}
|
|
else if ( bli_is_double( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
#ifdef C_STOR_R
|
|
f77_int lda = bli_obj_row_stride( &a );
|
|
f77_int ldb = bli_obj_row_stride( &b );
|
|
f77_int ldc = bli_obj_row_stride( &c );
|
|
#else
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
#endif
|
|
double* alphap = bli_obj_buffer( &alpha );
|
|
double* ap = bli_obj_buffer( &a );
|
|
double* bp = bli_obj_buffer( &b );
|
|
double* betap = bli_obj_buffer( &beta );
|
|
double* cp = bli_obj_buffer( &c );
|
|
|
|
cblas_dgemm( cbla_storage,
|
|
cbla_transa,
|
|
cbla_transb,
|
|
mm,
|
|
nn,
|
|
kk,
|
|
*alphap,
|
|
ap, lda,
|
|
bp, ldb,
|
|
*betap,
|
|
cp, ldc );
|
|
}
|
|
else if ( bli_is_scomplex( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
#ifdef C_STOR_R
|
|
f77_int lda = bli_obj_row_stride( &a );
|
|
f77_int ldb = bli_obj_row_stride( &b );
|
|
f77_int ldc = bli_obj_row_stride( &c );
|
|
#else
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
#endif
|
|
scomplex* alphap = bli_obj_buffer( &alpha );
|
|
scomplex* ap = bli_obj_buffer( &a );
|
|
scomplex* bp = bli_obj_buffer( &b );
|
|
scomplex* betap = bli_obj_buffer( &beta );
|
|
scomplex* cp = bli_obj_buffer( &c );
|
|
|
|
cblas_cgemm( cbla_storage,
|
|
cbla_transa,
|
|
cbla_transb,
|
|
mm,
|
|
nn,
|
|
kk,
|
|
alphap,
|
|
ap, lda,
|
|
bp, ldb,
|
|
betap,
|
|
cp, ldc );
|
|
}
|
|
else if ( bli_is_dcomplex( dt ) )
|
|
{
|
|
f77_int mm = bli_obj_length( &c );
|
|
f77_int kk = bli_obj_width_after_trans( &a );
|
|
f77_int nn = bli_obj_width( &c );
|
|
#ifdef C_STOR_R
|
|
f77_int lda = bli_obj_row_stride( &a );
|
|
f77_int ldb = bli_obj_row_stride( &b );
|
|
f77_int ldc = bli_obj_row_stride( &c );
|
|
#else
|
|
f77_int lda = bli_obj_col_stride( &a );
|
|
f77_int ldb = bli_obj_col_stride( &b );
|
|
f77_int ldc = bli_obj_col_stride( &c );
|
|
#endif
|
|
dcomplex* alphap = bli_obj_buffer( &alpha );
|
|
dcomplex* ap = bli_obj_buffer( &a );
|
|
dcomplex* bp = bli_obj_buffer( &b );
|
|
dcomplex* betap = bli_obj_buffer( &beta );
|
|
dcomplex* cp = bli_obj_buffer( &c );
|
|
|
|
cblas_zgemm( cbla_storage,
|
|
cbla_transa,
|
|
cbla_transb,
|
|
mm,
|
|
nn,
|
|
kk,
|
|
alphap,
|
|
ap, lda,
|
|
bp, ldb,
|
|
betap,
|
|
cp, ldc );
|
|
}
|
|
#endif
|
|
|
|
dtime_save = bli_clock_min_diff( dtime_save, dtime );
|
|
}
|
|
|
|
double gflops = ( 2.0 * m * k * n ) / ( dtime_save * 1.0e9 );
|
|
|
|
if ( bli_is_complex( dt ) ) gflops *= 4.0;
|
|
|
|
printf( "data_%s_%cgemm_%c%c_%s", THR_STR, dt_ch,
|
|
transal, transbl, STR );
|
|
printf( "( %2lu, 1:4 ) = [ %4lu %4lu %4lu %7.2f ];\n",
|
|
( unsigned long )(p - p_begin)/p_inc + 1,
|
|
( unsigned long )m,
|
|
( unsigned long )n,
|
|
( unsigned long )k, gflops );
|
|
|
|
bli_obj_free( &alpha );
|
|
bli_obj_free( &beta );
|
|
|
|
bli_obj_free( &a );
|
|
bli_obj_free( &b );
|
|
bli_obj_free( &c );
|
|
bli_obj_free( &c_save );
|
|
}
|
|
|
|
//bli_finalize();
|
|
|
|
return 0;
|
|
}
|
|
|