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blis/test/test_ger.c
Field G. Van Zee 88ad841434 Squash-merge 'pr' into 'squash'. (#457) 
Merged contributions from AMD's AOCL BLIS (#448).
  
Details:
- Added support for level-3 operation gemmt, which performs a gemm on
  only the lower or upper triangle of a square matrix C. For now, only
  the conventional/large code path will be supported (in vanilla BLIS).
  This was accomplished by leveraging the existing variant logic for
  herk. However, some of the infrastructure to support a gemmtsup is
  included in this commit, including
  - A bli_gemmtsup() front-end, similar to bli_gemmsup().
  - A bli_gemmtsup_ref() reference handler function.
  - A bli_gemmtsup_int() variant chooser function (with variant calls
    commented out).
- Added support for inducing complex domain gemmt via the 1m method.
- Added gemmt APIs to the BLAS and CBLAS compatiblity layers.
- Added gemmt test module to testsuite.
- Added standalone gemmt test driver to 'test' directory.
- Documented gemmt APIs in BLISObjectAPI.md and BLISTypedAPI.md.
- Added a C++ template header (blis.hh) containing a BLAS-inspired
  wrapper to a set of polymorphic CBLAS-like function wrappers defined
  in another header (cblas.hh). These two headers are installed if
  running the 'install' target with INSTALL_HH is set to 'yes'. (Also
  added a set of unit tests that exercise blis.hh, although they are
  disabled for now because they aren't compatible with out-of-tree
  builds.) These files now live in the 'vendor' top-level directory.
- Various updates to 'zen' and 'zen2' subconfigurations, particularly
  within the context initialization functions.
- Added s and d copyv, setv, and swapv kernels to kernels/zen/1, and
  various minor updates to dotv and scalv kernels. Also added various
  sup kernels contributed by AMD to kernels/zen/3. However, these
  kernels are (for now) not yet used, in part because they caused
  AppVeyor clang failures, and also because I have not found time to
  review and vet them.
- Output the python found during configure into the definition of PYTHON
  in build/config.mk (via build/config.mk.in).
- Added early-return checks (A, B, or C with zero dimension; alpha = 0)
  to bli_gemm_front.c.
- Implemented explicit beta = 0 handling in for the sgemm ukernel in
  bli_gemm_armv7a_int_d4x4.c, which was previously missing. This latent
  bug surfaced because the gemmt module verifies its computation using
  gemm with its beta parameter set to zero, which, on a cortexa15 system
  caused the gemm kernel code to unconditionally multiply the
  uninitialized C data by beta. The C matrix likely contained
  non-numeric values such as NaN, which then would have resulted in a
  false failure.
- Fixed a bug whereby the implementation for bli_herk_determine_kc(),
  in bli_l3_blocksize.c, was inadvertantly being defined in terms of
  helper functions meant for trmm. This bug was probably harmless since
  the trmm code should have also done the right thing for herk.
- Used cpp macros to neutralize the various AOCL_DTL_TRACE_ macros in
  kernels/zen/3/bli_gemm_small.c since those macros are not used in
  vanilla BLIS.
- Added cpp guard to definition of bli_mem_clear() in bli_mem.h to
  accommodate C++'s stricter type checking.
- Added cpp guard to test/*.c drivers that facilitate compilation on
  Windows systems.
- Various whitespace changes.
2020-11-14 09:39:48 -06:00

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/*
BLIS
An object-based framework for developing high-performance BLAS-like
libraries.
Copyright (C) 2014, The University of Texas at Austin
Copyright (C) 2020, Advanced Micro Devices, Inc. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name(s) of the copyright holder(s) nor the names of its
contributors may be used to endorse or promote products derived
from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifdef WIN32
#include <io.h>
#else
#include <unistd.h>
#endif
#include "blis.h"
// m n alpha x incx y incy a lda
//void dger_( int*, int*, double*, double*, int*, double*, int*, double*, int* );
//#define PRINT
int main( int argc, char** argv )
{
obj_t a, x, y;
obj_t a_save;
obj_t alpha;
dim_t m, n;
dim_t p;
dim_t p_begin, p_end, p_inc;
int m_input, n_input;
num_t dt_a, dt_x, dt_y, dt;
num_t dt_alpha;
int r, n_repeats;
double dtime;
double dtime_save;
double gflops;
//bli_init();
n_repeats = 3;
#ifndef PRINT
p_begin = 40;
p_end = 4000;
p_inc = 40;
m_input = -1;
n_input = -1;
#else
p_begin = 16;
p_end = 16;
p_inc = 1;
m_input = 15;
n_input = 15;
#endif
dt = dt_alpha = dt_x = dt_y = dt_a = BLIS_FLOAT;
// Begin with initializing the last entry to zero so that
// matlab allocates space for the entire array once up-front.
for ( p = p_begin; p + p_inc <= p_end; p += p_inc ) ;
#ifdef BLIS
printf( "data_ger_blis" );
#else
printf( "data_ger_%s", BLAS );
#endif
printf( "( %2lu, 1:3 ) = [ %4lu %4lu %7.2f ];\n",
( unsigned long )(p - p_begin)/p_inc + 1,
( unsigned long )0,
( unsigned long )0, 0.0 );
//for ( p = p_begin; p <= p_end; p += p_inc )
for ( p = p_end; p_begin <= p; p -= p_inc )
{
if ( m_input < 0 ) m = p * ( dim_t )abs(m_input);
else m = ( dim_t ) m_input;
if ( n_input < 0 ) n = p * ( dim_t )abs(n_input);
else n = ( dim_t ) n_input;
bli_obj_create( dt_alpha, 1, 1, 0, 0, &alpha );
bli_obj_create( dt_x, m, 1, 0, 0, &x );
bli_obj_create( dt_y, n, 1, 0, 0, &y );
bli_obj_create( dt_a, m, n, 0, 0, &a );
bli_obj_create( dt_a, m, n, 0, 0, &a_save );
bli_randm( &x );
bli_randm( &y );
bli_randm( &a );
bli_setsc( (0.9/1.0), -1.1, &alpha );
bli_copym( &a, &a_save );
dtime_save = DBL_MAX;
for ( r = 0; r < n_repeats; ++r )
{
bli_copym( &a_save, &a );
dtime = bli_clock();
#ifdef PRINT
bli_printm( "x", &x, "%4.1f", "" );
bli_printm( "y", &y, "%4.1f", "" );
bli_printm( "a", &a, "%4.1f", "" );
#endif
#ifdef BLIS
bli_ger( &alpha,
&x,
&y,
&a );
#else
if(bli_is_float(dt))
{
f77_int mm = bli_obj_length( &a );
f77_int nn = bli_obj_width( &a );
f77_int incx = bli_obj_vector_inc( &x );
f77_int incy = bli_obj_vector_inc( &y );
f77_int lda = bli_obj_col_stride( &a );
float* alphap = bli_obj_buffer( &alpha );
float* xp = bli_obj_buffer( &x );
float* yp = bli_obj_buffer( &y );
float* ap = bli_obj_buffer( &a );
sger_( &mm,
&nn,
alphap,
xp, &incx,
yp, &incy,
ap, &lda );
}
else if(bli_is_double(dt))
{
f77_int mm = bli_obj_length( &a );
f77_int nn = bli_obj_width( &a );
f77_int incx = bli_obj_vector_inc( &x );
f77_int incy = bli_obj_vector_inc( &y );
f77_int lda = bli_obj_col_stride( &a );
double* alphap = bli_obj_buffer( &alpha );
double* xp = bli_obj_buffer( &x );
double* yp = bli_obj_buffer( &y );
double* ap = bli_obj_buffer( &a );
dger_( &mm,
&nn,
alphap,
xp, &incx,
yp, &incy,
ap, &lda );
}
else if(bli_is_scomplex(dt))
{
f77_int mm = bli_obj_length( &a );
f77_int nn = bli_obj_width( &a );
f77_int incx = bli_obj_vector_inc( &x );
f77_int incy = bli_obj_vector_inc( &y );
f77_int lda = bli_obj_col_stride( &a );
scomplex* alphap = bli_obj_buffer( &alpha );
scomplex* xp = bli_obj_buffer( &x );
scomplex* yp = bli_obj_buffer( &y );
scomplex* ap = bli_obj_buffer( &a );
cgeru_( &mm,
&nn,
alphap,
xp, &incx,
yp, &incy,
ap, &lda );
}
else if(bli_is_dcomplex(dt))
{
f77_int mm = bli_obj_length( &a );
f77_int nn = bli_obj_width( &a );
f77_int incx = bli_obj_vector_inc( &x );
f77_int incy = bli_obj_vector_inc( &y );
f77_int lda = bli_obj_col_stride( &a );
dcomplex* alphap = bli_obj_buffer( &alpha );
dcomplex* xp = bli_obj_buffer( &x );
dcomplex* yp = bli_obj_buffer( &y );
dcomplex* ap = bli_obj_buffer( &a );
zgeru_( &mm,
&nn,
alphap,
xp, &incx,
yp, &incy,
ap, &lda );
}
#endif
#ifdef PRINT
bli_printm( "a after", &a, "%4.1f", "" );
exit(1);
#endif
dtime_save = bli_clock_min_diff( dtime_save, dtime );
}
gflops = ( 2.0 * m * n ) / ( dtime_save * 1.0e9 );
if(bli_is_complex(dt)) gflops *= 4.0;
#ifdef BLIS
printf( "data_ger_blis" );
#else
printf( "data_ger_%s", BLAS );
#endif
printf( "( %2lu, 1:3 ) = [ %4lu %4lu %7.2f ];\n",
( unsigned long )(p - p_begin)/p_inc + 1,
( unsigned long )m,
( unsigned long )n, gflops );
bli_obj_free( &alpha );
bli_obj_free( &x );
bli_obj_free( &y );
bli_obj_free( &a );
bli_obj_free( &a_save );
}
//bli_finalize();
return 0;
}
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