예제 #1
0
void libblis_test_axpyf_experiment( test_params_t* params,
                                    test_op_t*     op,
                                    iface_t        iface,
                                    num_t          datatype,
                                    char*          pc_str,
                                    char*          sc_str,
                                    unsigned int   p_cur,
                                    double*        perf,
                                    double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m, b_n;

	conj_t       conja, conjx;

	obj_t        alpha, a, x, y;
	obj_t        y_save;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Query the operation's fusing factor for the current datatype.
	b_n = bli_axpyf_fusefac( datatype );

	// Store the fusing factor so that the driver can retrieve the value
	// later when printing results.
	op->dim_aux[0] = b_n;

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_conj( pc_str[0], &conja );
	bli_param_map_char_to_blis_conj( pc_str[1], &conjx );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                                            sc_str[0], m, b_n, &a );
	libblis_test_vobj_create( params, datatype, sc_str[1], b_n, &x );
	libblis_test_vobj_create( params, datatype, sc_str[2], m, &y );
	libblis_test_vobj_create( params, datatype, sc_str[2], m, &y_save );

	// Set alpha.
	if ( bli_obj_is_real( y ) )
	{
		bli_setsc( -1.0,  0.0, &alpha );
	}
	else
	{
		bli_setsc(  0.0, -1.0, &alpha );
	}

	// Randomize A, x, and y, and save y.
	bli_randm( &a );
	bli_randv( &x );
	bli_randv( &y );
	bli_copyv( &y, &y_save );

	// Apply the parameters.
	bli_obj_set_conj( conja, a );
	bli_obj_set_conj( conjx, x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copyv( &y_save, &y );

		time = bli_clock();

		libblis_test_axpyf_impl( iface, &alpha, &a, &x, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m * b_n ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( y ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_axpyf_check( &alpha, &a, &x, &y, &y_save, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &a );
	bli_obj_free( &x );
	bli_obj_free( &y );
	bli_obj_free( &y_save );
}
예제 #2
0
파일: test_setv.c 프로젝트: jmhautbois/blis
void libblis_test_setv_experiment( test_params_t* params,
                                   test_op_t*     op,
                                   iface_t        iface,
                                   num_t          datatype,
                                   char*          pc_str,
                                   char*          sc_str,
                                   unsigned int   p_cur,
                                   double*        perf,
                                   double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m;

	obj_t        beta;
	obj_t        x;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.


	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_vobj_create( params, datatype, sc_str[0], m, &x );

	// Initialize beta to unit.
	bli_copysc( &BLIS_ONE, &beta );

	// Randomize x.
	bli_randv( &x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		time = bli_clock();

		libblis_test_setv_impl( iface, &beta, &x );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 1.0 * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( x ) ) *perf *= 2.0;

	// Perform checks.
	libblis_test_setv_check( &beta, &x, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &x, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
}
예제 #3
0
void libblis_test_herk_experiment
     (
       test_params_t* params,
       test_op_t*     op,
       iface_t        iface,
       num_t          datatype,
       char*          pc_str,
       char*          sc_str,
       unsigned int   p_cur,
       double*        perf,
       double*        resid
     )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m, k;

	uplo_t       uploc;
	trans_t      transa;

	obj_t        alpha, a, beta, c;
	obj_t        c_save;


	// Map the dimension specifier to actual dimensions.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );
	k = libblis_test_get_dim_from_prob_size( op->dim_spec[1], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_uplo( pc_str[0], &uploc );
	bli_param_map_char_to_blis_trans( pc_str[1], &transa );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, transa,
	                          sc_str[0], m, k, &a );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[1], m, m, &c );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[1], m, m, &c_save );

	// Set alpha and beta.
	if ( bli_obj_is_real( c ) )
	{
		bli_setsc(  1.2, 0.0, &alpha );
		bli_setsc( -1.0, 0.0, &beta );
	}
	else
	{
		// For herk, alpha and beta must both be real-valued, even in the
		// complex case (in order to preserve the Hermitian structure of C).
		bli_setsc(  1.2, 0.0, &alpha );
		bli_setsc( -1.0, 0.0, &beta );
	}

	// Randomize A.
	libblis_test_mobj_randomize( params, TRUE, &a );

	// Set the structure and uplo properties of C.
	bli_obj_set_struc( BLIS_HERMITIAN, c );
	bli_obj_set_uplo( uploc, c );

	// Randomize A, make it densely Hermitian, and zero the unstored triangle
	// to ensure the implementation is reads only from the stored region.
	libblis_test_mobj_randomize( params, TRUE, &c );
	bli_mkherm( &c );
	bli_mktrim( &c );

	// Save C and set its structure and uplo properties.
	bli_obj_set_struc( BLIS_HERMITIAN, c_save );
	bli_obj_set_uplo( uploc, c_save );
	bli_copym( &c, &c_save );

	// Apply the remaining parameters.
	bli_obj_set_conjtrans( transa, a );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copym( &c_save, &c );

		time = bli_clock();

		libblis_test_herk_impl( iface, &alpha, &a, &beta, &c );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 1.0 * m * m * k ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( c ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_herk_check( params, &alpha, &a, &beta, &c, &c_save, resid );

	// Zero out performance and residual if output matrix is empty.
	libblis_test_check_empty_problem( &c, perf, resid );

	// Free the test objects.
	bli_obj_free( &a );
	bli_obj_free( &c );
	bli_obj_free( &c_save );
}
예제 #4
0
void libblis_test_randv_experiment
     (
       test_params_t* params,
       test_op_t*     op,
       iface_t        iface,
       num_t          datatype,
       char*          pc_str,
       char*          sc_str,
       unsigned int   p_cur,
       double*        perf,
       double*        resid
     )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m;

	char         x_store;

	obj_t        x;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.


	// Extract the storage character for each operand.
	x_store = sc_str[0];

	// Create the test objects.
	libblis_test_vobj_create( params, datatype, x_store, m, &x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		time = bli_clock();

		libblis_test_randv_impl( iface, &x );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( x ) ) *perf *= 2.0;

	// Perform checks.
	// For randv(), we don't return a meaningful residual/diff, since we can't
	// really say for sure what is "random" and what is not, so instead we
	// manually perform some checks that will fail under some scenarios whic
	// we consider to be likely.
	libblis_test_randv_check( params, &x, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &x, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
}
예제 #5
0
파일: test_hemm.c 프로젝트: jmhautbois/blis
void libblis_test_hemm_experiment( test_params_t* params,
                                   test_op_t*     op,
                                   iface_t        iface,
                                   num_t          datatype,
                                   char*          pc_str,
                                   char*          sc_str,
                                   unsigned int   p_cur,
                                   double*        perf,
                                   double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m, n;
	dim_t        mn_side;

	side_t       side;
	uplo_t       uploa;
	conj_t       conja;
	trans_t      transb;

	obj_t        kappa;
	obj_t        alpha, a, b, beta, c;
	obj_t        c_save;


	// Map the dimension specifier to actual dimensions.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );
	n = libblis_test_get_dim_from_prob_size( op->dim_spec[1], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_side( pc_str[0], &side );
	bli_param_map_char_to_blis_uplo( pc_str[1], &uploa );
	bli_param_map_char_to_blis_conj( pc_str[2], &conja );
	bli_param_map_char_to_blis_trans( pc_str[3], &transb );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &kappa );
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	bli_set_dim_with_side( side, m, n, mn_side );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[0], mn_side, mn_side, &a );
	libblis_test_mobj_create( params, datatype, transb,
	                          sc_str[1], m,       n,       &b );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[2], m,       n,       &c );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[2], m,       n,       &c_save );

	// Set alpha and beta.
	if ( bli_obj_is_real( c ) )
	{
		bli_setsc(  1.2,  0.0, &alpha );
		bli_setsc( -1.0,  0.0, &beta );
	}
	else
	{
		bli_setsc(  1.2,  0.8, &alpha );
		bli_setsc( -1.0,  1.0, &beta );
	}

	// Set the structure and uplo properties of A.
	bli_obj_set_struc( BLIS_HERMITIAN, a );
	bli_obj_set_uplo( uploa, a );

	// Randomize A, make it densely Hermitian, and zero the unstored triangle
	// to ensure the implementation reads only from the stored region.
	bli_randm( &a );
	bli_mkherm( &a );
	bli_mktrim( &a );

	// Randomize B and C, and save C.
	bli_randm( &b );
	bli_randm( &c );
	bli_copym( &c, &c_save );

	// Normalize by m.
	bli_setsc( 1.0/( double )m, 0.0, &kappa );
	bli_scalm( &kappa, &b );

	// Apply the remaining parameters.
	bli_obj_set_conj( conja, a );
	bli_obj_set_conjtrans( transb, b );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copym( &c_save, &c );

		time = bli_clock();

		libblis_test_hemm_impl( iface, side, &alpha, &a, &b, &beta, &c );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * mn_side * m * n ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( c ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_hemm_check( side, &alpha, &a, &b, &beta, &c, &c_save, resid );

	// Zero out performance and residual if output matrix is empty.
	libblis_test_check_empty_problem( &c, perf, resid );

	// Free the test objects.
	bli_obj_free( &a );
	bli_obj_free( &b );
	bli_obj_free( &c );
	bli_obj_free( &c_save );
}
예제 #6
0
void libblis_test_dotaxpyv_experiment( test_params_t* params,
                                       test_op_t*     op,
                                       iface_t        iface,
                                       num_t          datatype,
                                       char*          pc_str,
                                       char*          sc_str,
                                       unsigned int   p_cur,
                                       double*        perf,
                                       double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m;

	conj_t       conjxt, conjx, conjy;
	conj_t       conjconjxty;

	obj_t        alpha, xt, x, y, rho, z;
	obj_t        z_save;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_conj( pc_str[0], &conjxt );
	bli_param_map_char_to_blis_conj( pc_str[1], &conjx );
	bli_param_map_char_to_blis_conj( pc_str[2], &conjy );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &rho );

	// Create test operands (vectors and/or matrices).
	libblis_test_vobj_create( params, datatype, sc_str[0], m, &x );
	libblis_test_vobj_create( params, datatype, sc_str[1], m, &y );
	libblis_test_vobj_create( params, datatype, sc_str[2], m, &z );
	libblis_test_vobj_create( params, datatype, sc_str[2], m, &z_save );

	// Set alpha.
	if ( bli_obj_is_real( z ) )
	{
		bli_setsc( -0.8,  0.0, &alpha );
	}
	else
	{
		bli_setsc(  0.0, -0.8, &alpha );
	}

	// Randomize x and z, and save z.
	bli_randv( &x );
	bli_randv( &z );
	bli_copyv( &z, &z_save );

	// Create an alias to x for xt. (Note that it doesn't actually need to be
	// transposed.)
	bli_obj_alias_to( x, xt );

	// Determine whether to make a copy of x with or without conjugation.
	// 
	//  conjx conjy  ~conjx^conjy   y is initialized as
	//  n     n      c              y = conj(x)
	//  n     c      n              y = x
	//  c     n      n              y = x
	//  c     c      c              y = conj(x)
	//
	conjconjxty = bli_apply_conj( conjxt, conjy );
	conjconjxty = bli_conj_toggled( conjconjxty );
	bli_obj_set_conj( conjconjxty, xt );
	bli_copyv( &xt, &y );

	// Apply the parameters.
	bli_obj_set_conj( conjxt, xt );
	bli_obj_set_conj( conjx,  x );
	bli_obj_set_conj( conjy,  y );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copysc( &BLIS_MINUS_ONE, &rho );
		bli_copyv( &z_save, &z );

		time = bli_clock();

		libblis_test_dotaxpyv_impl( iface, &alpha, &xt, &x, &y, &rho, &z );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m + 2.0 * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( z ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_dotaxpyv_check( &alpha, &xt, &x, &y, &rho, &z, &z_save, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &z, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
	bli_obj_free( &y );
	bli_obj_free( &z );
	bli_obj_free( &z_save );
}
예제 #7
0
파일: test_scal2v.c 프로젝트: ipolkovn/blis
void libblis_test_scal2v_experiment( test_params_t* params,
                                     test_op_t*     op,
                                     iface_t        iface,
                                     num_t          datatype,
                                     char*          pc_str,
                                     char*          sc_str,
                                     unsigned int   p_cur,
                                     double*        perf,
                                     double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m;

	conj_t       conjx;

	obj_t        alpha, x, y;
	obj_t        y_save;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_conj( pc_str[0], &conjx );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );

	// Create test operands (vectors and/or matrices).
	libblis_test_vobj_create( params, datatype, sc_str[0], m, &x );
	libblis_test_vobj_create( params, datatype, sc_str[1], m, &y );
	libblis_test_vobj_create( params, datatype, sc_str[1], m, &y_save );

	// Set alpha.
	//bli_setsc( sqrt(2.0)/2.0, sqrt(2.0)/2.0, &alpha );
	//bli_copysc( &BLIS_TWO, &alpha );
	if ( bli_obj_is_real( y ) )
		bli_setsc( -2.0,  0.0, &alpha );
	else
		bli_setsc(  0.0, -2.0, &alpha );

	// Randomize x and y, and save y.
	bli_randv( &x );
	bli_randv( &y );
	bli_copyv( &y, &y_save );

	// Apply the parameters.
	bli_obj_set_conj( conjx, x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copyv( &y_save, &y );

		time = bli_clock();

		libblis_test_scal2v_impl( iface, &alpha, &x, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( y ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_scal2v_check( &alpha, &x, &y, &y_save, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
	bli_obj_free( &y );
	bli_obj_free( &y_save );
}
예제 #8
0
파일: test_addv.c 프로젝트: jmhautbois/blis
void libblis_test_addv_experiment( test_params_t* params,
                                   test_op_t*     op,
                                   iface_t        iface,
                                   num_t          datatype,
                                   char*          pc_str,
                                   char*          sc_str,
                                   unsigned int   p_cur,
                                   double*        perf,
                                   double*        resid )
{
	double       time_min  = 1e9;
	double       time;

	dim_t        m;

	conj_t       conjx;

	obj_t        alpha, beta;
	obj_t        x, y;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_conj( pc_str[0], &conjx );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_vobj_create( params, datatype, sc_str[0], m, &x );
	libblis_test_vobj_create( params, datatype, sc_str[1], m, &y );

	// Initialize alpha and beta.
	bli_setsc( -1.0, -1.0, &alpha );
	bli_setsc(  3.0,  3.0, &beta );

	// Set x and y to alpha and beta, respectively.
	bli_setv( &alpha, &x );
	bli_setv( &beta,  &y );

	// Apply the parameters.
	bli_obj_set_conj( conjx, x );

	// Disable repeats since bli_copyv() is not yet tested. 
	//for ( i = 0; i < n_repeats; ++i )
	{
		time = bli_clock();

		libblis_test_addv_impl( iface, &x, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( x ) ) *perf *= 2.0;

	// Perform checks.
	libblis_test_addv_check( &alpha, &beta, &x, &y, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
	bli_obj_free( &y );
}
예제 #9
0
파일: test_copym.c 프로젝트: figual/blis
void libblis_test_copym_experiment
     (
       test_params_t* params,
       test_op_t*     op,
       iface_t        iface,
       char*          dc_str,
       char*          pc_str,
       char*          sc_str,
       unsigned int   p_cur,
       double*        perf,
       double*        resid
     )
{
	double       time_min  = DBL_MAX;
	double       time;

	num_t        datatype;

	dim_t        m, n;

	trans_t      transx;

	obj_t        x, y;


	// Use the datatype of the first char in the datatype combination string.
	bli_param_map_char_to_blis_dt( dc_str[0], &datatype );

	// Map the dimension specifier to actual dimensions.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );
	n = libblis_test_get_dim_from_prob_size( op->dim_spec[1], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_trans( pc_str[0], &transx );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, transx,
	                          sc_str[0], m, n, &x );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[1], m, n, &y );

	// Randomize x and set y to one.
	libblis_test_mobj_randomize( params, FALSE, &x );
	bli_setm( &BLIS_ONE, &y );

	// Apply the parameters.
	bli_obj_set_conjtrans( transx, &x );

	// Disable repeats since bli_copym() is not yet tested.
	//for ( i = 0; i < n_repeats; ++i )
	{
		time = bli_clock();

		libblis_test_copym_impl( iface, &x, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 1.0 * m * n ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( &x ) ) *perf *= 2.0;

	// Perform checks.
	libblis_test_copym_check( params, &x, &y, resid );

	// Zero out performance and residual if output matrix is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &x );
	bli_obj_free( &y );
}
예제 #10
0
void libblis_test_symv_experiment
     (
       test_params_t* params,
       test_op_t*     op,
       iface_t        iface,
       num_t          datatype,
       char*          pc_str,
       char*          sc_str,
       unsigned int   p_cur,
       double*        perf,
       double*        resid
     )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = DBL_MAX;
	double       time;

	dim_t        m;

	uplo_t       uploa;
	conj_t       conja;
	conj_t       conjx;

	obj_t        alpha, a, x, beta, y;
	obj_t        y_save;


	// Map the dimension specifier to an actual dimension.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_uplo( pc_str[0], &uploa );
	bli_param_map_char_to_blis_conj( pc_str[1], &conja );
	bli_param_map_char_to_blis_conj( pc_str[2], &conjx );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[0], m, m, &a );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[1], m,    &x );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[2], m,    &y );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[2], m,    &y_save );

	// Set alpha and beta.
	if ( bli_obj_is_real( y ) )
	{
		bli_setsc(  1.0,  0.0, &alpha );
		bli_setsc( -1.0,  0.0, &beta );
	}
	else
	{
		bli_setsc(  0.5,  0.5, &alpha );
		bli_setsc( -0.5,  0.5, &beta );
	}

	// Set the structure and uplo properties of A.
	bli_obj_set_struc( BLIS_SYMMETRIC, a );
	bli_obj_set_uplo( uploa, a );

	// Randomize A, make it densely symmetric, and zero the unstored triangle
	// to ensure the implementation reads only from the stored region.
	libblis_test_mobj_randomize( params, TRUE, &a );
	bli_mksymm( &a );
	bli_mktrim( &a );

	// Randomize x and y, and save y.
	libblis_test_vobj_randomize( params, TRUE, &x );
	libblis_test_vobj_randomize( params, TRUE, &y );
	bli_copyv( &y, &y_save );

	// Apply the remaining parameters.
	bli_obj_set_conj( conja, a );
	bli_obj_set_conj( conjx, x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copym( &y_save, &y );

		time = bli_clock();

		libblis_test_symv_impl( iface, &alpha, &a, &x, &beta, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 1.0 * m * m ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( y ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_symv_check( params, &alpha, &a, &x, &beta, &y, &y_save, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &a );
	bli_obj_free( &x );
	bli_obj_free( &y );
	bli_obj_free( &y_save );
}
예제 #11
0
파일: test_scalm.c 프로젝트: ShawnLess/blis
void libblis_test_scalm_experiment( test_params_t* params,
                                    test_op_t*     op,
                                    iface_t        iface,
                                    num_t          datatype,
                                    char*          pc_str,
                                    char*          sc_str,
                                    unsigned int   p_cur,
                                    double*        perf,
                                    double*        resid )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = 1e9;
	double       time;

	dim_t        m, n;

	conj_t       conjbeta;

	obj_t        beta, y;
	obj_t        y_save;


	// Map the dimension specifier to actual dimensions.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );
	n = libblis_test_get_dim_from_prob_size( op->dim_spec[1], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_conj( pc_str[0], &conjbeta );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[0], m, n, &y );
	libblis_test_mobj_create( params, datatype, BLIS_NO_TRANSPOSE,
	                          sc_str[0], m, n, &y_save );

	// Set beta to 0 + i.
	//bli_setsc( 0.0, 1.0, &beta );
	if ( bli_obj_is_real( y ) )
		bli_setsc( -2.0,  0.0, &beta );
	else
		bli_setsc(  0.0, -2.0, &beta );

	// Randomize and save y.
	bli_randm( &y );
	bli_copym( &y, &y_save );

	// Apply the parameters.
	bli_obj_set_conj( conjbeta, beta );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copym( &y_save, &y );

		time = bli_clock();

		libblis_test_scalm_impl( iface, &beta, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 1.0 * m * n ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( y ) ) *perf *= 6.0;

	// Perform checks.
	libblis_test_scalm_check( &beta, &y, &y_save, resid );

	// Zero out performance and residual if output matrix is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &y );
	bli_obj_free( &y_save );
}
예제 #12
0
파일: test_gemv.c 프로젝트: figual/blis
void libblis_test_gemv_experiment
     (
       test_params_t* params,
       test_op_t*     op,
       iface_t        iface,
       char*          dc_str,
       char*          pc_str,
       char*          sc_str,
       unsigned int   p_cur,
       double*        perf,
       double*        resid
     )
{
	unsigned int n_repeats = params->n_repeats;
	unsigned int i;

	double       time_min  = DBL_MAX;
	double       time;

	num_t        datatype;

	dim_t        m, n;

	trans_t      transa;
	conj_t       conjx;

	obj_t        kappa;
	obj_t        alpha, a, x, beta, y;
	obj_t        y_save;


	// Use the datatype of the first char in the datatype combination string.
	bli_param_map_char_to_blis_dt( dc_str[0], &datatype );

	// Map the dimension specifier to actual dimensions.
	m = libblis_test_get_dim_from_prob_size( op->dim_spec[0], p_cur );
	n = libblis_test_get_dim_from_prob_size( op->dim_spec[1], p_cur );

	// Map parameter characters to BLIS constants.
	bli_param_map_char_to_blis_trans( pc_str[0], &transa );
	bli_param_map_char_to_blis_conj( pc_str[1], &conjx );

	// Create test scalars.
	bli_obj_scalar_init_detached( datatype, &kappa );
	bli_obj_scalar_init_detached( datatype, &alpha );
	bli_obj_scalar_init_detached( datatype, &beta );

	// Create test operands (vectors and/or matrices).
	libblis_test_mobj_create( params, datatype, transa,
	                          sc_str[0], m, n, &a );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[1], n,    &x );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[2], m,    &y );
	libblis_test_vobj_create( params, datatype,
	                          sc_str[2], m,    &y_save );

	// Set alpha and beta.
	if ( bli_obj_is_real( &y ) )
	{
		bli_setsc(  2.0,  0.0, &alpha );
		bli_setsc( -1.0,  0.0, &beta );
	}
	else
	{
		bli_setsc(  1.0,  2.0, &alpha );
		bli_setsc(  1.0, -1.0, &beta );
	}

	// Initialize diagonal of matrix A.
	bli_setsc( 2.0, -1.0, &kappa );
	bli_setm( &BLIS_ZERO, &a );
	bli_setd( &kappa, &a );

	// Randomize x and y, and save y.
	libblis_test_vobj_randomize( params, TRUE, &x );
	libblis_test_vobj_randomize( params, TRUE, &y );
	bli_copyv( &y, &y_save );

	// Apply the parameters.
	bli_obj_set_conjtrans( transa, &a );
	bli_obj_set_conj( conjx, &x );

	// Repeat the experiment n_repeats times and record results. 
	for ( i = 0; i < n_repeats; ++i )
	{
		bli_copym( &y_save, &y );

		time = bli_clock();

		libblis_test_gemv_impl( iface, &alpha, &a, &x, &beta, &y );

		time_min = bli_clock_min_diff( time_min, time );
	}

	// Estimate the performance of the best experiment repeat.
	*perf = ( 2.0 * m * n ) / time_min / FLOPS_PER_UNIT_PERF;
	if ( bli_obj_is_complex( &y ) ) *perf *= 4.0;

	// Perform checks.
	libblis_test_gemv_check( params, &kappa, &alpha, &a, &x, &beta, &y, &y_save, resid );

	// Zero out performance and residual if output vector is empty.
	libblis_test_check_empty_problem( &y, perf, resid );

	// Free the test objects.
	bli_obj_free( &a );
	bli_obj_free( &x );
	bli_obj_free( &y );
	bli_obj_free( &y_save );
}