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FLA_Eig_gest_nu_opt_var2.c File Reference

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Functions

FLA_Error FLA_Eig_gest_nu_opt_var2 (FLA_Obj A, FLA_Obj Y, FLA_Obj B)
 
FLA_Error FLA_Eig_gest_nu_ops_var2 (int m_AB, float *buff_A, int rs_A, int cs_A, float *buff_y, int inc_y, float *buff_B, int rs_B, int cs_B)
 
FLA_Error FLA_Eig_gest_nu_opd_var2 (int m_AB, double *buff_A, int rs_A, int cs_A, double *buff_y, int inc_y, double *buff_B, int rs_B, int cs_B)
 
FLA_Error FLA_Eig_gest_nu_opc_var2 (int m_AB, scomplex *buff_A, int rs_A, int cs_A, scomplex *buff_y, int inc_y, scomplex *buff_B, int rs_B, int cs_B)
 
FLA_Error FLA_Eig_gest_nu_opz_var2 (int m_AB, dcomplex *buff_A, int rs_A, int cs_A, dcomplex *buff_y, int inc_y, dcomplex *buff_B, int rs_B, int cs_B)
 

Function Documentation

◆ FLA_Eig_gest_nu_opc_var2()

FLA_Error FLA_Eig_gest_nu_opc_var2 ( int  m_AB,
scomplex buff_A,
int  rs_A,
int  cs_A,
scomplex buff_y,
int  inc_y,
scomplex buff_B,
int  rs_B,
int  cs_B 
)
305 {
306  scomplex* buff_0 = FLA_COMPLEX_PTR( FLA_ZERO );
307  scomplex* buff_1 = FLA_COMPLEX_PTR( FLA_ONE );
308  scomplex* buff_1h = FLA_COMPLEX_PTR( FLA_ONE_HALF );
309  int i;
310 
311  for ( i = 0; i < m_AB; ++i )
312  {
313  scomplex* a01 = buff_A + (i )*cs_A + (0 )*rs_A;
314  scomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
315  scomplex* A02 = buff_A + (i+1)*cs_A + (0 )*rs_A;
316  scomplex* a12t = buff_A + (i+1)*cs_A + (i )*rs_A;
317  scomplex* A22 = buff_A + (i+1)*cs_A + (i+1)*rs_A;
318 
319  scomplex* y12t = buff_y + (i+1)*inc_y;
320 
321  scomplex* beta11 = buff_B + (i )*cs_B + (i )*rs_B;
322  scomplex* b12t = buff_B + (i+1)*cs_B + (i )*rs_B;
323 
324  int m_ahead = m_AB - i - 1;
325  int m_behind = i;
326 
327  /*------------------------------------------------------------*/
328 
329  // FLA_Scal_external( beta11, a01 );
331  m_behind,
332  beta11,
333  a01, rs_A );
334 
335  // FLA_Gemvc_external( FLA_NO_TRANSPOSE, FLA_CONJUGATE,
336  // FLA_ONE, A02, b12t, FLA_ONE, a01 );
339  m_behind,
340  m_ahead,
341  buff_1,
342  A02, rs_A, cs_A,
343  b12t, cs_B,
344  buff_1,
345  a01, rs_A );
346 
347  // FLA_Hemvc_external( FLA_UPPER_TRIANGULAR, FLA_CONJUGATE,
348  // FLA_ONE, A22, b12t, FLA_ZERO, y12t_t );
351  m_ahead,
352  buff_1,
353  A22, rs_A, cs_A,
354  b12t, cs_B,
355  buff_0,
356  y12t, inc_y );
357 
358  // FLA_Scal_external( beta11, a12t );
360  m_ahead,
361  beta11,
362  a12t, cs_A );
363 
364  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
366  m_ahead,
367  buff_1h,
368  y12t, inc_y,
369  a12t, cs_A );
370 
371  // FLA_Scal_external( beta11, alpha11 );
372  // FLA_Scal_external( beta11, alpha11 );
373  bl1_cscals( beta11, alpha11 );
374  bl1_cscals( beta11, alpha11 );
375 
376  // FLA_Dot2cs_external( FLA_CONJUGATE, FLA_ONE, a12t, b12t, FLA_ONE, alpha11 );
378  m_ahead,
379  buff_1,
380  a12t, cs_A,
381  b12t, cs_B,
382  buff_1,
383  alpha11 );
384 
385  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
387  m_ahead,
388  buff_1h,
389  y12t, inc_y,
390  a12t, cs_A );
391 
392  /*------------------------------------------------------------*/
393 
394  }
395 
396  return FLA_SUCCESS;
397 }
FLA_Obj FLA_ONE_HALF
Definition: FLA_Init.c:19
FLA_Obj FLA_ZERO
Definition: FLA_Init.c:20
FLA_Obj FLA_ONE
Definition: FLA_Init.c:18
int i
Definition: bl1_axmyv2.c:145
void bl1_caxpyv(conj1_t conj, int n, scomplex *alpha, scomplex *x, int incx, scomplex *y, int incy)
Definition: bl1_axpyv.c:29
void bl1_cdot2s(conj1_t conj, int n, scomplex *alpha, scomplex *x, int incx, scomplex *y, int incy, scomplex *beta, scomplex *rho)
Definition: bl1_dot2s.c:39
void bl1_cgemv(trans1_t transa, conj1_t conjx, int m, int n, scomplex *alpha, scomplex *a, int a_rs, int a_cs, scomplex *x, int incx, scomplex *beta, scomplex *y, int incy)
Definition: bl1_gemv.c:125
void bl1_chemv(uplo1_t uplo, conj1_t conj, int m, scomplex *alpha, scomplex *a, int a_rs, int a_cs, scomplex *x, int incx, scomplex *beta, scomplex *y, int incy)
Definition: bl1_hemv.c:35
void bl1_cscalv(conj1_t conj, int n, scomplex *alpha, scomplex *x, int incx)
Definition: bl1_scalv.c:46
@ BLIS1_UPPER_TRIANGULAR
Definition: blis_type_defs.h:63
@ BLIS1_NO_TRANSPOSE
Definition: blis_type_defs.h:54
@ BLIS1_CONJUGATE
Definition: blis_type_defs.h:82
@ BLIS1_NO_CONJUGATE
Definition: blis_type_defs.h:81
Definition: blis_type_defs.h:133

References bl1_caxpyv(), bl1_cdot2s(), bl1_cgemv(), bl1_chemv(), bl1_cscalv(), BLIS1_CONJUGATE, BLIS1_NO_CONJUGATE, BLIS1_NO_TRANSPOSE, BLIS1_UPPER_TRIANGULAR, FLA_ONE, FLA_ONE_HALF, FLA_ZERO, and i.

Referenced by FLA_Eig_gest_nu_opt_var2().

◆ FLA_Eig_gest_nu_opd_var2()

FLA_Error FLA_Eig_gest_nu_opd_var2 ( int  m_AB,
double *  buff_A,
int  rs_A,
int  cs_A,
double *  buff_y,
int  inc_y,
double *  buff_B,
int  rs_B,
int  cs_B 
)
205 {
206  double* buff_0 = FLA_DOUBLE_PTR( FLA_ZERO );
207  double* buff_1 = FLA_DOUBLE_PTR( FLA_ONE );
208  double* buff_1h = FLA_DOUBLE_PTR( FLA_ONE_HALF );
209  int i;
210 
211  for ( i = 0; i < m_AB; ++i )
212  {
213  double* a01 = buff_A + (i )*cs_A + (0 )*rs_A;
214  double* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
215  double* A02 = buff_A + (i+1)*cs_A + (0 )*rs_A;
216  double* a12t = buff_A + (i+1)*cs_A + (i )*rs_A;
217  double* A22 = buff_A + (i+1)*cs_A + (i+1)*rs_A;
218 
219  double* y12t = buff_y + (i+1)*inc_y;
220 
221  double* beta11 = buff_B + (i )*cs_B + (i )*rs_B;
222  double* b12t = buff_B + (i+1)*cs_B + (i )*rs_B;
223 
224  int m_ahead = m_AB - i - 1;
225  int m_behind = i;
226 
227  /*------------------------------------------------------------*/
228 
229  // FLA_Scal_external( beta11, a01 );
231  m_behind,
232  beta11,
233  a01, rs_A );
234 
235  // FLA_Gemvc_external( FLA_NO_TRANSPOSE, FLA_CONJUGATE,
236  // FLA_ONE, A02, b12t, FLA_ONE, a01 );
239  m_behind,
240  m_ahead,
241  buff_1,
242  A02, rs_A, cs_A,
243  b12t, cs_B,
244  buff_1,
245  a01, rs_A );
246 
247  // FLA_Hemvc_external( FLA_UPPER_TRIANGULAR, FLA_CONJUGATE,
248  // FLA_ONE, A22, b12t, FLA_ZERO, y12t_t );
251  m_ahead,
252  buff_1,
253  A22, rs_A, cs_A,
254  b12t, cs_B,
255  buff_0,
256  y12t, inc_y );
257 
258  // FLA_Scal_external( beta11, a12t );
260  m_ahead,
261  beta11,
262  a12t, cs_A );
263 
264  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
266  m_ahead,
267  buff_1h,
268  y12t, inc_y,
269  a12t, cs_A );
270 
271  // FLA_Scal_external( beta11, alpha11 );
272  // FLA_Scal_external( beta11, alpha11 );
273  bl1_dscals( beta11, alpha11 );
274  bl1_dscals( beta11, alpha11 );
275 
276  // FLA_Dot2cs_external( FLA_CONJUGATE, FLA_ONE, a12t, b12t, FLA_ONE, alpha11 );
278  m_ahead,
279  buff_1,
280  a12t, cs_A,
281  b12t, cs_B,
282  buff_1,
283  alpha11 );
284 
285  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
287  m_ahead,
288  buff_1h,
289  y12t, inc_y,
290  a12t, cs_A );
291 
292  /*------------------------------------------------------------*/
293 
294  }
295 
296  return FLA_SUCCESS;
297 }
void bl1_daxpyv(conj1_t conj, int n, double *alpha, double *x, int incx, double *y, int incy)
Definition: bl1_axpyv.c:21
void bl1_ddot2s(conj1_t conj, int n, double *alpha, double *x, int incx, double *y, int incy, double *beta, double *rho)
Definition: bl1_dot2s.c:26
void bl1_dgemv(trans1_t transa, conj1_t conjx, int m, int n, double *alpha, double *a, int a_rs, int a_cs, double *x, int incx, double *beta, double *y, int incy)
Definition: bl1_gemv.c:69
void bl1_dhemv(uplo1_t uplo, conj1_t conj, int m, double *alpha, double *a, int a_rs, int a_cs, double *x, int incx, double *beta, double *y, int incy)
Definition: bl1_hemv.c:24
void bl1_dscalv(conj1_t conj, int n, double *alpha, double *x, int incx)
Definition: bl1_scalv.c:24

References bl1_daxpyv(), bl1_ddot2s(), bl1_dgemv(), bl1_dhemv(), bl1_dscalv(), BLIS1_CONJUGATE, BLIS1_NO_CONJUGATE, BLIS1_NO_TRANSPOSE, BLIS1_UPPER_TRIANGULAR, FLA_ONE, FLA_ONE_HALF, FLA_ZERO, and i.

Referenced by FLA_Eig_gest_nu_opt_var2().

◆ FLA_Eig_gest_nu_ops_var2()

FLA_Error FLA_Eig_gest_nu_ops_var2 ( int  m_AB,
float *  buff_A,
int  rs_A,
int  cs_A,
float *  buff_y,
int  inc_y,
float *  buff_B,
int  rs_B,
int  cs_B 
)
105 {
106  float* buff_0 = FLA_FLOAT_PTR( FLA_ZERO );
107  float* buff_1 = FLA_FLOAT_PTR( FLA_ONE );
108  float* buff_1h = FLA_FLOAT_PTR( FLA_ONE_HALF );
109  int i;
110 
111  for ( i = 0; i < m_AB; ++i )
112  {
113  float* a01 = buff_A + (i )*cs_A + (0 )*rs_A;
114  float* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
115  float* A02 = buff_A + (i+1)*cs_A + (0 )*rs_A;
116  float* a12t = buff_A + (i+1)*cs_A + (i )*rs_A;
117  float* A22 = buff_A + (i+1)*cs_A + (i+1)*rs_A;
118 
119  float* y12t = buff_y + (i+1)*inc_y;
120 
121  float* beta11 = buff_B + (i )*cs_B + (i )*rs_B;
122  float* b12t = buff_B + (i+1)*cs_B + (i )*rs_B;
123 
124  int m_ahead = m_AB - i - 1;
125  int m_behind = i;
126 
127  /*------------------------------------------------------------*/
128 
129  // FLA_Scal_external( beta11, a01 );
131  m_behind,
132  beta11,
133  a01, rs_A );
134 
135  // FLA_Gemvc_external( FLA_NO_TRANSPOSE, FLA_CONJUGATE,
136  // FLA_ONE, A02, b12t, FLA_ONE, a01 );
139  m_behind,
140  m_ahead,
141  buff_1,
142  A02, rs_A, cs_A,
143  b12t, cs_B,
144  buff_1,
145  a01, rs_A );
146 
147  // FLA_Hemvc_external( FLA_UPPER_TRIANGULAR, FLA_CONJUGATE,
148  // FLA_ONE, A22, b12t, FLA_ZERO, y12t_t );
151  m_ahead,
152  buff_1,
153  A22, rs_A, cs_A,
154  b12t, cs_B,
155  buff_0,
156  y12t, inc_y );
157 
158  // FLA_Scal_external( beta11, a12t );
160  m_ahead,
161  beta11,
162  a12t, cs_A );
163 
164  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
166  m_ahead,
167  buff_1h,
168  y12t, inc_y,
169  a12t, cs_A );
170 
171  // FLA_Scal_external( beta11, alpha11 );
172  // FLA_Scal_external( beta11, alpha11 );
173  bl1_sscals( beta11, alpha11 );
174  bl1_sscals( beta11, alpha11 );
175 
176  // FLA_Dot2cs_external( FLA_CONJUGATE, FLA_ONE, a12t, b12t, FLA_ONE, alpha11 );
178  m_ahead,
179  buff_1,
180  a12t, cs_A,
181  b12t, cs_B,
182  buff_1,
183  alpha11 );
184 
185  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
187  m_ahead,
188  buff_1h,
189  y12t, inc_y,
190  a12t, cs_A );
191 
192  /*------------------------------------------------------------*/
193 
194  }
195 
196  return FLA_SUCCESS;
197 }
void bl1_saxpyv(conj1_t conj, int n, float *alpha, float *x, int incx, float *y, int incy)
Definition: bl1_axpyv.c:13
void bl1_sdot2s(conj1_t conj, int n, float *alpha, float *x, int incx, float *y, int incy, float *beta, float *rho)
Definition: bl1_dot2s.c:13
void bl1_sgemv(trans1_t transa, conj1_t conjx, int m, int n, float *alpha, float *a, int a_rs, int a_cs, float *x, int incx, float *beta, float *y, int incy)
Definition: bl1_gemv.c:13
void bl1_shemv(uplo1_t uplo, conj1_t conj, int m, float *alpha, float *a, int a_rs, int a_cs, float *x, int incx, float *beta, float *y, int incy)
Definition: bl1_hemv.c:13
void bl1_sscalv(conj1_t conj, int n, float *alpha, float *x, int incx)
Definition: bl1_scalv.c:13

References bl1_saxpyv(), bl1_sdot2s(), bl1_sgemv(), bl1_shemv(), bl1_sscalv(), BLIS1_CONJUGATE, BLIS1_NO_CONJUGATE, BLIS1_NO_TRANSPOSE, BLIS1_UPPER_TRIANGULAR, FLA_ONE, FLA_ONE_HALF, FLA_ZERO, and i.

Referenced by FLA_Eig_gest_nu_opt_var2().

◆ FLA_Eig_gest_nu_opt_var2()

FLA_Error FLA_Eig_gest_nu_opt_var2 ( FLA_Obj  A,
FLA_Obj  Y,
FLA_Obj  B 
)
14 {
15  FLA_Datatype datatype;
16  int m_AB;
17  int rs_A, cs_A;
18  int rs_B, cs_B;
19  int inc_y;
20  FLA_Obj yT, yB;
21 
22  datatype = FLA_Obj_datatype( A );
23 
24  m_AB = FLA_Obj_length( A );
25 
26  rs_A = FLA_Obj_row_stride( A );
27  cs_A = FLA_Obj_col_stride( A );
28 
29  rs_B = FLA_Obj_row_stride( B );
30  cs_B = FLA_Obj_col_stride( B );
31 
32  FLA_Part_2x1( Y, &yT,
33  &yB, 1, FLA_TOP );
34 
35  inc_y = FLA_Obj_vector_inc( yT );
36 
37  switch ( datatype )
38  {
39  case FLA_FLOAT:
40  {
41  float* buff_A = FLA_FLOAT_PTR( A );
42  float* buff_y = FLA_FLOAT_PTR( yT );
43  float* buff_B = FLA_FLOAT_PTR( B );
44 
46  buff_A, rs_A, cs_A,
47  buff_y, inc_y,
48  buff_B, rs_B, cs_B );
49 
50  break;
51  }
52 
53  case FLA_DOUBLE:
54  {
55  double* buff_A = FLA_DOUBLE_PTR( A );
56  double* buff_y = FLA_DOUBLE_PTR( yT );
57  double* buff_B = FLA_DOUBLE_PTR( B );
58 
60  buff_A, rs_A, cs_A,
61  buff_y, inc_y,
62  buff_B, rs_B, cs_B );
63 
64  break;
65  }
66 
67  case FLA_COMPLEX:
68  {
69  scomplex* buff_A = FLA_COMPLEX_PTR( A );
70  scomplex* buff_y = FLA_COMPLEX_PTR( yT );
71  scomplex* buff_B = FLA_COMPLEX_PTR( B );
72 
74  buff_A, rs_A, cs_A,
75  buff_y, inc_y,
76  buff_B, rs_B, cs_B );
77 
78  break;
79  }
80 
81  case FLA_DOUBLE_COMPLEX:
82  {
83  dcomplex* buff_A = FLA_DOUBLE_COMPLEX_PTR( A );
84  dcomplex* buff_y = FLA_DOUBLE_COMPLEX_PTR( yT );
85  dcomplex* buff_B = FLA_DOUBLE_COMPLEX_PTR( B );
86 
88  buff_A, rs_A, cs_A,
89  buff_y, inc_y,
90  buff_B, rs_B, cs_B );
91 
92  break;
93  }
94  }
95 
96  return FLA_SUCCESS;
97 }
FLA_Error FLA_Eig_gest_nu_opz_var2(int m_AB, dcomplex *buff_A, int rs_A, int cs_A, dcomplex *buff_y, int inc_y, dcomplex *buff_B, int rs_B, int cs_B)
Definition: FLA_Eig_gest_nu_opt_var2.c:401
FLA_Error FLA_Eig_gest_nu_ops_var2(int m_AB, float *buff_A, int rs_A, int cs_A, float *buff_y, int inc_y, float *buff_B, int rs_B, int cs_B)
Definition: FLA_Eig_gest_nu_opt_var2.c:101
FLA_Error FLA_Eig_gest_nu_opd_var2(int m_AB, double *buff_A, int rs_A, int cs_A, double *buff_y, int inc_y, double *buff_B, int rs_B, int cs_B)
Definition: FLA_Eig_gest_nu_opt_var2.c:201
FLA_Error FLA_Eig_gest_nu_opc_var2(int m_AB, scomplex *buff_A, int rs_A, int cs_A, scomplex *buff_y, int inc_y, scomplex *buff_B, int rs_B, int cs_B)
Definition: FLA_Eig_gest_nu_opt_var2.c:301
dim_t FLA_Obj_row_stride(FLA_Obj obj)
Definition: FLA_Query.c:167
FLA_Error FLA_Part_2x1(FLA_Obj A, FLA_Obj *A1, FLA_Obj *A2, dim_t mb, FLA_Side side)
Definition: FLA_View.c:76
dim_t FLA_Obj_length(FLA_Obj obj)
Definition: FLA_Query.c:116
dim_t FLA_Obj_col_stride(FLA_Obj obj)
Definition: FLA_Query.c:174
dim_t FLA_Obj_vector_inc(FLA_Obj obj)
Definition: FLA_Query.c:145
FLA_Datatype FLA_Obj_datatype(FLA_Obj obj)
Definition: FLA_Query.c:13
int FLA_Datatype
Definition: FLA_type_defs.h:49
Definition: FLA_type_defs.h:159
Definition: blis_type_defs.h:138

References FLA_Eig_gest_nu_opc_var2(), FLA_Eig_gest_nu_opd_var2(), FLA_Eig_gest_nu_ops_var2(), FLA_Eig_gest_nu_opz_var2(), FLA_Obj_col_stride(), FLA_Obj_datatype(), FLA_Obj_length(), FLA_Obj_row_stride(), FLA_Obj_vector_inc(), and FLA_Part_2x1().

Referenced by FLA_Eig_gest_nu().

◆ FLA_Eig_gest_nu_opz_var2()

FLA_Error FLA_Eig_gest_nu_opz_var2 ( int  m_AB,
dcomplex buff_A,
int  rs_A,
int  cs_A,
dcomplex buff_y,
int  inc_y,
dcomplex buff_B,
int  rs_B,
int  cs_B 
)
405 {
406  dcomplex* buff_0 = FLA_DOUBLE_COMPLEX_PTR( FLA_ZERO );
407  dcomplex* buff_1 = FLA_DOUBLE_COMPLEX_PTR( FLA_ONE );
408  dcomplex* buff_1h = FLA_DOUBLE_COMPLEX_PTR( FLA_ONE_HALF );
409  int i;
410 
411  for ( i = 0; i < m_AB; ++i )
412  {
413  dcomplex* a01 = buff_A + (i )*cs_A + (0 )*rs_A;
414  dcomplex* alpha11 = buff_A + (i )*cs_A + (i )*rs_A;
415  dcomplex* A02 = buff_A + (i+1)*cs_A + (0 )*rs_A;
416  dcomplex* a12t = buff_A + (i+1)*cs_A + (i )*rs_A;
417  dcomplex* A22 = buff_A + (i+1)*cs_A + (i+1)*rs_A;
418 
419  dcomplex* y12t = buff_y + (i+1)*inc_y;
420 
421  dcomplex* beta11 = buff_B + (i )*cs_B + (i )*rs_B;
422  dcomplex* b12t = buff_B + (i+1)*cs_B + (i )*rs_B;
423 
424  int m_ahead = m_AB - i - 1;
425  int m_behind = i;
426 
427  /*------------------------------------------------------------*/
428 
429  // FLA_Scal_external( beta11, a01 );
431  m_behind,
432  beta11,
433  a01, rs_A );
434 
435  // FLA_Gemvc_external( FLA_NO_TRANSPOSE, FLA_CONJUGATE,
436  // FLA_ONE, A02, b12t, FLA_ONE, a01 );
439  m_behind,
440  m_ahead,
441  buff_1,
442  A02, rs_A, cs_A,
443  b12t, cs_B,
444  buff_1,
445  a01, rs_A );
446 
447  // FLA_Hemvc_external( FLA_UPPER_TRIANGULAR, FLA_CONJUGATE,
448  // FLA_ONE, A22, b12t, FLA_ZERO, y12t_t );
451  m_ahead,
452  buff_1,
453  A22, rs_A, cs_A,
454  b12t, cs_B,
455  buff_0,
456  y12t, inc_y );
457 
458  // FLA_Scal_external( beta11, a12t );
460  m_ahead,
461  beta11,
462  a12t, cs_A );
463 
464  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
466  m_ahead,
467  buff_1h,
468  y12t, inc_y,
469  a12t, cs_A );
470 
471  // FLA_Scal_external( beta11, alpha11 );
472  // FLA_Scal_external( beta11, alpha11 );
473  bl1_zscals( beta11, alpha11 );
474  bl1_zscals( beta11, alpha11 );
475 
476  // FLA_Dot2cs_external( FLA_CONJUGATE, FLA_ONE, a12t, b12t, FLA_ONE, alpha11 );
478  m_ahead,
479  buff_1,
480  a12t, cs_A,
481  b12t, cs_B,
482  buff_1,
483  alpha11 );
484 
485  // FLA_Axpy_external( FLA_ONE_HALF, y12t_t, a12t );
487  m_ahead,
488  buff_1h,
489  y12t, inc_y,
490  a12t, cs_A );
491 
492  /*------------------------------------------------------------*/
493 
494  }
495 
496  return FLA_SUCCESS;
497 }
void bl1_zaxpyv(conj1_t conj, int n, dcomplex *alpha, dcomplex *x, int incx, dcomplex *y, int incy)
Definition: bl1_axpyv.c:60
void bl1_zdot2s(conj1_t conj, int n, dcomplex *alpha, dcomplex *x, int incx, dcomplex *y, int incy, dcomplex *beta, dcomplex *rho)
Definition: bl1_dot2s.c:70
bl1_zscals(beta, rho_yz)
void bl1_zgemv(trans1_t transa, conj1_t conjx, int m, int n, dcomplex *alpha, dcomplex *a, int a_rs, int a_cs, dcomplex *x, int incx, dcomplex *beta, dcomplex *y, int incy)
Definition: bl1_gemv.c:255
void bl1_zhemv(uplo1_t uplo, conj1_t conj, int m, dcomplex *alpha, dcomplex *a, int a_rs, int a_cs, dcomplex *x, int incx, dcomplex *beta, dcomplex *y, int incy)
Definition: bl1_hemv.c:134
void bl1_zscalv(conj1_t conj, int n, dcomplex *alpha, dcomplex *x, int incx)
Definition: bl1_scalv.c:72

References bl1_zaxpyv(), bl1_zdot2s(), bl1_zgemv(), bl1_zhemv(), bl1_zscals(), bl1_zscalv(), BLIS1_CONJUGATE, BLIS1_NO_CONJUGATE, BLIS1_NO_TRANSPOSE, BLIS1_UPPER_TRIANGULAR, FLA_ONE, FLA_ONE_HALF, FLA_ZERO, and i.

Referenced by FLA_Eig_gest_nu_opt_var2().