PLASMA  2.8.0
PLASMA - Parallel Linear Algebra for Scalable Multi-core Architectures
core_zblas.h
1 
18 #ifndef _PLASMA_CORE_ZBLAS_H_
19 #define _PLASMA_CORE_ZBLAS_H_
20 
21 #define COMPLEX
22 
23 #ifdef __cplusplus
24 extern "C" {
25 #endif
26 
27 struct CORE_zgetrf_data_s;
29 
33 void CORE_dzasum(int storev, PLASMA_enum uplo, int M, int N,
34  const PLASMA_Complex64_t *A, int lda, double *work);
35 void CORE_zbrdalg1( PLASMA_enum uplo,
36  int n,
37  int nb,
38  PLASMA_Complex64_t *A,
39  int lda,
40  PLASMA_Complex64_t *VQ,
41  PLASMA_Complex64_t *TAUQ,
42  PLASMA_Complex64_t *VP,
43  PLASMA_Complex64_t *TAUP,
44  int Vblksiz, int wantz,
45  int i, int sweepid, int m, int grsiz,
46  PLASMA_Complex64_t *work);
47 int CORE_zgbelr(PLASMA_enum uplo, int N,
48  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
49  int st, int ed, int eltsize);
50 int CORE_zgbrce(PLASMA_enum uplo, int N,
51  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
52  int st, int ed, int eltsize);
53 int CORE_zgblrx(PLASMA_enum uplo, int N,
54  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
55  int st, int ed, int eltsize);
56 int CORE_zgeadd(PLASMA_enum trans, int M, int N,
57  PLASMA_Complex64_t alpha,
58  const PLASMA_Complex64_t *A, int LDA,
59  PLASMA_Complex64_t beta,
60  PLASMA_Complex64_t *B, int LDB);
61 int CORE_zgelqt(int M, int N, int IB,
62  PLASMA_Complex64_t *A, int LDA,
63  PLASMA_Complex64_t *T, int LDT,
64  PLASMA_Complex64_t *TAU,
65  PLASMA_Complex64_t *WORK);
66 void CORE_zgemm(PLASMA_enum transA, PLASMA_enum transB,
67  int M, int N, int K,
68  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
69  const PLASMA_Complex64_t *B, int LDB,
70  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC);
71 void CORE_zgemv(PLASMA_enum trans, int M, int N,
72  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
73  const PLASMA_Complex64_t *x, int incx,
74  PLASMA_Complex64_t beta, PLASMA_Complex64_t *y, int incy);
75 void CORE_zgeqp3_init( int n, int *jpvt );
76 void CORE_zgeqp3_larfg( PLASMA_desc A, int ii, int jj, int i, int j,
77  PLASMA_Complex64_t *tau, PLASMA_Complex64_t *beta );
78 void CORE_zgeqp3_norms( PLASMA_desc A, int ioff, int joff, double *norms1, double *norms2 );
79 void CORE_zgeqp3_pivot( PLASMA_desc A, PLASMA_Complex64_t *F, int ldf,
80  int jj, int k, int *jpvt,
81  double *norms1, double *norms2, int *info );
82 int CORE_zgeqp3_tntpiv(int m, int n,
83  PLASMA_Complex64_t *A, int lda,
84  int *IPIV, PLASMA_Complex64_t *tau,
85  int *iwork);
86 void CORE_zgeqp3_update( const PLASMA_Complex64_t *Ajj, int lda1,
87  PLASMA_Complex64_t *Ajk, int lda2,
88  const PLASMA_Complex64_t *Fk, int ldf,
89  int joff, int k, int koff, int nb,
90  double *norms1, double *norms2,
91  int *info );
92 int CORE_zgeqrt(int M, int N, int IB,
93  PLASMA_Complex64_t *A, int LDA,
94  PLASMA_Complex64_t *T, int LDT,
95  PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK);
96 int CORE_zgessm(int M, int N, int K, int IB,
97  const int *IPIV,
98  const PLASMA_Complex64_t *L, int LDL,
99  PLASMA_Complex64_t *A, int LDA);
100 int CORE_zgessq(int M, int N,
101  const PLASMA_Complex64_t *A, int LDA,
102  double *scale, double *sumsq);
103 int CORE_zgetf2_nopiv(int m, int n,
104  PLASMA_Complex64_t *A, int lda);
105 int CORE_zgetrf(int M, int N,
106  PLASMA_Complex64_t *A, int LDA,
107  int *IPIV, int *INFO);
108 int CORE_zgetrf_incpiv(int M, int N, int IB,
109  PLASMA_Complex64_t *A, int LDA,
110  int *IPIV, int *INFO);
111 int CORE_zgetrf_nopiv(int m, int n, int ib,
112  PLASMA_Complex64_t *A, int lda);
113 int CORE_zgetrf_reclap(CORE_zgetrf_data_t *data, int M, int N,
114  PLASMA_Complex64_t *A, int LDA,
115  int *IPIV, int *info);
116 CORE_zgetrf_data_t *CORE_zgetrf_reclap_init(int nbthrd);
117 int CORE_zgetrf_rectil(CORE_zgetrf_data_t *data, const PLASMA_desc A, int *IPIV, int *info);
118 CORE_zgetrf_data_t *CORE_zgetrf_rectil_init(int nbthrd);
119 void CORE_zgetrip(int m, int n, PLASMA_Complex64_t *A,
120  PLASMA_Complex64_t *work);
121 int CORE_zhbelr(PLASMA_enum uplo, int N,
122  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
123  int st, int ed, int eltsize);
124 int CORE_zhblrx(PLASMA_enum uplo, int N,
125  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
126  int st, int ed, int eltsize);
127 int CORE_zhbrce(PLASMA_enum uplo, int N,
128  PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
129  int st, int ed, int eltsize);
130 void CORE_zhbtype1cb(int N, int NB,
131  PLASMA_Complex64_t *A, int LDA,
132  PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
133  int st, int ed, int sweep, int Vblksiz, int WANTZ,
134  PLASMA_Complex64_t *WORK);
135 void CORE_zhbtype2cb(int N, int NB,
136  PLASMA_Complex64_t *A, int LDA,
137  PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU,
138  int st, int ed, int sweep, int Vblksiz, int WANTZ,
139  PLASMA_Complex64_t *WORK);
140 void CORE_zhbtype3cb(int N, int NB,
141  PLASMA_Complex64_t *A, int LDA,
142  const PLASMA_Complex64_t *V, const PLASMA_Complex64_t *TAU,
143  int st, int ed, int sweep, int Vblksiz, int WANTZ,
144  PLASMA_Complex64_t *WORK);
145 void CORE_zgbtype1cb(PLASMA_enum uplo, int N, int NB,
146  PLASMA_Complex64_t *A, int LDA,
147  PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ,
148  PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP,
149  int st, int ed, int sweep, int Vblksiz, int WANTZ,
150  PLASMA_Complex64_t *WORK);
151 void CORE_zgbtype2cb(PLASMA_enum uplo, int N, int NB,
152  PLASMA_Complex64_t *A, int LDA,
153  PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ,
154  PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP,
155  int st, int ed, int sweep, int Vblksiz, int WANTZ,
156  PLASMA_Complex64_t *WORK);
157 void CORE_zgbtype3cb(PLASMA_enum uplo, int N, int NB,
158  PLASMA_Complex64_t *A, int LDA,
159  PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ,
160  PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP,
161  int st, int ed, int sweep, int Vblksiz, int WANTZ,
162  PLASMA_Complex64_t *WORK);
163 void CORE_zhegst(int itype, PLASMA_enum uplo, int N,
164  PLASMA_Complex64_t *A, int LDA,
165  PLASMA_Complex64_t *B, int LDB, int *INFO);
166 #ifdef COMPLEX
167 void CORE_zhemm(PLASMA_enum side, PLASMA_enum uplo,
168  int M, int N,
169  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
170  const PLASMA_Complex64_t *B, int LDB,
171  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC);
172 void CORE_zherk(PLASMA_enum uplo, PLASMA_enum trans,
173  int N, int K,
174  double alpha, const PLASMA_Complex64_t *A, int LDA,
175  double beta, PLASMA_Complex64_t *C, int LDC);
176 void CORE_zher2k(PLASMA_enum uplo, PLASMA_enum trans,
177  int N, int K,
178  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
179  const PLASMA_Complex64_t *B, int LDB,
180  double beta, PLASMA_Complex64_t *C, int LDC);
181 int CORE_zhessq(PLASMA_enum uplo, int N,
182  const PLASMA_Complex64_t *A, int LDA,
183  double *scale, double *sumsq);
184 #endif
185 int CORE_zherfb(PLASMA_enum uplo, int N, int K, int IB, int NB,
186  const PLASMA_Complex64_t *A, int LDA,
187  const PLASMA_Complex64_t *T, int LDT,
188  PLASMA_Complex64_t *C, int LDC,
189  PLASMA_Complex64_t *WORK, int LDWORK);
190 void CORE_zlacpy(PLASMA_enum uplo, int M, int N,
191  const PLASMA_Complex64_t *A, int LDA,
192  PLASMA_Complex64_t *B, int LDB);
193 int CORE_zlacpy_pivot( const PLASMA_desc descA,
194  PLASMA_enum direct,
195  int k1, int k2, const int *ipiv,
196  int *rankin, int *rankout,
197  PLASMA_Complex64_t *A, int lda,
198  int init);
199 void CORE_zlange(int norm, int M, int N,
200  const PLASMA_Complex64_t *A, int LDA,
201  double *work, double *normA);
202 #ifdef COMPLEX
203 void CORE_zlanhe(int norm, PLASMA_enum uplo, int N,
204  const PLASMA_Complex64_t *A, int LDA,
205  double *work, double *normA);
206 #endif
207 void CORE_zlansy(int norm, PLASMA_enum uplo, int N,
208  const PLASMA_Complex64_t *A, int LDA,
209  double *work, double *normA);
210 void CORE_zlantr(PLASMA_enum norm, PLASMA_enum uplo, PLASMA_enum diag,
211  int M, int N,
212  const PLASMA_Complex64_t *A, int LDA,
213  double *work, double *normA);
214 int CORE_zlarfb_gemm(PLASMA_enum side, PLASMA_enum trans, PLASMA_enum direct, PLASMA_enum storev,
215  int M, int N, int K,
216  const PLASMA_Complex64_t *V, int LDV,
217  const PLASMA_Complex64_t *T, int LDT,
218  PLASMA_Complex64_t *C, int LDC,
219  PLASMA_Complex64_t *WORK, int LDWORK);
220 int CORE_zlarfx2(PLASMA_enum side, int N,
221  PLASMA_Complex64_t V,
222  PLASMA_Complex64_t TAU,
223  PLASMA_Complex64_t *C1, int LDC1,
224  PLASMA_Complex64_t *C2, int LDC2);
225 int CORE_zlarfx2c(PLASMA_enum uplo,
226  PLASMA_Complex64_t V,
227  PLASMA_Complex64_t TAU,
228  PLASMA_Complex64_t *C1,
229  PLASMA_Complex64_t *C2,
230  PLASMA_Complex64_t *C3);
231 int CORE_zlarfx2ce(PLASMA_enum uplo,
232  PLASMA_Complex64_t *V,
233  PLASMA_Complex64_t *TAU,
234  PLASMA_Complex64_t *C1,
235  PLASMA_Complex64_t *C2,
236  PLASMA_Complex64_t *C3);
237 void CORE_zlarfy(int N,
238  PLASMA_Complex64_t *A, int LDA,
239  const PLASMA_Complex64_t *V,
240  const PLASMA_Complex64_t *TAU,
241  PLASMA_Complex64_t *WORK);
242 int CORE_zlascal(PLASMA_enum uplo, int m, int n,
243  PLASMA_Complex64_t alpha, PLASMA_Complex64_t *A, int lda);
244 void CORE_zlaset(PLASMA_enum uplo, int n1, int n2,
245  PLASMA_Complex64_t alpha, PLASMA_Complex64_t beta,
246  PLASMA_Complex64_t *tileA, int ldtilea);
247 void CORE_zlaset2(PLASMA_enum uplo, int n1, int n2, PLASMA_Complex64_t alpha,
248  PLASMA_Complex64_t *tileA, int ldtilea);
249 void CORE_zlaswp(int N, PLASMA_Complex64_t *A, int LDA,
250  int I1, int I2, const int *IPIV, int INC);
251 int CORE_zlaswp_ontile( PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc);
252 int CORE_zlaswpc_ontile(PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc);
253 int CORE_zlatro(PLASMA_enum uplo, PLASMA_enum trans,
254  int M, int N,
255  const PLASMA_Complex64_t *A, int LDA,
256  PLASMA_Complex64_t *B, int LDB);
257 void CORE_zlauum(PLASMA_enum uplo, int N, PLASMA_Complex64_t *A, int LDA);
258 int CORE_zpamm(int op, PLASMA_enum side, PLASMA_enum storev,
259  int M, int N, int K, int L,
260  const PLASMA_Complex64_t *A1, int LDA1,
261  PLASMA_Complex64_t *A2, int LDA2,
262  const PLASMA_Complex64_t *V, int LDV,
263  PLASMA_Complex64_t *W, int LDW);
264 int CORE_zparfb(PLASMA_enum side, PLASMA_enum trans, PLASMA_enum direct, PLASMA_enum storev,
265  int M1, int N1, int M2, int N2, int K, int L,
266  PLASMA_Complex64_t *A1, int LDA1,
267  PLASMA_Complex64_t *A2, int LDA2,
268  const PLASMA_Complex64_t *V, int LDV,
269  const PLASMA_Complex64_t *T, int LDT,
270  PLASMA_Complex64_t *WORK, int LDWORK);
271 int CORE_zpemv(PLASMA_enum trans, PLASMA_enum storev,
272  int M, int N, int L,
273  PLASMA_Complex64_t ALPHA,
274  const PLASMA_Complex64_t *A, int LDA,
275  const PLASMA_Complex64_t *X, int INCX,
276  PLASMA_Complex64_t BETA,
277  PLASMA_Complex64_t *Y, int INCY,
278  PLASMA_Complex64_t *WORK);
279 void CORE_zplghe(double bump, int m, int n, PLASMA_Complex64_t *A, int lda,
280  int bigM, int m0, int n0, unsigned long long int seed );
281 void CORE_zplgsy(PLASMA_Complex64_t bump, int m, int n, PLASMA_Complex64_t *A, int lda,
282  int bigM, int m0, int n0, unsigned long long int seed );
283 void CORE_zplrnt(int m, int n, PLASMA_Complex64_t *A, int lda,
284  int bigM, int m0, int n0, unsigned long long int seed );
285 int CORE_zpltmg(PLASMA_enum mtxtype, int m, int n, PLASMA_Complex64_t *A, int lda,
286  int gM, int gN, int m0, int n0, unsigned long long int seed );
287 int CORE_zpltmg_chebvand( int M, int N, PLASMA_Complex64_t *A, int LDA,
288  int gN, int m0, int n0,
289  PLASMA_Complex64_t *W );
290 int CORE_zpltmg_circul( int M, int N, PLASMA_Complex64_t *A, int LDA,
291  int gM, int m0, int n0,
292  const PLASMA_Complex64_t *V );
293 void CORE_zpltmg_condexq( int M, int N, PLASMA_Complex64_t *Q, int LDQ );
294 void CORE_zpltmg_fiedler(int m, int n,
295  const PLASMA_Complex64_t *X, int incX,
296  const PLASMA_Complex64_t *Y, int incY,
297  PLASMA_Complex64_t *A, int lda);
298 int CORE_zpltmg_hankel( PLASMA_enum uplo, int M, int N, PLASMA_Complex64_t *A, int LDA,
299  int m0, int n0, int nb,
300  const PLASMA_Complex64_t *V1,
301  const PLASMA_Complex64_t *V2 );
302 void CORE_zpltmg_toeppd1( int gM, int m0, int M, PLASMA_Complex64_t *W,
303  unsigned long long int seed );
304 void CORE_zpltmg_toeppd2( int M, int N, int K, int m0, int n0,
305  const PLASMA_Complex64_t *W,
306  PLASMA_Complex64_t *A, int LDA );
307 void CORE_zpotrf(PLASMA_enum uplo, int N, PLASMA_Complex64_t *A, int LDA, int *INFO);
308 void CORE_zsetvar(const PLASMA_Complex64_t *alpha, PLASMA_Complex64_t *x);
309 void CORE_zshift(int s, int m, int n, int L,
310  PLASMA_Complex64_t *A);
311 void CORE_zshiftw(int s, int cl, int m, int n, int L,
312  PLASMA_Complex64_t *A, PLASMA_Complex64_t *W);
313 int CORE_zssssm(int M1, int N1, int M2, int N2, int K, int IB,
314  PLASMA_Complex64_t *A1, int LDA1,
315  PLASMA_Complex64_t *A2, int LDA2,
316  const PLASMA_Complex64_t *L1, int LDL1,
317  const PLASMA_Complex64_t *L2, int LDL2,
318  const int *IPIV);
319 int CORE_zstedc(PLASMA_enum compz, int n,
320  double *D, double *E,
321  PLASMA_Complex64_t *Z, int LDZ,
322  PLASMA_Complex64_t *WORK, int LWORK,
323 #ifdef COMPLEX
324  double *RWORK, int LRWORK,
325 #endif
326  int *IWORK, int LIWORK);
327 int CORE_zsteqr(PLASMA_enum compz, int n,
328  double *D, double *E,
329  PLASMA_Complex64_t *Z, int LDZ,
330  double *WORK);
331 void CORE_zsymm(PLASMA_enum side, PLASMA_enum uplo,
332  int M, int N,
333  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
334  const PLASMA_Complex64_t *B, int LDB,
335  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC);
336 void CORE_zsyrk(PLASMA_enum uplo, PLASMA_enum trans,
337  int N, int K,
338  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
339  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC);
340 void CORE_zsyr2k(PLASMA_enum uplo, PLASMA_enum trans,
341  int N, int K,
342  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
343  const PLASMA_Complex64_t *B, int LDB,
344  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC);
345 int CORE_zsyssq(PLASMA_enum uplo, int N,
346  const PLASMA_Complex64_t *A, int LDA,
347  double *scale, double *sumsq);
348 void CORE_zswpab(int i, int n1, int n2,
349  PLASMA_Complex64_t *A, PLASMA_Complex64_t *work);
350 int CORE_zswptr_ontile(PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc,
351  const PLASMA_Complex64_t *Akk, int ldak);
352 int CORE_ztradd(PLASMA_enum uplo, PLASMA_enum trans, int M, int N,
353  PLASMA_Complex64_t alpha,
354  const PLASMA_Complex64_t *A, int LDA,
355  PLASMA_Complex64_t beta,
356  PLASMA_Complex64_t *B, int LDB);
357 void CORE_ztrasm(PLASMA_enum storev, PLASMA_enum uplo, PLASMA_enum diag,
358  int M, int N, const PLASMA_Complex64_t *A, int lda, double *work);
359 void CORE_ztrdalg1(int n,
360  int nb,
361  PLASMA_Complex64_t *A,
362  int lda,
363  PLASMA_Complex64_t *V,
364  PLASMA_Complex64_t *TAU,
365  int Vblksiz, int wantz,
366  int i, int sweepid, int m, int grsiz,
367  PLASMA_Complex64_t *work);
368 void CORE_ztrmm(PLASMA_enum side, PLASMA_enum uplo,
369  PLASMA_enum transA, PLASMA_enum diag,
370  int M, int N,
371  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
372  PLASMA_Complex64_t *B, int LDB);
373 void CORE_ztrsm(PLASMA_enum side, PLASMA_enum uplo,
374  PLASMA_enum transA, PLASMA_enum diag,
375  int M, int N,
376  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA,
377  PLASMA_Complex64_t *B, int LDB);
378 int CORE_ztrssq(PLASMA_enum uplo, PLASMA_enum diag, int M, int N,
379  const PLASMA_Complex64_t *A, int LDA,
380  double *scale, double *sumsq);
381 void CORE_ztrtri(PLASMA_enum uplo, PLASMA_enum diag, int N,
382  PLASMA_Complex64_t *A, int LDA, int *info);
383 int CORE_ztslqt(int M, int N, int IB,
384  PLASMA_Complex64_t *A1, int LDA1,
385  PLASMA_Complex64_t *A2, int LDA2,
386  PLASMA_Complex64_t *T, int LDT,
387  PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK);
388 int CORE_ztsmlq(PLASMA_enum side, PLASMA_enum trans,
389  int M1, int N1, int M2, int N2, int K, int IB,
390  PLASMA_Complex64_t *A1, int LDA1,
391  PLASMA_Complex64_t *A2, int LDA2,
392  const PLASMA_Complex64_t *V, int LDV,
393  const PLASMA_Complex64_t *T, int LDT,
394  PLASMA_Complex64_t *WORK, int LDWORK);
395 int CORE_ztsmlq_corner( int m1, int n1, int m2, int n2, int m3, int n3,
396  int k, int ib, int nb,
397  PLASMA_Complex64_t *A1, int lda1,
398  PLASMA_Complex64_t *A2, int lda2,
399  PLASMA_Complex64_t *A3, int lda3,
400  const PLASMA_Complex64_t *V, int ldv,
401  const PLASMA_Complex64_t *T, int ldt,
402  PLASMA_Complex64_t *WORK, int ldwork);
403 int CORE_ztsmlq_hetra1( PLASMA_enum side, PLASMA_enum trans,
404  int m1, int n1, int m2, int n2,
405  int k, int ib,
406  PLASMA_Complex64_t *A1, int lda1,
407  PLASMA_Complex64_t *A2, int lda2,
408  const PLASMA_Complex64_t *V, int ldv,
409  const PLASMA_Complex64_t *T, int ldt,
410  PLASMA_Complex64_t *WORK, int ldwork);
411 int CORE_ztsmqr(PLASMA_enum side, PLASMA_enum trans,
412  int M1, int N1, int M2, int N2, int K, int IB,
413  PLASMA_Complex64_t *A1, int LDA1,
414  PLASMA_Complex64_t *A2, int LDA2,
415  const PLASMA_Complex64_t *V, int LDV,
416  const PLASMA_Complex64_t *T, int LDT,
417  PLASMA_Complex64_t *WORK, int LDWORK);
418 int CORE_ztsmqr_corner( int m1, int n1, int m2, int n2, int m3, int n3,
419  int k, int ib, int nb,
420  PLASMA_Complex64_t *A1, int lda1,
421  PLASMA_Complex64_t *A2, int lda2,
422  PLASMA_Complex64_t *A3, int lda3,
423  const PLASMA_Complex64_t *V, int ldv,
424  const PLASMA_Complex64_t *T, int ldt,
425  PLASMA_Complex64_t *WORK, int ldwork);
426 int CORE_ztsmqr_hetra1( PLASMA_enum side, PLASMA_enum trans,
427  int m1, int n1, int m2, int n2,
428  int k, int ib,
429  PLASMA_Complex64_t *A1, int lda1,
430  PLASMA_Complex64_t *A2, int lda2,
431  const PLASMA_Complex64_t *V, int ldv,
432  const PLASMA_Complex64_t *T, int ldt,
433  PLASMA_Complex64_t *WORK, int ldwork);
434 int CORE_ztsqrt(int M, int N, int IB,
435  PLASMA_Complex64_t *A1, int LDA1,
436  PLASMA_Complex64_t *A2, int LDA2,
437  PLASMA_Complex64_t *T, int LDT,
438  PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK);
439 int CORE_ztstrf(int M, int N, int IB, int NB,
440  PLASMA_Complex64_t *U, int LDU,
441  PLASMA_Complex64_t *A, int LDA,
442  PLASMA_Complex64_t *L, int LDL,
443  int *IPIV, PLASMA_Complex64_t *WORK,
444  int LDWORK, int *INFO);
445 int CORE_zttmqr(PLASMA_enum side, PLASMA_enum trans,
446  int M1, int N1, int M2, int N2, int K, int IB,
447  PLASMA_Complex64_t *A1, int LDA1,
448  PLASMA_Complex64_t *A2, int LDA2,
449  const PLASMA_Complex64_t *V, int LDV,
450  const PLASMA_Complex64_t *T, int LDT,
451  PLASMA_Complex64_t *WORK, int LDWORK);
452 int CORE_zttqrt(int M, int N, int IB,
453  PLASMA_Complex64_t *A1, int LDA1,
454  PLASMA_Complex64_t *A2, int LDA2,
455  PLASMA_Complex64_t *T, int LDT,
456  PLASMA_Complex64_t *TAU,
457  PLASMA_Complex64_t *WORK);
458 int CORE_zttmlq(PLASMA_enum side, PLASMA_enum trans,
459  int M1, int N1, int M2, int N2, int K, int IB,
460  PLASMA_Complex64_t *A1, int LDA1,
461  PLASMA_Complex64_t *A2, int LDA2,
462  const PLASMA_Complex64_t *V, int LDV,
463  const PLASMA_Complex64_t *T, int LDT,
464  PLASMA_Complex64_t *WORK, int LDWORK);
465 int CORE_zttlqt(int M, int N, int IB,
466  PLASMA_Complex64_t *A1, int LDA1,
467  PLASMA_Complex64_t *A2, int LDA2,
468  PLASMA_Complex64_t *T, int LDT,
469  PLASMA_Complex64_t *TAU,
470  PLASMA_Complex64_t *WORK);
471 int CORE_zunmlq(PLASMA_enum side, PLASMA_enum trans,
472  int M, int N, int IB, int K,
473  const PLASMA_Complex64_t *V, int LDV,
474  const PLASMA_Complex64_t *T, int LDT,
475  PLASMA_Complex64_t *C, int LDC,
476  PLASMA_Complex64_t *WORK, int LDWORK);
477 int CORE_zunmqr(PLASMA_enum side, PLASMA_enum trans,
478  int M, int N, int K, int IB,
479  const PLASMA_Complex64_t *V, int LDV,
480  const PLASMA_Complex64_t *T, int LDT,
481  PLASMA_Complex64_t *C, int LDC,
482  PLASMA_Complex64_t *WORK, int LDWORK);
483 
484 #ifndef COMPLEX
485 void CORE_dlaed2_computeK(int *K, int n, int n1,
486  double *beta, double *D, double *Q, int LDQ,
487  double *Z, double *DLAMBDA, double *W,
488  int *INDX, int *INDXC, int *INDXP, int *INDXQ,
489  int *COLTYP);
490 void CORE_dlaed2_compressq(int n, int n1, const int *INDX, const int *ctot,
491  const double *Q, int LDQ, double *Q2,
492  int start, int end);
493 void CORE_dlaed2_copydef(int n, int n1, int K, const int *ctot,
494  double *Q, int LDQ, const double *Q2,
495  int start, int end);
496 int CORE_dlaed4(int n, int K,
497  double *D, double beta,
498  double *Q, int LDQ,
499  const double *D0, const double *Z,
500  const int *INDX,
501  int start, int end );
502 void CORE_dlaed3_computeW(int n, int K,
503  const double *Q, int LDQ,
504  const double *DLAMBDA, double *W,
505  const int *INDX,
506  int start, int end);
507 void CORE_dlaed3_reduceW(int n, int n1, int K, int l,
508  const double *Q, int LDQ,
509  const double *Wred, double *W);
510 void CORE_dlaed3_computevectors(int K, int il_nondef, int iu_nondef,
511  double *Q, int LDQ, double *W, double *S,
512  const int *INDXC,
513  int start, int end);
514 void CORE_dlaed3_merge( int n, int K, double *D, int *INDXQ );
515 void CORE_dlaed3_updatevectors(int op, int wsmode, int n, int n1, int K,
516  int il_nondef, int iu_nondef,
517  double *Q, int ldq, double *Q2,
518  const int *ctot, double *WORK, int start, int end);
519 #endif
520 void CORE_zswap(int m, int n, PLASMA_Complex64_t *Q, int ldq,
521  const PLASMA_Complex64_t *work, const int *perm,
522  int start, int end);
523 int CORE_zlascl(PLASMA_enum type, int kl, int ku, double cfrom, double cto,
524  int m, int n, PLASMA_Complex64_t *A, int lda);
525 #ifdef COMPLEX
526 int CORE_dlag2z(int m, int n, const double *Q, int LDQ,
527  PLASMA_Complex64_t *Z, int LDZ);
528 #endif
529 
530 #ifndef COMPLEX
531 void CORE_dlaed3_freebigwork(int oper, double **WORK);
532 void CORE_dlaed0_betaapprox(int subpbs, const int *subpbs_info,
533  double *D, const double *E);
534 int CORE_dlapst(PLASMA_enum type, int n,
535  const double *D, int *INDX);
536 #endif
537 
538 #if defined(QUARK_H)
539 
542 void QUARK_CORE_dzasum(Quark *quark, Quark_Task_Flags *task_flags,
543  PLASMA_enum storev, PLASMA_enum uplo, int m, int n,
544  const PLASMA_Complex64_t *A, int lda, int szeA,
545  double *work, int szeW);
546 void QUARK_CORE_dzasum_f1(Quark *quark, Quark_Task_Flags *task_flags,
547  PLASMA_enum storev, PLASMA_enum uplo, int m, int n,
548  const PLASMA_Complex64_t *A, int lda, int szeA,
549  double *work, int szeW,
550  double *fake, int szeF);
551 void QUARK_CORE_zgeadd(Quark *quark, Quark_Task_Flags *task_flags,
552  PLASMA_enum trans, int m, int n, int nb,
553  PLASMA_Complex64_t alpha,
554  const PLASMA_Complex64_t *A, int lda,
555  PLASMA_Complex64_t beta,
556  PLASMA_Complex64_t *B, int ldb);
557 void QUARK_CORE_zbrdalg1(Quark *quark, Quark_Task_Flags *task_flags,
558  PLASMA_enum uplo,
559  int n, int nb,
560  PLASMA_Complex64_t *A,
561  int lda,
562  PLASMA_Complex64_t *VQ,
563  PLASMA_Complex64_t *TAUQ,
564  PLASMA_Complex64_t *VP,
565  PLASMA_Complex64_t *TAUP,
566  int Vblksiz, int wantz,
567  int i, int sweepid, int m, int grsiz,
568  int *PCOL, int *ACOL, int *MCOL);
569 void QUARK_CORE_zgelqt(Quark *quark, Quark_Task_Flags *task_flags,
570  int m, int n, int ib, int nb,
571  PLASMA_Complex64_t *A, int lda,
572  PLASMA_Complex64_t *T, int ldt);
573 void QUARK_CORE_zgemm(Quark *quark, Quark_Task_Flags *task_flags,
574  PLASMA_enum transA, PLASMA_enum transB,
575  int m, int n, int k, int nb,
576  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
577  const PLASMA_Complex64_t *B, int ldb,
578  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
579 void QUARK_CORE_zgemm2( Quark *quark, Quark_Task_Flags *task_flags,
580  PLASMA_enum transA, PLASMA_enum transB,
581  int m, int n, int k, int nb,
582  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
583  const PLASMA_Complex64_t *B, int ldb,
584  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
585 void QUARK_CORE_zgemm_f2(Quark *quark, Quark_Task_Flags *task_flags,
586  PLASMA_enum transA, PLASMA_enum transB,
587  int m, int n, int k, int nb,
588  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
589  const PLASMA_Complex64_t *B, int ldb,
590  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc,
591  PLASMA_Complex64_t *fake1, int szefake1, int flag1,
592  PLASMA_Complex64_t *fake2, int szefake2, int flag2);
593 void QUARK_CORE_zgemm_p2(Quark *quark, Quark_Task_Flags *task_flags,
594  PLASMA_enum transA, PLASMA_enum transB,
595  int m, int n, int k, int nb,
596  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
597  const PLASMA_Complex64_t **B, int ldb,
598  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
599 void QUARK_CORE_zgemm_p2f1(Quark *quark, Quark_Task_Flags *task_flags,
600  PLASMA_enum transA, PLASMA_enum transB,
601  int m, int n, int k, int nb,
602  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
603  const PLASMA_Complex64_t **B, int ldb,
604  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc,
605  PLASMA_Complex64_t *fake1, int szefake1, int flag1);
606 void QUARK_CORE_zgemm_p3(Quark *quark, Quark_Task_Flags *task_flags,
607  PLASMA_enum transA, PLASMA_enum transB,
608  int m, int n, int k, int nb,
609  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
610  const PLASMA_Complex64_t *B, int ldb,
611  PLASMA_Complex64_t beta, PLASMA_Complex64_t **C, int ldc);
612 void QUARK_CORE_zgemm_tile(Quark *quark, Quark_Task_Flags *task_flags,
613  PLASMA_enum transA, PLASMA_enum transB,
614  int m, int n, int k, int nb,
615  const PLASMA_Complex64_t *alpha, const PLASMA_Complex64_t *A, int lda,
616  const PLASMA_Complex64_t *B, int ldb,
617  const PLASMA_Complex64_t *beta, PLASMA_Complex64_t *C, int ldc,
618  const PLASMA_Complex64_t *Alock,
619  const PLASMA_Complex64_t *Block,
620  const PLASMA_Complex64_t *Clock);
621 void QUARK_CORE_zgemv(Quark *quark, Quark_Task_Flags *task_flags,
622  PLASMA_enum trans, int m, int n,
623  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
624  const PLASMA_Complex64_t *x, int incx,
625  PLASMA_Complex64_t beta, PLASMA_Complex64_t *y, int incy);
626 void QUARK_CORE_zgemv_tile(Quark *quark, Quark_Task_Flags *task_flags,
627  PLASMA_enum trans,
628  int m, int n,
629  const PLASMA_Complex64_t *alpha, const PLASMA_Complex64_t *A, int lda,
630  const PLASMA_Complex64_t *x, int incx,
631  const PLASMA_Complex64_t *beta, PLASMA_Complex64_t *y, int incy,
632  const PLASMA_Complex64_t *Alock,
633  const PLASMA_Complex64_t *xlock,
634  const PLASMA_Complex64_t *ylock);
635 void QUARK_CORE_zgeqp3_init( Quark *quark, Quark_Task_Flags *task_flags,
636  int n, int *jpvt );
637 void QUARK_CORE_zgeqp3_larfg(Quark *quark, Quark_Task_Flags *task_flags,
638  PLASMA_desc A, int ii, int jj, int i, int j,
639  PLASMA_Complex64_t *tau, PLASMA_Complex64_t *beta );
640 void QUARK_CORE_zgeqp3_norms( Quark *quark, Quark_Task_Flags *task_flags,
641  PLASMA_desc A, int ioff, int joff, double *norms1, double *norms2 );
642 void QUARK_CORE_zgeqp3_pivot( Quark *quark, Quark_Task_Flags *task_flags,
643  PLASMA_desc A,
644  PLASMA_Complex64_t *F, int ldf,
645  int jj, int k, int *jpvt,
646  double *norms1, double *norms2, int *info );
647 void QUARK_CORE_zgeqp3_tntpiv(Quark *quark, Quark_Task_Flags *task_flags,
648  int m, int n, int nb,
649  PLASMA_Complex64_t *A, int lda,
650  int *IPIV,
651  PLASMA_sequence *sequence, PLASMA_request *request,
652  PLASMA_bool check_info, int iinfo);
653 void QUARK_CORE_zgeqp3_update( Quark *quark, Quark_Task_Flags *task_flags,
654  PLASMA_Complex64_t *Ajj, int lda1,
655  PLASMA_Complex64_t *Ajk, int lda2,
656  PLASMA_Complex64_t *Fk, int ldf,
657  int joff, int k, int koff, int nb,
658  double *norms1, double *norms2, int *info );
659 void QUARK_CORE_zgeqrt(Quark *quark, Quark_Task_Flags *task_flags,
660  int m, int n, int ib, int nb,
661  PLASMA_Complex64_t *A, int lda,
662  PLASMA_Complex64_t *T, int ldt);
663 void QUARK_CORE_zgessm(Quark *quark, Quark_Task_Flags *task_flags,
664  int m, int n, int k, int ib, int nb,
665  const int *IPIV,
666  const PLASMA_Complex64_t *L, int ldl,
667  PLASMA_Complex64_t *A, int lda);
668 void QUARK_CORE_zgessq_f1( Quark *quark, Quark_Task_Flags *task_flags,
669  int m, int n, const PLASMA_Complex64_t *A, int lda,
670  double *scale, double *sumsq,
671  double *fake, int szeF, int paramF );
672 void QUARK_CORE_zgetrf(Quark *quark, Quark_Task_Flags *task_flags,
673  int m, int n, int nb,
674  PLASMA_Complex64_t *A, int lda,
675  int *IPIV,
676  PLASMA_sequence *sequence, PLASMA_request *request,
677  PLASMA_bool check_info, int iinfo);
678 void QUARK_CORE_zgetrf_incpiv(Quark *quark, Quark_Task_Flags *task_flags,
679  int m, int n, int ib, int nb,
680  PLASMA_Complex64_t *A, int lda,
681  int *IPIV,
682  PLASMA_sequence *sequence, PLASMA_request *request,
683  PLASMA_bool check_info, int iinfo);
684 void QUARK_CORE_zgetrf_nopiv(Quark *quark, Quark_Task_Flags *task_flags,
685  int m, int n, int ib, int nb,
686  PLASMA_Complex64_t *A, int lda,
687  PLASMA_sequence *sequence, PLASMA_request *request,
688  int iinfo);
689 void QUARK_CORE_zgetrf_reclap(Quark *quark, Quark_Task_Flags *task_flags,
690  CORE_zgetrf_data_t *data, int m, int n, int nb,
691  PLASMA_Complex64_t *A, int lda,
692  int *IPIV,
693  PLASMA_sequence *sequence, PLASMA_request *request,
694  PLASMA_bool check_info, int iinfo,
695  int nbthread);
696 void QUARK_CORE_zgetrf_rectil(Quark *quark, Quark_Task_Flags *task_flags,
697  CORE_zgetrf_data_t *data,
698  PLASMA_desc A, PLASMA_Complex64_t *Amn, int size,
699  int *IPIV,
700  PLASMA_sequence *sequence, PLASMA_request *request,
701  PLASMA_bool check_info, int iinfo,
702  int nbthread);
703 void QUARK_CORE_zgetrip(Quark *quark, Quark_Task_Flags *task_flags,
704  int m, int n, PLASMA_Complex64_t *A, int szeA);
705 void QUARK_CORE_zgetrip_f1(Quark *quark, Quark_Task_Flags *task_flags,
706  int m, int n, PLASMA_Complex64_t *A, int szeA,
707  PLASMA_Complex64_t *fake, int szeF, int paramF);
708 void QUARK_CORE_zgetrip_f2(Quark *quark, Quark_Task_Flags *task_flags,
709  int m, int n, PLASMA_Complex64_t *A, int szeA,
710  PLASMA_Complex64_t *fake1, int szeF1, int paramF1,
711  PLASMA_Complex64_t *fake2, int szeF2, int paramF2);
712 void QUARK_CORE_zhemm(Quark *quark, Quark_Task_Flags *task_flags,
713  PLASMA_enum side, PLASMA_enum uplo,
714  int m, int n, int nb,
715  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
716  const PLASMA_Complex64_t *B, int ldb,
717  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
718 void QUARK_CORE_zhegst(Quark *quark, Quark_Task_Flags *task_flags,
719  int itype, PLASMA_enum uplo, int N,
720  PLASMA_Complex64_t *A, int LDA,
721  PLASMA_Complex64_t *B, int LDB,
722  PLASMA_sequence *sequence, PLASMA_request *request,
723  int iinfo);
724 void QUARK_CORE_zherk(Quark *quark, Quark_Task_Flags *task_flags,
725  PLASMA_enum uplo, PLASMA_enum trans,
726  int n, int k, int nb,
727  double alpha, const PLASMA_Complex64_t *A, int lda,
728  double beta, PLASMA_Complex64_t *C, int ldc);
729 void QUARK_CORE_zher2k(Quark *quark, Quark_Task_Flags *task_flags,
730  PLASMA_enum uplo, PLASMA_enum trans,
731  int n, int k, int nb,
732  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
733  const PLASMA_Complex64_t *B, int LDB,
734  double beta, PLASMA_Complex64_t *C, int ldc);
735 void QUARK_CORE_zherfb(Quark *quark, Quark_Task_Flags *task_flags,
736  PLASMA_enum uplo,
737  int n, int k, int ib, int nb,
738  const PLASMA_Complex64_t *A, int lda,
739  const PLASMA_Complex64_t *T, int ldt,
740  PLASMA_Complex64_t *C, int ldc);
741 void QUARK_CORE_zhessq_f1( Quark *quark, Quark_Task_Flags *task_flags,
742  PLASMA_enum uplo, int n, const PLASMA_Complex64_t *A, int lda,
743  double *scale, double *sumsq,
744  double *fake, int szeF, int paramF );
745 void QUARK_CORE_zlacpy(Quark *quark, Quark_Task_Flags *task_flags,
746  PLASMA_enum uplo, int m, int n, int mb,
747  const PLASMA_Complex64_t *A, int lda,
748  PLASMA_Complex64_t *B, int ldb);
749 void QUARK_CORE_zlacpy_f1(Quark *quark, Quark_Task_Flags *task_flags,
750  PLASMA_enum uplo, int m, int n, int nb,
751  const PLASMA_Complex64_t *A, int lda,
752  PLASMA_Complex64_t *B, int ldb,
753  PLASMA_Complex64_t *fake1, int szefake1, int flag1);
754 void QUARK_CORE_zlacpy_pivot(Quark *quark, Quark_Task_Flags *task_flags,
755  const PLASMA_desc descA,
756  PLASMA_enum direct,
757  int k1, int k2, const int *ipiv,
758  int *rankin, int *rankout,
759  PLASMA_Complex64_t *A, int lda,
760  int pos, int init);
761 void QUARK_CORE_zlange(Quark *quark, Quark_Task_Flags *task_flags,
762  int norm, int M, int N,
763  const PLASMA_Complex64_t *A, int LDA, int szeA,
764  int szeW, double *result);
765 void QUARK_CORE_zlange_f1(Quark *quark, Quark_Task_Flags *task_flags,
766  int norm, int M, int N,
767  const PLASMA_Complex64_t *A, int LDA, int szeA,
768  int szeW, double *result,
769  double *fake, int szeF);
770 #ifdef COMPLEX
771 void QUARK_CORE_zlanhe(Quark *quark, Quark_Task_Flags *task_flags,
772  int norm, PLASMA_enum uplo, int N,
773  const PLASMA_Complex64_t *A, int LDA, int szeA,
774  int szeW, double *result);
775 void QUARK_CORE_zlanhe_f1(Quark *quark, Quark_Task_Flags *task_flags,
776  int norm, PLASMA_enum uplo, int N,
777  const PLASMA_Complex64_t *A, int LDA, int szeA,
778  int szeW, double *result,
779  double *fake, int szeF);
780 #endif
781 void QUARK_CORE_zlansy(Quark *quark, Quark_Task_Flags *task_flags,
782  int norm, PLASMA_enum uplo, int N,
783  const PLASMA_Complex64_t *A, int LDA, int szeA,
784  int szeW, double *result);
785 void QUARK_CORE_zlansy_f1(Quark *quark, Quark_Task_Flags *task_flags,
786  int norm, PLASMA_enum uplo, int N,
787  const PLASMA_Complex64_t *A, int LDA, int szeA,
788  int szeW, double *result,
789  double *fake, int szeF);
790 void QUARK_CORE_zlantr(Quark *quark, Quark_Task_Flags *task_flags,
791  PLASMA_enum norm, PLASMA_enum uplo, PLASMA_enum diag, int M, int N,
792  const PLASMA_Complex64_t *A, int LDA, int szeA,
793  int szeW, double *result);
794 void QUARK_CORE_zlantr_f1(Quark *quark, Quark_Task_Flags *task_flags,
795  PLASMA_enum norm, PLASMA_enum uplo, PLASMA_enum diag, int M, int N,
796  const PLASMA_Complex64_t *A, int LDA, int szeA,
797  int szeW, double *result,
798  double *fake, int szeF);
799 void QUARK_CORE_zlascal(Quark *quark, Quark_Task_Flags *task_flags,
800  PLASMA_enum uplo, int m, int n, int nb,
801  PLASMA_Complex64_t alpha, PLASMA_Complex64_t *A, int lda);
802 void QUARK_CORE_zlaset(Quark *quark, Quark_Task_Flags *task_flags,
803  PLASMA_enum uplo, int n1, int n2, PLASMA_Complex64_t alpha,
804  PLASMA_Complex64_t beta, PLASMA_Complex64_t *tileA, int ldtilea);
805 void QUARK_CORE_zlaset2(Quark *quark, Quark_Task_Flags *task_flags,
806  PLASMA_enum uplo, int n1, int n2, PLASMA_Complex64_t alpha,
807  PLASMA_Complex64_t *tileA, int ldtilea);
808 void QUARK_CORE_zlaswp(Quark *quark, Quark_Task_Flags *task_flags,
809  int n, PLASMA_Complex64_t *A, int lda,
810  int i1, int i2, const int *ipiv, int inc);
811 void QUARK_CORE_zlaswp_f2(Quark *quark, Quark_Task_Flags *task_flags,
812  int n, PLASMA_Complex64_t *A, int lda,
813  int i1, int i2, const int *ipiv, int inc,
814  PLASMA_Complex64_t *fake1, int szefake1, int flag1,
815  PLASMA_Complex64_t *fake2, int szefake2, int flag2);
816 void QUARK_CORE_zlaswp_ontile(Quark *quark, Quark_Task_Flags *task_flags,
817  PLASMA_desc descA, PLASMA_Complex64_t *A,
818  int i1, int i2, const int *ipiv, int inc, PLASMA_Complex64_t *fakepanel);
819 void QUARK_CORE_zlaswp_ontile_f2(Quark *quark, Quark_Task_Flags *task_flags,
820  PLASMA_desc descA, PLASMA_Complex64_t *A,
821  int i1, int i2, const int *ipiv, int inc,
822  PLASMA_Complex64_t *fake1, int szefake1, int flag1,
823  PLASMA_Complex64_t *fake2, int szefake2, int flag2);
824 void QUARK_CORE_zlaswpc_ontile(Quark *quark, Quark_Task_Flags *task_flags,
825  PLASMA_desc descA, PLASMA_Complex64_t *A,
826  int i1, int i2, const int *ipiv, int inc, PLASMA_Complex64_t *fakepanel);
827 void QUARK_CORE_zlatro(Quark *quark, Quark_Task_Flags *task_flags,
828  PLASMA_enum uplo, PLASMA_enum trans, int m, int n, int mb,
829  const PLASMA_Complex64_t *A, int lda,
830  PLASMA_Complex64_t *B, int ldb);
831 void QUARK_CORE_zlatro_f1(Quark *quark, Quark_Task_Flags *task_flags,
832  PLASMA_enum uplo, PLASMA_enum trans, int m, int n, int mb,
833  const PLASMA_Complex64_t *A, int lda,
834  PLASMA_Complex64_t *B, int ldb,
835  PLASMA_Complex64_t *fake1, int szefake1, int flag1);
836 void QUARK_CORE_zlauum(Quark *quark, Quark_Task_Flags *task_flags,
837  PLASMA_enum uplo, int n, int nb,
838  PLASMA_Complex64_t *A, int lda);
839 void QUARK_CORE_zplghe(Quark *quark, Quark_Task_Flags *task_flags,
840  double bump, int m, int n, PLASMA_Complex64_t *A, int lda,
841  int bigM, int m0, int n0, unsigned long long int seed );
842 void QUARK_CORE_zplgsy(Quark *quark, Quark_Task_Flags *task_flags,
843  PLASMA_Complex64_t bump, int m, int n, PLASMA_Complex64_t *A, int lda,
844  int bigM, int m0, int n0, unsigned long long int seed );
845 void QUARK_CORE_zplrnt(Quark *quark, Quark_Task_Flags *task_flags,
846  int m, int n, PLASMA_Complex64_t *A, int lda,
847  int bigM, int m0, int n0, unsigned long long int seed );
848 void QUARK_CORE_zpltmg(Quark *quark, Quark_Task_Flags *task_flags,
849  PLASMA_enum mtxtype, int m, int n, PLASMA_Complex64_t *A, int lda,
850  int gM, int gN, int m0, int n0, unsigned long long int seed );
851 void QUARK_CORE_zpltmg_chebvand( Quark *quark, Quark_Task_Flags *task_flags,
852  int M, int N, PLASMA_Complex64_t *A, int LDA,
853  int gN, int m0, int n0,
854  PLASMA_Complex64_t *W );
855 void QUARK_CORE_zpltmg_circul( Quark *quark, Quark_Task_Flags *task_flags,
856  int M, int N, PLASMA_Complex64_t *A, int LDA,
857  int gM, int m0, int n0,
858  const PLASMA_Complex64_t *W );
859 void QUARK_CORE_zpltmg_fiedler(Quark *quark, Quark_Task_Flags *task_flags,
860  int m, int n,
861  const PLASMA_Complex64_t *X, int incX,
862  const PLASMA_Complex64_t *Y, int incY,
863  PLASMA_Complex64_t *A, int lda);
864 void QUARK_CORE_zpltmg_hankel( Quark *quark, Quark_Task_Flags *task_flags,
865  PLASMA_enum uplo, int M, int N, PLASMA_Complex64_t *A, int LDA,
866  int m0, int n0, int nb,
867  const PLASMA_Complex64_t *V1,
868  const PLASMA_Complex64_t *V2);
869 void QUARK_CORE_zpltmg_toeppd1(Quark *quark, Quark_Task_Flags *task_flags,
870  int gM, int m0, int M,
871  PLASMA_Complex64_t *W,
872  unsigned long long int seed);
873 void QUARK_CORE_zpltmg_toeppd2(Quark *quark, Quark_Task_Flags *task_flags,
874  int M, int N, int K, int m0, int n0,
875  const PLASMA_Complex64_t *W,
876  PLASMA_Complex64_t *A, int LDA );
877 void QUARK_CORE_zpotrf(Quark *quark, Quark_Task_Flags *task_flags,
878  PLASMA_enum uplo, int n, int nb,
879  PLASMA_Complex64_t *A, int lda,
880  PLASMA_sequence *sequence, PLASMA_request *request,
881  int iinfo);
882 void QUARK_CORE_zsetvar(Quark *quark, Quark_Task_Flags *task_flags,
883  const PLASMA_Complex64_t *alpha, PLASMA_Complex64_t *x,
884  PLASMA_Complex64_t *Alock);
885 void QUARK_CORE_zshift( Quark *quark, Quark_Task_Flags *task_flags,
886  int s, int m, int n, int L,
887  PLASMA_Complex64_t *A);
888 void QUARK_CORE_zshiftw(Quark *quark, Quark_Task_Flags *task_flags,
889  int s, int cl, int m, int n, int L,
890  PLASMA_Complex64_t *A, PLASMA_Complex64_t *W);
891 void QUARK_CORE_zssssm(Quark *quark, Quark_Task_Flags *task_flags,
892  int m1, int n1, int m2, int n2, int k, int ib, int nb,
893  PLASMA_Complex64_t *A1, int lda1,
894  PLASMA_Complex64_t *A2, int lda2,
895  const PLASMA_Complex64_t *L1, int ldl1,
896  const PLASMA_Complex64_t *L2, int ldl2,
897  const int *IPIV);
898 void QUARK_CORE_zstedc(Quark *quark, Quark_Task_Flags *task_flags,
899  PLASMA_enum compz, int n,
900  double *D, double *E,
901  PLASMA_Complex64_t *Z, int ldz);
902 void QUARK_CORE_zstedc_f2(Quark *quark, Quark_Task_Flags *task_flags,
903  PLASMA_enum compz, int n,
904  double *D, double *E,
905  PLASMA_Complex64_t *Z, int ldz,
906  void *fake1, int szefake1, int flag1,
907  void *fake2, int szefake2, int flag2);
908 void QUARK_CORE_zsteqr(Quark *quark, Quark_Task_Flags *task_flags,
909  PLASMA_enum compz, int n,
910  double *D, double *E,
911  PLASMA_Complex64_t *Z, int ldz);
912 void QUARK_CORE_zsymm(Quark *quark, Quark_Task_Flags *task_flags,
913  PLASMA_enum side, PLASMA_enum uplo,
914  int m, int n, int nb,
915  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
916  const PLASMA_Complex64_t *B, int ldb,
917  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
918 void QUARK_CORE_zsyrk(Quark *quark, Quark_Task_Flags *task_flags,
919  PLASMA_enum uplo, PLASMA_enum trans,
920  int n, int k, int nb,
921  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
922  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
923 void QUARK_CORE_zsyr2k(Quark *quark, Quark_Task_Flags *task_flags,
924  PLASMA_enum uplo, PLASMA_enum trans,
925  int n, int k, int nb,
926  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
927  const PLASMA_Complex64_t *B, int LDB,
928  PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int ldc);
929 void QUARK_CORE_zsyssq_f1( Quark *quark, Quark_Task_Flags *task_flags,
930  PLASMA_enum uplo, int n, const PLASMA_Complex64_t *A, int lda,
931  double *scale, double *sumsq,
932  double *fake, int szeF, int paramF );
933 void QUARK_CORE_zswpab(Quark *quark, Quark_Task_Flags *task_flags,
934  int i, int n1, int n2,
935  PLASMA_Complex64_t *A, int szeA);
936 void QUARK_CORE_zswptr_ontile(Quark *quark, Quark_Task_Flags *task_flags,
937  PLASMA_desc descA, PLASMA_Complex64_t *Aij,
938  int i1, int i2, const int *ipiv, int inc,
939  const PLASMA_Complex64_t *Akk, int ldak);
940 void QUARK_CORE_ztradd(Quark *quark, Quark_Task_Flags *task_flags,
941  PLASMA_enum uplo, PLASMA_enum trans, int m, int n, int nb,
942  PLASMA_Complex64_t alpha,
943  const PLASMA_Complex64_t *A, int lda,
944  PLASMA_Complex64_t beta,
945  PLASMA_Complex64_t *B, int ldb);
946 void QUARK_CORE_ztrasm(Quark *quark, Quark_Task_Flags *task_flags,
947  PLASMA_enum storev, PLASMA_enum uplo, PLASMA_enum diag, int m, int n,
948  const PLASMA_Complex64_t *A, int lda, int szeA,
949  double *work, int szeW);
950 void QUARK_CORE_ztrasm_f1(Quark *quark, Quark_Task_Flags *task_flags,
951  PLASMA_enum storev, PLASMA_enum uplo, PLASMA_enum diag, int m, int n,
952  const PLASMA_Complex64_t *A, int lda, int szeA,
953  double *work, int szeW,
954  double *fake, int szeF);
955 void QUARK_CORE_ztrdalg1(Quark *quark, Quark_Task_Flags *task_flags,
956  int n,
957  int nb,
958  PLASMA_Complex64_t *A,
959  int lda,
960  PLASMA_Complex64_t *V,
961  PLASMA_Complex64_t *TAU,
962  int Vblksiz, int wantz,
963  int i, int sweepid, int m, int grsiz,
964  int *PCOL, int *ACOL, int *MCOL);
965 void QUARK_CORE_ztrmm(Quark *quark, Quark_Task_Flags *task_flags,
966  PLASMA_enum side, PLASMA_enum uplo, PLASMA_enum transA, PLASMA_enum diag,
967  int m, int n, int nb,
968  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
969  PLASMA_Complex64_t *B, int ldb);
970 void QUARK_CORE_ztrmm_p2(Quark *quark, Quark_Task_Flags *task_flags,
971  PLASMA_enum side, PLASMA_enum uplo, PLASMA_enum transA, PLASMA_enum diag,
972  int m, int n, int nb,
973  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
974  PLASMA_Complex64_t **B, int ldb);
975 void QUARK_CORE_ztrsm(Quark *quark, Quark_Task_Flags *task_flags,
976  PLASMA_enum side, PLASMA_enum uplo, PLASMA_enum transA, PLASMA_enum diag,
977  int m, int n, int nb,
978  PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int lda,
979  PLASMA_Complex64_t *B, int ldb);
980 void QUARK_CORE_ztrssq_f1( Quark *quark, Quark_Task_Flags *task_flags,
981  PLASMA_enum uplo, PLASMA_enum diag,
982  int m, int n, const PLASMA_Complex64_t *A, int lda,
983  double *scale, double *sumsq,
984  double *fake, int szeF, int paramF );
985 void QUARK_CORE_ztrtri(Quark *quark, Quark_Task_Flags *task_flags,
986  PLASMA_enum uplo, PLASMA_enum diag, int n, int nb,
987  PLASMA_Complex64_t *A, int lda,
988  PLASMA_sequence *sequence, PLASMA_request *request,
989  int iinfo);
990 void QUARK_CORE_ztslqt(Quark *quark, Quark_Task_Flags *task_flags,
991  int m, int n, int ib, int nb,
992  PLASMA_Complex64_t *A1, int lda1,
993  PLASMA_Complex64_t *A2, int lda2,
994  PLASMA_Complex64_t *T, int ldt);
995 void QUARK_CORE_ztsmlq(Quark *quark, Quark_Task_Flags *task_flags,
996  PLASMA_enum side, PLASMA_enum trans,
997  int m1, int n1, int m2, int n2, int k, int ib, int nb,
998  PLASMA_Complex64_t *A1, int lda1,
999  PLASMA_Complex64_t *A2, int lda2,
1000  const PLASMA_Complex64_t *V, int ldv,
1001  const PLASMA_Complex64_t *T, int ldt);
1002 void QUARK_CORE_ztsmlq_hetra1(Quark *quark, Quark_Task_Flags *task_flags,
1003  PLASMA_enum side, PLASMA_enum trans,
1004  int m1, int n1, int m2, int n2, int k, int ib, int nb,
1005  PLASMA_Complex64_t *A1, int lda1,
1006  PLASMA_Complex64_t *A2, int lda2,
1007  const PLASMA_Complex64_t *V, int ldv,
1008  const PLASMA_Complex64_t *T, int ldt);
1009 void QUARK_CORE_ztsmlq_corner(Quark *quark, Quark_Task_Flags *task_flags,
1010  int m1, int n1, int m2, int n2, int m3, int n3, int k, int ib, int nb,
1011  PLASMA_Complex64_t *A1, int lda1,
1012  PLASMA_Complex64_t *A2, int lda2,
1013  PLASMA_Complex64_t *A3, int lda3,
1014  const PLASMA_Complex64_t *V, int ldv,
1015  const PLASMA_Complex64_t *T, int ldt);
1016 void QUARK_CORE_ztsmqr(Quark *quark, Quark_Task_Flags *task_flags,
1017  PLASMA_enum side, PLASMA_enum trans,
1018  int m1, int n1, int m2, int n2, int k, int ib, int nb,
1019  PLASMA_Complex64_t *A1, int lda1,
1020  PLASMA_Complex64_t *A2, int lda2,
1021  const PLASMA_Complex64_t *V, int ldv,
1022  const PLASMA_Complex64_t *T, int ldt);
1023 void QUARK_CORE_ztsmqr_hetra1(Quark *quark, Quark_Task_Flags *task_flags,
1024  PLASMA_enum side, PLASMA_enum trans,
1025  int m1, int n1, int m2, int n2, int k, int ib, int nb,
1026  PLASMA_Complex64_t *A1, int lda1,
1027  PLASMA_Complex64_t *A2, int lda2,
1028  const PLASMA_Complex64_t *V, int ldv,
1029  const PLASMA_Complex64_t *T, int ldt);
1030 void QUARK_CORE_ztsmqr_corner(Quark *quark, Quark_Task_Flags *task_flags,
1031  int m1, int n1, int m2, int n2, int m3, int n3, int k, int ib, int nb,
1032  PLASMA_Complex64_t *A1, int lda1,
1033  PLASMA_Complex64_t *A2, int lda2,
1034  PLASMA_Complex64_t *A3, int lda3,
1035  const PLASMA_Complex64_t *V, int ldv,
1036  const PLASMA_Complex64_t *T, int ldt);
1037 void QUARK_CORE_ztsqrt(Quark *quark, Quark_Task_Flags *task_flags,
1038  int m, int n, int ib, int nb,
1039  PLASMA_Complex64_t *A1, int lda1,
1040  PLASMA_Complex64_t *A2, int lda2,
1041  PLASMA_Complex64_t *T, int ldt);
1042 void QUARK_CORE_ztstrf(Quark *quark, Quark_Task_Flags *task_flags,
1043  int m, int n, int ib, int nb,
1044  PLASMA_Complex64_t *U, int ldu,
1045  PLASMA_Complex64_t *A, int lda,
1046  PLASMA_Complex64_t *L, int ldl,
1047  int *IPIV,
1048  PLASMA_sequence *sequence, PLASMA_request *request,
1049  PLASMA_bool check_info, int iinfo);
1050 void QUARK_CORE_zttmqr(Quark *quark, Quark_Task_Flags *task_flags,
1051  PLASMA_enum side, PLASMA_enum trans,
1052  int m1, int n1, int m2, int n2, int k, int ib, int nb,
1053  PLASMA_Complex64_t *A1, int lda1,
1054  PLASMA_Complex64_t *A2, int lda2,
1055  const PLASMA_Complex64_t *V, int ldv,
1056  const PLASMA_Complex64_t *T, int ldt);
1057 void QUARK_CORE_zttqrt(Quark *quark, Quark_Task_Flags *task_flags,
1058  int m, int n, int ib, int nb,
1059  PLASMA_Complex64_t *A1, int lda1,
1060  PLASMA_Complex64_t *A2, int lda2,
1061  PLASMA_Complex64_t *T, int ldt);
1062 void QUARK_CORE_zttmlq(Quark *quark, Quark_Task_Flags *task_flags,
1063  PLASMA_enum side, PLASMA_enum trans,
1064  int m1, int n1, int m2, int n2, int k, int ib, int nb,
1065  PLASMA_Complex64_t *A1, int lda1,
1066  PLASMA_Complex64_t *A2, int lda2,
1067  const PLASMA_Complex64_t *V, int ldv,
1068  const PLASMA_Complex64_t *T, int ldt);
1069 void QUARK_CORE_zttlqt(Quark *quark, Quark_Task_Flags *task_flags,
1070  int m, int n, int ib, int nb,
1071  PLASMA_Complex64_t *A1, int lda1,
1072  PLASMA_Complex64_t *A2, int lda2,
1073  PLASMA_Complex64_t *T, int ldt);
1074 void QUARK_CORE_zpamm(Quark *quark, Quark_Task_Flags *task_flags,
1075  int op, PLASMA_enum side, PLASMA_enum storev,
1076  int m, int n, int k, int l,
1077  const PLASMA_Complex64_t *A1, int lda1,
1078  PLASMA_Complex64_t *A2, int lda2,
1079  const PLASMA_Complex64_t *V, int ldv,
1080  PLASMA_Complex64_t *W, int ldw);
1081 void QUARK_CORE_zplssq( Quark *quark, Quark_Task_Flags *task_flags,
1082  int m, const double *A, double *result );
1083 void QUARK_CORE_zunmlq(Quark *quark, Quark_Task_Flags *task_flags,
1084  PLASMA_enum side, PLASMA_enum trans,
1085  int m, int n, int ib, int nb, int k,
1086  const PLASMA_Complex64_t *A, int lda,
1087  const PLASMA_Complex64_t *T, int ldt,
1088  PLASMA_Complex64_t *C, int ldc);
1089 void QUARK_CORE_zunmqr(Quark *quark, Quark_Task_Flags *task_flags,
1090  PLASMA_enum side, PLASMA_enum trans,
1091  int m, int n, int k, int ib, int nb,
1092  const PLASMA_Complex64_t *A, int lda,
1093  const PLASMA_Complex64_t *T, int ldt,
1094  PLASMA_Complex64_t *C, int ldc);
1095 
1096 
1097 void QUARK_CORE_zlascl(Quark *quark, Quark_Task_Flags *task_flags,
1098  PLASMA_enum type, int kl, int ku, double cfrom, double cto,
1099  int m, int n, PLASMA_Complex64_t *A, int lda);
1100 void QUARK_CORE_zlascl_p2f1(Quark *quark, Quark_Task_Flags *task_flags,
1101  PLASMA_enum type, int kl, int ku, double *cfrom, double *cto,
1102  int m, int n, PLASMA_Complex64_t *A, int lda,
1103  void *fake, int szefake, int flag);
1104 void QUARK_CORE_dlaed0_lascl( Quark *quark, Quark_Task_Flags *task_flags,
1105  int n, double *scale, double *D, double *E);
1106 void QUARK_CORE_dlaed0_betaapprox(Quark *quark, Quark_Task_Flags *task_flags,
1107  int subpbs, const int *subpbs_info,
1108  double *D, const double *E);
1109 
1110 #ifndef COMPLEX
1111 void QUARK_CORE_dlaed2_computeK(Quark *quark, Quark_Task_Flags *task_flags,
1112  int *K1, int n, int n1,
1113  double *beta, double *D, double *Q, int LDQ,
1114  double *Z, double *DLAMBDA, double *W,
1115  int *INDX, int *INDXC, int *INDXP, int *INDXQ,
1116  int *COLTYP,
1117  double **Qmerge, int wsmode,
1118  int *K2);
1119 
1120 void QUARK_CORE_dlaed1_pipelined(Quark *quark, Quark_Task_Flags *task_flags,
1121  int n, int n1, const int *K,
1122  const int *INDX, const int *ctot,
1123  double *D, const double *beta,
1124  double *Q, int LDQ, double *Q2,
1125  const double *DLAMBDA, const double *W, double *Wred,
1126  int start, int end);
1127 void QUARK_CORE_dlaed2_compressq(Quark *quark, Quark_Task_Flags *task_flags,
1128  int n, int n1, int start, int end,
1129  const int *INDX, const int *ctot,
1130  const double *Q, int LDQ,
1131  double *Q2, int *K);
1132 void QUARK_CORE_dlaed4_p2f1(Quark *quark, Quark_Task_Flags *task_flags,
1133  int n, const int *K,
1134  double *D, const double *beta,
1135  double **Q, const int *LDQ,
1136  const double *DLAMBDA, const double *W, const int *INDX,
1137  int start, int end,
1138  PLASMA_sequence *sequence, PLASMA_request *request,
1139  void *fakeQ, int flagfQ);
1140 void QUARK_CORE_dlaed3_compW_p2f1(Quark *quark, Quark_Task_Flags *task_flags,
1141  int n, const int *K,
1142  double **Q, const int *LDQ,
1143  const double *DLAMBDA, double *W,
1144  const int *INDX,
1145  int start, int end,
1146  void *fakeQ, int flagfQ,
1147  void *fakeW, int flagfW);
1148 
1149 void QUARK_CORE_dlaed3_reduceW(Quark *quark, Quark_Task_Flags *task_flags,
1150  int n, int n1, const int *K, int l,
1151  const double *Q, int LDQ,
1152  const double *Wred, double *W);
1153 void QUARK_CORE_dlaed3_reduceW_p2(Quark *quark, Quark_Task_Flags *task_flags,
1154  int n, int n1, const int *K, int l,
1155  double **Q, const int *LDQ,
1156  const double *Wred, double *W);
1157 
1158 void QUARK_CORE_dlaed2_copydef(Quark *quark, Quark_Task_Flags *task_flags,
1159  int n, int n1, const int *K, const int *ctot,
1160  double *Q, int LDQ, const double *Q2,
1161  int start, int end);
1162 void QUARK_CORE_dlaed3_computevectors(Quark *quark, Quark_Task_Flags *task_flags,
1163  int wsmode, int n, const int *K,
1164  const int *il_nondef, const int *iu_nondef,
1165  double *Q, int LDQ, double *W, const int *INDXC,
1166  double **WSglobal, double **WSlocal,
1167  int start, int end );
1168 void QUARK_CORE_dlaed3_wscopy( Quark *quark, Quark_Task_Flags *task_flags,
1169  const int *K, const int *il_nondef, const int *iu_nondef,
1170  const double *Q, int LDQ, double **WORK,
1171  int start, int end );
1172 void QUARK_CORE_dlaed3_updatevectors(Quark *quark, Quark_Task_Flags *task_flags,
1173  int oper, int wsmode, int n, int n1, int *K,
1174  int *il_nondef, int *iu_nondef,
1175  double *D, double *Q, int LDQ, double *Q2,
1176  int *INDXQ, int *COLTYP, double **WORK,
1177  int start, int end, double **WORKDEP);
1178 void QUARK_CORE_dlaed3_pipelined(Quark *quark, Quark_Task_Flags *task_flags,
1179  int n, int n1, int *K, int *il_nondef, int *iu_nondef,
1180  double *D, double *Q, int LDQ, double *Q2,
1181  int *INDXC, int *INDXQ, int *COLTYP, double *W,
1182  int start, int end2);
1183 
1184 void QUARK_CORE_dDC_fakedep(Quark *quark, Quark_Task_Flags *task_flags,
1185  int nb_tasks, int nb, double *Q, int LDQ, double *W);
1186 #endif
1187 
1188 void QUARK_CORE_zswap(Quark *quark, Quark_Task_Flags *task_flags,
1189  int m, int n, PLASMA_Complex64_t *Q,
1190  int LDQ, PLASMA_Complex64_t *work,
1191  int *perm, int begin, int end);
1192 #ifdef COMPLEX
1193 void QUARK_CORE_dlag2z(Quark *quark, Quark_Task_Flags *task_flags,
1194  int m, int n,
1195  const double *Q, int LDQ,
1196  PLASMA_Complex64_t *Z, int LDZ);
1197 #endif
1198 void QUARK_CORE_dlaed3_freebigwork(Quark *quark, Quark_Task_Flags *task_flags,
1199  int *K_bis, int largework, double **WORK);
1200 void QUARK_CORE_zlaset_identity(Quark *quark, Quark_Task_Flags *task_flags,
1201  int n, int start, int size,
1202  PLASMA_Complex64_t *A);
1203 
1207 void CORE_dzasum_quark(Quark *quark);
1208 void CORE_dzasum_f1_quark(Quark *quark);
1209 void CORE_zgeadd_quark(Quark *quark);
1210 void CORE_zbrdalg1_quark(Quark *quark);
1211 void CORE_zgelqt_quark(Quark *quark);
1212 void CORE_zgemm_quark(Quark *quark);
1213 void CORE_zgemm_tile_quark(Quark *quark);
1214 void CORE_zgemv_quark(Quark *quark);
1215 void CORE_zgemv_tile_quark(Quark *quark);
1216 void CORE_zgeqp3_init_quark(Quark *quark);
1217 void CORE_zgeqp3_larfg_quark(Quark *quark);
1218 void CORE_zgeqp3_norms_quark(Quark *quark);
1219 void CORE_zgeqp3_pivot_quark(Quark *quark);
1220 void CORE_zgeqp3_tntpiv_quark(Quark *quark);
1221 void CORE_zgeqp3_update_quark(Quark *quark);
1222 void CORE_zgeqrt_quark(Quark *quark);
1223 void CORE_zgessm_quark(Quark *quark);
1224 void CORE_zgessq_quark(Quark *quark);
1225 void CORE_zgessq_f1_quark(Quark *quark);
1226 void CORE_zgetrf_quark(Quark *quark);
1227 void CORE_zgetrf_incpiv_quark(Quark *quark);
1228 void CORE_zgetrf_nopiv_quark(Quark* quark);
1229 void CORE_zgetrf_reclap_quark(Quark *quark);
1230 void CORE_zgetrf_rectil_quark(Quark* quark);
1231 void CORE_zgetrip_quark(Quark *quark);
1232 void CORE_zgetrip_f1_quark(Quark *quark);
1233 void CORE_zgetrip_f2_quark(Quark *quark);
1234 #ifdef COMPLEX
1235 void CORE_zhemm_quark(Quark *quark);
1236 void CORE_zherk_quark(Quark *quark);
1237 void CORE_zher2k_quark(Quark *quark);
1238 #endif
1239 void CORE_zhegst_quark(Quark *quark);
1240 void CORE_zherfb_quark(Quark *quark);
1241 void CORE_zhessq_quark(Quark *quark);
1242 void CORE_zhessq_f1_quark(Quark *quark);
1243 void CORE_zlacpy_quark(Quark *quark);
1244 void CORE_zlacpy_f1_quark(Quark *quark);
1245 void CORE_zlacpy_pivot_quark(Quark *quark);
1246 void CORE_zlatro_quark(Quark *quark);
1247 void CORE_zlatro_f1_quark(Quark *quark);
1248 void CORE_zlange_quark(Quark *quark);
1249 void CORE_zlange_f1_quark(Quark *quark);
1250 #ifdef COMPLEX
1251 void CORE_zlanhe_quark(Quark *quark);
1252 void CORE_zlanhe_f1_quark(Quark *quark);
1253 #endif
1254 void CORE_zlansy_quark(Quark *quark);
1255 void CORE_zlansy_f1_quark(Quark *quark);
1256 void CORE_zlaset_quark(Quark *quark);
1257 void CORE_zlaset2_quark(Quark *quark);
1258 void CORE_zlatro_quark(Quark *quark);
1259 void CORE_zlauum_quark(Quark *quark);
1260 void CORE_zpamm_quark(Quark *quark);
1261 void CORE_zplghe_quark(Quark *quark);
1262 void CORE_zplgsy_quark(Quark *quark);
1263 void CORE_zplrnt_quark(Quark *quark);
1264 void CORE_zpltmg_quark(Quark *quark);
1265 void CORE_zplssq_quark(Quark *quark);
1266 void CORE_zpotrf_quark(Quark *quark);
1267 void CORE_zsetvar_quark(Quark *quark);
1268 void CORE_zshift_quark(Quark *quark);
1269 void CORE_zshiftw_quark(Quark *quark);
1270 void CORE_zssssm_quark(Quark *quark);
1271 void CORE_zsymm_quark(Quark *quark);
1272 void CORE_zsyrk_quark(Quark *quark);
1273 void CORE_zsyr2k_quark(Quark *quark);
1274 void CORE_zsyssq_quark(Quark *quark);
1275 void CORE_zsyssq_f1_quark(Quark *quark);
1276 void CORE_zswpab_quark(Quark *quark);
1277 void CORE_zswptr_ontile_quark(Quark *quark);
1278 void CORE_ztrdalg1_quark(Quark *quark);
1279 void CORE_ztrmm_quark(Quark *quark);
1280 void CORE_ztrsm_quark(Quark *quark);
1281 void CORE_ztrtri_quark(Quark *quark);
1282 void CORE_ztslqt_quark(Quark *quark);
1283 void CORE_ztsmlq_quark(Quark *quark);
1284 void CORE_ztsmlq_hetra1_quark(Quark *quark);
1285 void CORE_ztsmlq_corner_quark(Quark *quark);
1286 void CORE_ztsmqr_quark(Quark *quark);
1287 void CORE_ztsmqr_hetra1_quark(Quark *quark);
1288 void CORE_ztsmqr_corner_quark(Quark *quark);
1289 void CORE_ztsqrt_quark(Quark *quark);
1290 void CORE_ztstrf_quark(Quark *quark);
1291 void CORE_zttmqr_quark(Quark *quark);
1292 void CORE_zttqrt_quark(Quark *quark);
1293 void CORE_zttmlq_quark(Quark *quark);
1294 void CORE_zttlqt_quark(Quark *quark);
1295 void CORE_zunmlq_quark(Quark *quark);
1296 void CORE_zunmqr_quark(Quark *quark);
1297 void CORE_zlaswp_quark(Quark* quark);
1298 void CORE_zlaswp_f2_quark(Quark* quark);
1299 void CORE_zlaswp_ontile_quark(Quark *quark);
1300 void CORE_zlaswp_ontile_f2_quark(Quark *quark);
1301 void CORE_zlaswpc_ontile_quark(Quark *quark);
1302 void CORE_ztrmm_p2_quark(Quark* quark);
1303 void CORE_zgemm_f2_quark(Quark* quark);
1304 void CORE_zgemm_p2_quark(Quark* quark);
1305 void CORE_zgemm_p2f1_quark(Quark* quark);
1306 void CORE_zgemm_p3_quark(Quark* quark);
1307 
1308 #endif /* defined(QUARK_H) */
1309 
1310 #ifdef __cplusplus
1311 }
1312 #endif
1313 
1314 #undef COMPLEX
1315 
1316 #endif
int CORE_ztsmlq(PLASMA_enum side, PLASMA_enum trans, int M1, int N1, int M2, int N2, int K, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_ztsmlq.c:124
void CORE_zlaset(PLASMA_enum uplo, int n1, int n2, PLASMA_Complex64_t alpha, PLASMA_Complex64_t beta, PLASMA_Complex64_t *tileA, int ldtilea)
Definition: core_zlaset.c:57
void CORE_zsymm(PLASMA_enum side, PLASMA_enum uplo, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *B, int LDB, PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zsymm.c:88
void CORE_zlantr(PLASMA_enum norm, PLASMA_enum uplo, PLASMA_enum diag, int M, int N, const PLASMA_Complex64_t *A, int LDA, double *work, double *normA)
Definition: core_zlantr.c:86
int CORE_zlaswp_ontile(PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc)
Definition: core_zlaswp.c:107
int CORE_zgetrf(int M, int N, PLASMA_Complex64_t *A, int LDA, int *IPIV, int *INFO)
Definition: core_zgetrf.c:60
int CORE_zlarfx2ce(PLASMA_enum uplo, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *C1, PLASMA_Complex64_t *C2, PLASMA_Complex64_t *C3)
Definition: core_zlarfx_tbrd.c:323
int CORE_ztsmlq_hetra1(PLASMA_enum side, PLASMA_enum trans, int m1, int n1, int m2, int n2, int k, int ib, PLASMA_Complex64_t *A1, int lda1, PLASMA_Complex64_t *A2, int lda2, const PLASMA_Complex64_t *V, int ldv, const PLASMA_Complex64_t *T, int ldt, PLASMA_Complex64_t *WORK, int ldwork)
Definition: core_ztsmlq_hetra1.c:125
void CORE_zpltmg_toeppd1(int gM, int m0, int M, PLASMA_Complex64_t *W, unsigned long long int seed)
Definition: core_zpltmg_toeppd.c:70
int CORE_zgbelr(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zgbelr.c:81
int CORE_zunmlq(PLASMA_enum side, PLASMA_enum trans, int M, int N, int IB, int K, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *C, int LDC, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zunmlq.c:108
void CORE_zlauum(PLASMA_enum uplo, int N, PLASMA_Complex64_t *A, int LDA)
Definition: core_zlauum.c:57
int CORE_zhbelr(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zhbelr.c:80
int CORE_zgetrf_nopiv(int m, int n, int ib, PLASMA_Complex64_t *A, int lda)
Definition: core_zgetrf_nopiv.c:69
void CORE_dlaed3_computevectors(int K, int il_nondef, int iu_nondef, double *Q, int LDQ, double *W, double *S, const int *INDXC, int start, int end)
Definition: core_dlaed3_computevectors.c:74
void CORE_zgbtype1cb(PLASMA_enum uplo, int N, int NB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ, PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zgbtype1cb.c:124
int CORE_zlacpy_pivot(const PLASMA_desc descA, PLASMA_enum direct, int k1, int k2, const int *ipiv, int *rankin, int *rankout, PLASMA_Complex64_t *A, int lda, int init)
Definition: core_zlacpy_pivot.c:84
void CORE_zbrdalg1(PLASMA_enum uplo, int n, int nb, PLASMA_Complex64_t *A, int lda, PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ, PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP, int Vblksiz, int wantz, int i, int sweepid, int m, int grsiz, PLASMA_Complex64_t *work)
Definition: core_zbrdalg1.c:111
int CORE_zpltmg_hankel(PLASMA_enum uplo, int M, int N, PLASMA_Complex64_t *A, int LDA, int m0, int n0, int nb, const PLASMA_Complex64_t *V1, const PLASMA_Complex64_t *V2)
Definition: core_zpltmg_hankel.c:88
int CORE_ztsmlq_corner(int m1, int n1, int m2, int n2, int m3, int n3, int k, int ib, int nb, PLASMA_Complex64_t *A1, int lda1, PLASMA_Complex64_t *A2, int lda2, PLASMA_Complex64_t *A3, int lda3, const PLASMA_Complex64_t *V, int ldv, const PLASMA_Complex64_t *T, int ldt, PLASMA_Complex64_t *WORK, int ldwork)
Definition: core_ztsmlq_corner.c:130
void CORE_dlaed2_copydef(int n, int n1, int K, const int *ctot, double *Q, int LDQ, const double *Q2, int start, int end)
Definition: core_dlaed2_compressq.c:180
int CORE_zgeadd(PLASMA_enum trans, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t beta, PLASMA_Complex64_t *B, int LDB)
Definition: core_zgeadd.c:75
void CORE_zgbtype2cb(PLASMA_enum uplo, int N, int NB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ, PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zgbtype2cb.c:129
void CORE_dlaed2_compressq(int n, int n1, const int *INDX, const int *ctot, const double *Q, int LDQ, double *Q2, int start, int end)
Definition: core_dlaed2_compressq.c:85
int CORE_ztradd(PLASMA_enum uplo, PLASMA_enum trans, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t beta, PLASMA_Complex64_t *B, int LDB)
Definition: core_ztradd.c:86
int CORE_zgetf2_nopiv(int m, int n, PLASMA_Complex64_t *A, int lda)
Definition: core_zgetf2_nopiv.c:64
int CORE_zgbrce(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zgbrce.c:78
int CORE_zpltmg(PLASMA_enum mtxtype, int m, int n, PLASMA_Complex64_t *A, int lda, int gM, int gN, int m0, int n0, unsigned long long int seed)
Definition: core_zpltmg.c:90
void CORE_zhbtype3cb(int N, int NB, PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *V, const PLASMA_Complex64_t *TAU, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zhbtype3cb.c:101
int CORE_zlarfb_gemm(PLASMA_enum side, PLASMA_enum trans, PLASMA_enum direct, PLASMA_enum storev, int M, int N, int K, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *C, int LDC, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zlarfb_gemm.c:113
int CORE_ztsmqr_corner(int m1, int n1, int m2, int n2, int m3, int n3, int k, int ib, int nb, PLASMA_Complex64_t *A1, int lda1, PLASMA_Complex64_t *A2, int lda2, PLASMA_Complex64_t *A3, int lda3, const PLASMA_Complex64_t *V, int ldv, const PLASMA_Complex64_t *T, int ldt, PLASMA_Complex64_t *WORK, int ldwork)
Definition: core_ztsmqr_corner.c:130
void CORE_zherk(PLASMA_enum uplo, PLASMA_enum trans, int N, int K, double alpha, const PLASMA_Complex64_t *A, int LDA, double beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zherk.c:84
int CORE_ztslqt(int M, int N, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_ztslqt.c:107
int CORE_zgessm(int M, int N, int K, int IB, const int *IPIV, const PLASMA_Complex64_t *L, int LDL, PLASMA_Complex64_t *A, int LDA)
Definition: core_zgessm.c:70
int CORE_zhblrx(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zhblrx.c:78
void CORE_zgeqp3_update(const PLASMA_Complex64_t *Ajj, int lda1, PLASMA_Complex64_t *Ajk, int lda2, const PLASMA_Complex64_t *Fk, int ldf, int joff, int k, int koff, int nb, double *norms1, double *norms2, int *info)
Definition: core_zgeqp3_update.c:82
int CORE_zunmqr(PLASMA_enum side, PLASMA_enum trans, int M, int N, int K, int IB, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *C, int LDC, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zunmqr.c:108
void CORE_dlaed3_updatevectors(int op, int wsmode, int n, int n1, int K, int il_nondef, int iu_nondef, double *Q, int ldq, double *Q2, const int *ctot, double *W, int start, int end)
Definition: core_dlaed3_updatevectors.c:95
void CORE_zplgsy(PLASMA_Complex64_t bump, int m, int n, PLASMA_Complex64_t *A, int lda, int bigM, int m0, int n0, unsigned long long int seed)
Definition: core_zplgsy.c:72
void CORE_zlacpy(PLASMA_enum uplo, int M, int N, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *B, int LDB)
Definition: core_zlacpy.c:59
void CORE_zsyr2k(PLASMA_enum uplo, PLASMA_enum trans, int N, int K, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *B, int LDB, PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zsyr2k.c:90
void CORE_zlansy(int norm, PLASMA_enum uplo, int N, const PLASMA_Complex64_t *A, int LDA, double *work, double *normA)
Definition: core_zlansy.c:74
int CORE_zherfb(PLASMA_enum uplo, int N, int K, int IB, int NB, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *C, int LDC, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zherfb.c:110
void CORE_zplghe(double bump, int m, int n, PLASMA_Complex64_t *A, int lda, int bigM, int m0, int n0, unsigned long long int seed)
Definition: core_zplghe.c:72
void CORE_zlaset2(PLASMA_enum uplo, int n1, int n2, PLASMA_Complex64_t alpha, PLASMA_Complex64_t *tileA, int ldtilea)
Definition: core_zlaset2.c:55
void CORE_zswpab(int i, int n1, int n2, PLASMA_Complex64_t *A, PLASMA_Complex64_t *work)
Definition: core_zswpab.c:63
int CORE_zpltmg_circul(int M, int N, PLASMA_Complex64_t *A, int LDA, int gM, int m0, int n0, const PLASMA_Complex64_t *V)
Definition: core_zpltmg_circul.c:76
void CORE_zsyrk(PLASMA_enum uplo, PLASMA_enum trans, int N, int K, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zsyrk.c:80
void CORE_ztrdalg1(int n, int nb, PLASMA_Complex64_t *A, int lda, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int Vblksiz, int wantz, int i, int sweepid, int m, int grsiz, PLASMA_Complex64_t *work)
Definition: core_ztrdalg1.c:91
int CORE_zgetrf_incpiv(int M, int N, int IB, PLASMA_Complex64_t *A, int LDA, int *IPIV, int *INFO)
Definition: core_zgetrf_incpiv.c:83
int CORE_zlarfx2c(PLASMA_enum uplo, PLASMA_Complex64_t V, PLASMA_Complex64_t TAU, PLASMA_Complex64_t *C1, PLASMA_Complex64_t *C2, PLASMA_Complex64_t *C3)
Definition: core_zlarfx_tbrd.c:177
void CORE_dzasum(int storev, PLASMA_enum uplo, int M, int N, const PLASMA_Complex64_t *A, int lda, double *work)
Definition: core_dzasum.c:61
void CORE_zlanhe(int norm, PLASMA_enum uplo, int N, const PLASMA_Complex64_t *A, int LDA, double *work, double *normA)
Definition: core_zlanhe.c:74
void CORE_zgbtype3cb(PLASMA_enum uplo, int N, int NB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *VQ, PLASMA_Complex64_t *TAUQ, PLASMA_Complex64_t *VP, PLASMA_Complex64_t *TAUP, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zgbtype3cb.c:124
int CORE_ztstrf(int M, int N, int IB, int NB, PLASMA_Complex64_t *U, int LDU, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *L, int LDL, int *IPIV, PLASMA_Complex64_t *WORK, int LDWORK, int *INFO)
Definition: core_ztstrf.c:99
void CORE_zsetvar(const PLASMA_Complex64_t *alpha, PLASMA_Complex64_t *x)
Definition: core_zsetvar.c:37
void CORE_zgeqp3_norms(PLASMA_desc A, int ioff, int joff, double *norms1, double *norms2)
Definition: core_zgeqp3_norms.c:62
Definition: plasma.h:34
Definition: core_zgetrf_reclap.c:24
void CORE_zgeqp3_larfg(PLASMA_desc A, int ii, int jj, int i, int j, PLASMA_Complex64_t *tau, PLASMA_Complex64_t *beta)
Definition: core_zgeqp3_larfg.c:78
void CORE_zlaswp(int N, PLASMA_Complex64_t *A, int LDA, int I1, int I2, const int *IPIV, int INC)
Definition: core_zlaswp.c:62
int CORE_zpemv(PLASMA_enum trans, PLASMA_enum storev, int M, int N, int L, PLASMA_Complex64_t ALPHA, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *X, int INCX, PLASMA_Complex64_t BETA, PLASMA_Complex64_t *Y, int INCY, PLASMA_Complex64_t *WORK)
Definition: core_zpemv.c:118
int CORE_zsteqr(PLASMA_enum compz, int n, double *D, double *E, PLASMA_Complex64_t *Z, int LDZ, double *WORK)
Definition: core_zsteqr.c:66
void CORE_zlarfy(int N, PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *V, const PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_zlarfy.c:61
int CORE_zgblrx(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zgblrx.c:80
int CORE_zttlqt(int M, int N, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_zttlqt.c:116
int CORE_ztsmqr(PLASMA_enum side, PLASMA_enum trans, int M1, int N1, int M2, int N2, int K, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_ztsmqr.c:124
int CORE_zssssm(int M1, int N1, int M2, int N2, int K, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *L1, int LDL1, const PLASMA_Complex64_t *L2, int LDL2, const int *IPIV)
Definition: core_zssssm.c:94
void CORE_ztrasm(PLASMA_enum storev, PLASMA_enum uplo, PLASMA_enum diag, int M, int N, const PLASMA_Complex64_t *A, int lda, double *work)
Definition: core_ztrasm.c:66
int CORE_zlascal(PLASMA_enum uplo, int m, int n, PLASMA_Complex64_t alpha, PLASMA_Complex64_t *A, int lda)
Definition: core_zlascal.c:52
void CORE_zpltmg_toeppd2(int M, int N, int K, int m0, int n0, const PLASMA_Complex64_t *W, PLASMA_Complex64_t *A, int LDA)
Definition: core_zpltmg_toeppd.c:149
int CORE_zparfb(PLASMA_enum side, PLASMA_enum trans, PLASMA_enum direct, PLASMA_enum storev, int M1, int N1, int M2, int N2, int K, int L, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zparfb.c:132
void CORE_dlaed2_computeK(int *Kptr, int n, int n1, double *betaptr, double *D, double *Q, int LDQ, double *Z, double *DLAMBDA, double *W, int *INDX, int *INDXC, int *INDXP, int *INDXQ, int *COLTYP)
Definition: core_dlaed2_computeK.c:104
void CORE_zswap(int m, int n, PLASMA_Complex64_t *Q, int ldq, const PLASMA_Complex64_t *work, const int *perm, int start, int end)
Definition: core_zswap.c:67
void CORE_zpotrf(PLASMA_enum uplo, int N, PLASMA_Complex64_t *A, int LDA, int *INFO)
Definition: core_zpotrf.c:68
void CORE_dlaed3_merge(int n, int K, double *D, int *INDXQ)
Definition: core_dlaed3_merge.c:46
int CORE_ztsqrt(int M, int N, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_ztsqrt.c:97
int CORE_zpltmg_chebvand(int M, int N, PLASMA_Complex64_t *A, int LDA, int gN, int m0, int n0, PLASMA_Complex64_t *W)
Definition: core_zpltmg_chebvand.c:83
int CORE_zhbrce(PLASMA_enum uplo, int N, PLASMA_desc *A, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int eltsize)
Definition: core_zhbrce.c:78
int CORE_zttmqr(PLASMA_enum side, PLASMA_enum trans, int M1, int N1, int M2, int N2, int K, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zttmqr.c:116
void CORE_dlaed3_reduceW(int n, int n1, int K, int l, const double *Q, int LDQ, const double *Wred, double *W)
Definition: core_dlaed3_reduceW.c:60
int CORE_zttmlq(PLASMA_enum side, PLASMA_enum trans, int M1, int N1, int M2, int N2, int K, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, const PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *WORK, int LDWORK)
Definition: core_zttmlq.c:116
int CORE_dlaed4(int n, int K, double *D, double beta, double *Q, int LDQ, const double *D0, const double *Z, const int *INDX, int start, int end)
Definition: core_dlaed4.c:75
void CORE_ztrmm(PLASMA_enum side, PLASMA_enum uplo, PLASMA_enum transA, PLASMA_enum diag, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *B, int LDB)
Definition: core_ztrmm.c:84
int CORE_zstedc(PLASMA_enum compz, int n, double *D, double *E, PLASMA_Complex64_t *Z, int LDZ, PLASMA_Complex64_t *WORK, int LWORK, double *RWORK, int LRWORK, int *IWORK, int LIWORK)
Definition: core_zstedc.c:85
void CORE_zhegst(int itype, PLASMA_enum uplo, int N, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *B, int LDB, int *INFO)
Definition: core_zhegst.c:80
void CORE_dlaed0_betaapprox(int subpbs, const int *subpbs_info, double *D, const double *E)
Definition: core_dlaed0_betaapprox.c:49
Definition: plasma.h:24
int CORE_zgelqt(int M, int N, int IB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_zgelqt.c:85
int CORE_dlag2z(int m, int n, const double *Q, int LDQ, PLASMA_Complex64_t *Z, int LDZ)
Definition: core_dlag2z.c:58
int CORE_zlascl(PLASMA_enum type, int kl, int ku, double cfrom, double cto, int m, int n, PLASMA_Complex64_t *A, int lda)
Definition: core_zlascl.c:77
void CORE_zhemm(PLASMA_enum side, PLASMA_enum uplo, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *B, int LDB, PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zhemm.c:91
void CORE_ztrsm(PLASMA_enum side, PLASMA_enum uplo, PLASMA_enum transA, PLASMA_enum diag, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *B, int LDB)
Definition: core_ztrsm.c:80
int CORE_zlarfx2(PLASMA_enum side, int N, PLASMA_Complex64_t V, PLASMA_Complex64_t TAU, PLASMA_Complex64_t *C1, int LDC1, PLASMA_Complex64_t *C2, int LDC2)
Definition: core_zlarfx_tbrd.c:82
void CORE_zgeqp3_pivot(PLASMA_desc A, PLASMA_Complex64_t *F, int ldf, int jj, int k, int *jpvt, double *norms1, double *norms2, int *info)
Definition: core_zgeqp3_pivot.c:68
void CORE_zgeqp3_init(int n, int *jpvt)
Definition: core_zgeqp3_init.c:38
int CORE_zgeqrt(int M, int N, int IB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_zgeqrt.c:86
int CORE_zpamm(int op, PLASMA_enum side, PLASMA_enum storev, int M, int N, int K, int L, const PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, const PLASMA_Complex64_t *V, int LDV, PLASMA_Complex64_t *W, int LDW)
Definition: core_zpamm.c:175
void CORE_dlaed3_computeW(int n, int K, const double *Q, int LDQ, const double *DLAMBDA, double *W, const int *INDX, int start, int end)
Definition: core_dlaed3_computeW.c:66
void CORE_zplrnt(int m, int n, PLASMA_Complex64_t *A, int lda, int bigM, int m0, int n0, unsigned long long int seed)
Definition: core_zplrnt.c:68
void CORE_zgemv(PLASMA_enum trans, int M, int N, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *x, int incx, PLASMA_Complex64_t beta, PLASMA_Complex64_t *y, int incy)
Definition: core_zgemv.c:78
int CORE_zttqrt(int M, int N, int IB, PLASMA_Complex64_t *A1, int LDA1, PLASMA_Complex64_t *A2, int LDA2, PLASMA_Complex64_t *T, int LDT, PLASMA_Complex64_t *TAU, PLASMA_Complex64_t *WORK)
Definition: core_zttqrt.c:116
Definition: descriptor.h:41
int CORE_zswptr_ontile(PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc, const PLASMA_Complex64_t *Akk, int ldak)
Definition: core_zlaswp.c:224
void CORE_zlange(int norm, int M, int N, const PLASMA_Complex64_t *A, int LDA, double *work, double *normA)
Definition: core_zlange.c:72
void CORE_zgetrip(int m, int n, PLASMA_Complex64_t *A, PLASMA_Complex64_t *work)
Definition: core_zgetrip.c:51
void CORE_zhbtype2cb(int N, int NB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zhbtype2cb.c:104
void CORE_zher2k(PLASMA_enum uplo, PLASMA_enum trans, int N, int K, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *B, int LDB, double beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zher2k.c:93
void CORE_zhbtype1cb(int N, int NB, PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *V, PLASMA_Complex64_t *TAU, int st, int ed, int sweep, int Vblksiz, int WANTZ, PLASMA_Complex64_t *WORK)
Definition: core_zhbtype1cb.c:100
int CORE_zlaswpc_ontile(PLASMA_desc descA, int i1, int i2, const int *ipiv, int inc)
Definition: core_zlaswp.c:296
int CORE_zgetrf_reclap(CORE_zgetrf_data_t *data, int M, int N, PLASMA_Complex64_t *A, int LDA, int *IPIV, int *info)
Definition: core_zgetrf_reclap.c:123
void CORE_zshiftw(int s, int cl, int m, int n, int L, PLASMA_Complex64_t *A, PLASMA_Complex64_t *W)
Definition: core_zshift.c:66
void CORE_ztrtri(PLASMA_enum uplo, PLASMA_enum diag, int N, PLASMA_Complex64_t *A, int LDA, int *info)
Definition: core_ztrtri.c:66
void CORE_zpltmg_condexq(int M, int N, PLASMA_Complex64_t *Q, int LDQ)
Definition: core_zpltmg_condex.c:53
void CORE_zgemm(PLASMA_enum transA, PLASMA_enum transB, int M, int N, int K, PLASMA_Complex64_t alpha, const PLASMA_Complex64_t *A, int LDA, const PLASMA_Complex64_t *B, int LDB, PLASMA_Complex64_t beta, PLASMA_Complex64_t *C, int LDC)
Definition: core_zgemm.c:90
void CORE_zpltmg_fiedler(int m, int n, const PLASMA_Complex64_t *X, int incX, const PLASMA_Complex64_t *Y, int incY, PLASMA_Complex64_t *A, int lda)
Definition: core_zpltmg_fiedler.c:75
int CORE_zlatro(PLASMA_enum uplo, PLASMA_enum trans, int M, int N, const PLASMA_Complex64_t *A, int LDA, PLASMA_Complex64_t *B, int LDB)
Definition: core_zlatro.c:80
int CORE_zgetrf_rectil(CORE_zgetrf_data_t *data, const PLASMA_desc A, int *IPIV, int *info)
Definition: core_zgetrf_rectil.c:120
int CORE_ztsmqr_hetra1(PLASMA_enum side, PLASMA_enum trans, int m1, int n1, int m2, int n2, int k, int ib, PLASMA_Complex64_t *A1, int lda1, PLASMA_Complex64_t *A2, int lda2, const PLASMA_Complex64_t *V, int ldv, const PLASMA_Complex64_t *T, int ldt, PLASMA_Complex64_t *WORK, int ldwork)
Definition: core_ztsmqr_hetra1.c:127