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wilson_dslash_dagger_gt200_core.h
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1 // *** CUDA DSLASH DAGGER ***
2 
3 #define DSLASH_SHARED_FLOATS_PER_THREAD 0
4 
5 
6 #if ((CUDA_VERSION >= 4010) && (__COMPUTE_CAPABILITY__ >= 200)) // NVVM compiler
7 #define VOLATILE
8 #else // Open64 compiler
9 #define VOLATILE volatile
10 #endif
11 // input spinor
12 #ifdef SPINOR_DOUBLE
13 #define spinorFloat double
14 #define i00_re I0.x
15 #define i00_im I0.y
16 #define i01_re I1.x
17 #define i01_im I1.y
18 #define i02_re I2.x
19 #define i02_im I2.y
20 #define i10_re I3.x
21 #define i10_im I3.y
22 #define i11_re I4.x
23 #define i11_im I4.y
24 #define i12_re I5.x
25 #define i12_im I5.y
26 #define i20_re I6.x
27 #define i20_im I6.y
28 #define i21_re I7.x
29 #define i21_im I7.y
30 #define i22_re I8.x
31 #define i22_im I8.y
32 #define i30_re I9.x
33 #define i30_im I9.y
34 #define i31_re I10.x
35 #define i31_im I10.y
36 #define i32_re I11.x
37 #define i32_im I11.y
38 #define acc00_re accum0.x
39 #define acc00_im accum0.y
40 #define acc01_re accum1.x
41 #define acc01_im accum1.y
42 #define acc02_re accum2.x
43 #define acc02_im accum2.y
44 #define acc10_re accum3.x
45 #define acc10_im accum3.y
46 #define acc11_re accum4.x
47 #define acc11_im accum4.y
48 #define acc12_re accum5.x
49 #define acc12_im accum5.y
50 #define acc20_re accum6.x
51 #define acc20_im accum6.y
52 #define acc21_re accum7.x
53 #define acc21_im accum7.y
54 #define acc22_re accum8.x
55 #define acc22_im accum8.y
56 #define acc30_re accum9.x
57 #define acc30_im accum9.y
58 #define acc31_re accum10.x
59 #define acc31_im accum10.y
60 #define acc32_re accum11.x
61 #define acc32_im accum11.y
62 #else
63 #define spinorFloat float
64 #define i00_re I0.x
65 #define i00_im I0.y
66 #define i01_re I0.z
67 #define i01_im I0.w
68 #define i02_re I1.x
69 #define i02_im I1.y
70 #define i10_re I1.z
71 #define i10_im I1.w
72 #define i11_re I2.x
73 #define i11_im I2.y
74 #define i12_re I2.z
75 #define i12_im I2.w
76 #define i20_re I3.x
77 #define i20_im I3.y
78 #define i21_re I3.z
79 #define i21_im I3.w
80 #define i22_re I4.x
81 #define i22_im I4.y
82 #define i30_re I4.z
83 #define i30_im I4.w
84 #define i31_re I5.x
85 #define i31_im I5.y
86 #define i32_re I5.z
87 #define i32_im I5.w
88 #define acc00_re accum0.x
89 #define acc00_im accum0.y
90 #define acc01_re accum0.z
91 #define acc01_im accum0.w
92 #define acc02_re accum1.x
93 #define acc02_im accum1.y
94 #define acc10_re accum1.z
95 #define acc10_im accum1.w
96 #define acc11_re accum2.x
97 #define acc11_im accum2.y
98 #define acc12_re accum2.z
99 #define acc12_im accum2.w
100 #define acc20_re accum3.x
101 #define acc20_im accum3.y
102 #define acc21_re accum3.z
103 #define acc21_im accum3.w
104 #define acc22_re accum4.x
105 #define acc22_im accum4.y
106 #define acc30_re accum4.z
107 #define acc30_im accum4.w
108 #define acc31_re accum5.x
109 #define acc31_im accum5.y
110 #define acc32_re accum5.z
111 #define acc32_im accum5.w
112 #endif // SPINOR_DOUBLE
113 
114 // gauge link
115 #ifdef GAUGE_FLOAT2
116 #define g00_re G0.x
117 #define g00_im G0.y
118 #define g01_re G1.x
119 #define g01_im G1.y
120 #define g02_re G2.x
121 #define g02_im G2.y
122 #define g10_re G3.x
123 #define g10_im G3.y
124 #define g11_re G4.x
125 #define g11_im G4.y
126 #define g12_re G5.x
127 #define g12_im G5.y
128 #define g20_re G6.x
129 #define g20_im G6.y
130 #define g21_re G7.x
131 #define g21_im G7.y
132 #define g22_re G8.x
133 #define g22_im G8.y
134 
135 #else
136 #define g00_re G0.x
137 #define g00_im G0.y
138 #define g01_re G0.z
139 #define g01_im G0.w
140 #define g02_re G1.x
141 #define g02_im G1.y
142 #define g10_re G1.z
143 #define g10_im G1.w
144 #define g11_re G2.x
145 #define g11_im G2.y
146 #define g12_re G2.z
147 #define g12_im G2.w
148 #define g20_re G3.x
149 #define g20_im G3.y
150 #define g21_re G3.z
151 #define g21_im G3.w
152 #define g22_re G4.x
153 #define g22_im G4.y
154 
155 #endif // GAUGE_DOUBLE
156 
157 // conjugated gauge link
158 #define gT00_re (+g00_re)
159 #define gT00_im (-g00_im)
160 #define gT01_re (+g10_re)
161 #define gT01_im (-g10_im)
162 #define gT02_re (+g20_re)
163 #define gT02_im (-g20_im)
164 #define gT10_re (+g01_re)
165 #define gT10_im (-g01_im)
166 #define gT11_re (+g11_re)
167 #define gT11_im (-g11_im)
168 #define gT12_re (+g21_re)
169 #define gT12_im (-g21_im)
170 #define gT20_re (+g02_re)
171 #define gT20_im (-g02_im)
172 #define gT21_re (+g12_re)
173 #define gT21_im (-g12_im)
174 #define gT22_re (+g22_re)
175 #define gT22_im (-g22_im)
176 
177 // first chiral block of inverted clover term
178 #ifdef CLOVER_DOUBLE
179 #define c00_00_re C0.x
180 #define c01_01_re C0.y
181 #define c02_02_re C1.x
182 #define c10_10_re C1.y
183 #define c11_11_re C2.x
184 #define c12_12_re C2.y
185 #define c01_00_re C3.x
186 #define c01_00_im C3.y
187 #define c02_00_re C4.x
188 #define c02_00_im C4.y
189 #define c10_00_re C5.x
190 #define c10_00_im C5.y
191 #define c11_00_re C6.x
192 #define c11_00_im C6.y
193 #define c12_00_re C7.x
194 #define c12_00_im C7.y
195 #define c02_01_re C8.x
196 #define c02_01_im C8.y
197 #define c10_01_re C9.x
198 #define c10_01_im C9.y
199 #define c11_01_re C10.x
200 #define c11_01_im C10.y
201 #define c12_01_re C11.x
202 #define c12_01_im C11.y
203 #define c10_02_re C12.x
204 #define c10_02_im C12.y
205 #define c11_02_re C13.x
206 #define c11_02_im C13.y
207 #define c12_02_re C14.x
208 #define c12_02_im C14.y
209 #define c11_10_re C15.x
210 #define c11_10_im C15.y
211 #define c12_10_re C16.x
212 #define c12_10_im C16.y
213 #define c12_11_re C17.x
214 #define c12_11_im C17.y
215 #else
216 #define c00_00_re C0.x
217 #define c01_01_re C0.y
218 #define c02_02_re C0.z
219 #define c10_10_re C0.w
220 #define c11_11_re C1.x
221 #define c12_12_re C1.y
222 #define c01_00_re C1.z
223 #define c01_00_im C1.w
224 #define c02_00_re C2.x
225 #define c02_00_im C2.y
226 #define c10_00_re C2.z
227 #define c10_00_im C2.w
228 #define c11_00_re C3.x
229 #define c11_00_im C3.y
230 #define c12_00_re C3.z
231 #define c12_00_im C3.w
232 #define c02_01_re C4.x
233 #define c02_01_im C4.y
234 #define c10_01_re C4.z
235 #define c10_01_im C4.w
236 #define c11_01_re C5.x
237 #define c11_01_im C5.y
238 #define c12_01_re C5.z
239 #define c12_01_im C5.w
240 #define c10_02_re C6.x
241 #define c10_02_im C6.y
242 #define c11_02_re C6.z
243 #define c11_02_im C6.w
244 #define c12_02_re C7.x
245 #define c12_02_im C7.y
246 #define c11_10_re C7.z
247 #define c11_10_im C7.w
248 #define c12_10_re C8.x
249 #define c12_10_im C8.y
250 #define c12_11_re C8.z
251 #define c12_11_im C8.w
252 #endif // CLOVER_DOUBLE
253 
254 #define c00_01_re (+c01_00_re)
255 #define c00_01_im (-c01_00_im)
256 #define c00_02_re (+c02_00_re)
257 #define c00_02_im (-c02_00_im)
258 #define c01_02_re (+c02_01_re)
259 #define c01_02_im (-c02_01_im)
260 #define c00_10_re (+c10_00_re)
261 #define c00_10_im (-c10_00_im)
262 #define c01_10_re (+c10_01_re)
263 #define c01_10_im (-c10_01_im)
264 #define c02_10_re (+c10_02_re)
265 #define c02_10_im (-c10_02_im)
266 #define c00_11_re (+c11_00_re)
267 #define c00_11_im (-c11_00_im)
268 #define c01_11_re (+c11_01_re)
269 #define c01_11_im (-c11_01_im)
270 #define c02_11_re (+c11_02_re)
271 #define c02_11_im (-c11_02_im)
272 #define c10_11_re (+c11_10_re)
273 #define c10_11_im (-c11_10_im)
274 #define c00_12_re (+c12_00_re)
275 #define c00_12_im (-c12_00_im)
276 #define c01_12_re (+c12_01_re)
277 #define c01_12_im (-c12_01_im)
278 #define c02_12_re (+c12_02_re)
279 #define c02_12_im (-c12_02_im)
280 #define c10_12_re (+c12_10_re)
281 #define c10_12_im (-c12_10_im)
282 #define c11_12_re (+c12_11_re)
283 #define c11_12_im (-c12_11_im)
284 
285 // second chiral block of inverted clover term (reuses C0,...,C9)
286 #define c20_20_re c00_00_re
287 #define c21_20_re c01_00_re
288 #define c21_20_im c01_00_im
289 #define c22_20_re c02_00_re
290 #define c22_20_im c02_00_im
291 #define c30_20_re c10_00_re
292 #define c30_20_im c10_00_im
293 #define c31_20_re c11_00_re
294 #define c31_20_im c11_00_im
295 #define c32_20_re c12_00_re
296 #define c32_20_im c12_00_im
297 #define c20_21_re c00_01_re
298 #define c20_21_im c00_01_im
299 #define c21_21_re c01_01_re
300 #define c22_21_re c02_01_re
301 #define c22_21_im c02_01_im
302 #define c30_21_re c10_01_re
303 #define c30_21_im c10_01_im
304 #define c31_21_re c11_01_re
305 #define c31_21_im c11_01_im
306 #define c32_21_re c12_01_re
307 #define c32_21_im c12_01_im
308 #define c20_22_re c00_02_re
309 #define c20_22_im c00_02_im
310 #define c21_22_re c01_02_re
311 #define c21_22_im c01_02_im
312 #define c22_22_re c02_02_re
313 #define c30_22_re c10_02_re
314 #define c30_22_im c10_02_im
315 #define c31_22_re c11_02_re
316 #define c31_22_im c11_02_im
317 #define c32_22_re c12_02_re
318 #define c32_22_im c12_02_im
319 #define c20_30_re c00_10_re
320 #define c20_30_im c00_10_im
321 #define c21_30_re c01_10_re
322 #define c21_30_im c01_10_im
323 #define c22_30_re c02_10_re
324 #define c22_30_im c02_10_im
325 #define c30_30_re c10_10_re
326 #define c31_30_re c11_10_re
327 #define c31_30_im c11_10_im
328 #define c32_30_re c12_10_re
329 #define c32_30_im c12_10_im
330 #define c20_31_re c00_11_re
331 #define c20_31_im c00_11_im
332 #define c21_31_re c01_11_re
333 #define c21_31_im c01_11_im
334 #define c22_31_re c02_11_re
335 #define c22_31_im c02_11_im
336 #define c30_31_re c10_11_re
337 #define c30_31_im c10_11_im
338 #define c31_31_re c11_11_re
339 #define c32_31_re c12_11_re
340 #define c32_31_im c12_11_im
341 #define c20_32_re c00_12_re
342 #define c20_32_im c00_12_im
343 #define c21_32_re c01_12_re
344 #define c21_32_im c01_12_im
345 #define c22_32_re c02_12_re
346 #define c22_32_im c02_12_im
347 #define c30_32_re c10_12_re
348 #define c30_32_im c10_12_im
349 #define c31_32_re c11_12_re
350 #define c31_32_im c11_12_im
351 #define c32_32_re c12_12_re
352 
353 // output spinor
354 VOLATILE spinorFloat o00_re;
355 VOLATILE spinorFloat o00_im;
356 VOLATILE spinorFloat o01_re;
357 VOLATILE spinorFloat o01_im;
358 VOLATILE spinorFloat o02_re;
359 VOLATILE spinorFloat o02_im;
360 VOLATILE spinorFloat o10_re;
361 VOLATILE spinorFloat o10_im;
362 VOLATILE spinorFloat o11_re;
363 VOLATILE spinorFloat o11_im;
364 VOLATILE spinorFloat o12_re;
365 VOLATILE spinorFloat o12_im;
366 VOLATILE spinorFloat o20_re;
367 VOLATILE spinorFloat o20_im;
368 VOLATILE spinorFloat o21_re;
369 VOLATILE spinorFloat o21_im;
370 VOLATILE spinorFloat o22_re;
371 VOLATILE spinorFloat o22_im;
372 VOLATILE spinorFloat o30_re;
373 VOLATILE spinorFloat o30_im;
374 VOLATILE spinorFloat o31_re;
375 VOLATILE spinorFloat o31_im;
376 VOLATILE spinorFloat o32_re;
377 VOLATILE spinorFloat o32_im;
378 
379 #include "read_gauge.h"
380 #include "read_clover.h"
381 #include "io_spinor.h"
382 
383 int x1, x2, x3, x4;
384 int X;
385 
386 #if (defined MULTI_GPU) && (DD_PREC==2) // half precision
387 int sp_norm_idx;
388 #endif // MULTI_GPU half precision
389 
390 int sid;
391 
392 #ifdef MULTI_GPU
393 int face_idx;
394 if (kernel_type == INTERIOR_KERNEL) {
395 #endif
396 
397  sid = blockIdx.x*blockDim.x + threadIdx.x;
398  if (sid >= param.threads) return;
399 
400  // Inline by hand for the moment and assume even dimensions
401  coordsFromIndex<EVEN_X>(X, x1, x2, x3, x4, sid, param.parity);
402 
403  o00_re = 0; o00_im = 0;
404  o01_re = 0; o01_im = 0;
405  o02_re = 0; o02_im = 0;
406  o10_re = 0; o10_im = 0;
407  o11_re = 0; o11_im = 0;
408  o12_re = 0; o12_im = 0;
409  o20_re = 0; o20_im = 0;
410  o21_re = 0; o21_im = 0;
411  o22_re = 0; o22_im = 0;
412  o30_re = 0; o30_im = 0;
413  o31_re = 0; o31_im = 0;
414  o32_re = 0; o32_im = 0;
415 
416 #ifdef MULTI_GPU
417 } else { // exterior kernel
418 
419  sid = blockIdx.x*blockDim.x + threadIdx.x;
420  if (sid >= param.threads) return;
421 
422  const int dim = static_cast<int>(kernel_type);
423  const int face_volume = (param.threads >> 1); // volume of one face
424  const int face_num = (sid >= face_volume); // is this thread updating face 0 or 1
425  face_idx = sid - face_num*face_volume; // index into the respective face
426 
427  // ghostOffset is scaled to include body (includes stride) and number of FloatN arrays (SPINOR_HOP)
428  // face_idx not sid since faces are spin projected and share the same volume index (modulo UP/DOWN reading)
429  //sp_idx = face_idx + param.ghostOffset[dim];
430 
431 #if (DD_PREC==2) // half precision
432  sp_norm_idx = sid + param.ghostNormOffset[static_cast<int>(kernel_type)];
433 #endif
434 
435  coordsFromFaceIndex<1>(X, sid, x1, x2, x3, x4, face_idx, face_volume, dim, face_num, param.parity);
436 
437  READ_INTERMEDIATE_SPINOR(INTERTEX, sp_stride, sid, sid);
438 
439  o00_re = i00_re; o00_im = i00_im;
440  o01_re = i01_re; o01_im = i01_im;
441  o02_re = i02_re; o02_im = i02_im;
442  o10_re = i10_re; o10_im = i10_im;
443  o11_re = i11_re; o11_im = i11_im;
444  o12_re = i12_re; o12_im = i12_im;
445  o20_re = i20_re; o20_im = i20_im;
446  o21_re = i21_re; o21_im = i21_im;
447  o22_re = i22_re; o22_im = i22_im;
448  o30_re = i30_re; o30_im = i30_im;
449  o31_re = i31_re; o31_im = i31_im;
450  o32_re = i32_re; o32_im = i32_im;
451 }
452 #endif // MULTI_GPU
453 
454 
455 #ifdef MULTI_GPU
456 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[0] || x1<X1m1)) ||
457  (kernel_type == EXTERIOR_KERNEL_X && x1==X1m1) )
458 #endif
459 {
460  // Projector P0+
461  // 1 0 0 i
462  // 0 1 i 0
463  // 0 -i 1 0
464  // -i 0 0 1
465 
466 #ifdef MULTI_GPU
467  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x1==X1m1 ? X-X1m1 : X+1) >> 1 :
468  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
469 #else
470  const int sp_idx = (x1==X1m1 ? X-X1m1 : X+1) >> 1;
471 #endif
472 
473  const int ga_idx = sid;
474 
475  spinorFloat a0_re, a0_im;
476  spinorFloat a1_re, a1_im;
477  spinorFloat a2_re, a2_im;
478  spinorFloat b0_re, b0_im;
479  spinorFloat b1_re, b1_im;
480  spinorFloat b2_re, b2_im;
481 
482 #ifdef MULTI_GPU
483  if (kernel_type == INTERIOR_KERNEL) {
484 #endif
485 
486  // read spinor from device memory
487  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
488 
489  // project spinor into half spinors
490  a0_re = +i00_re-i30_im;
491  a0_im = +i00_im+i30_re;
492  a1_re = +i01_re-i31_im;
493  a1_im = +i01_im+i31_re;
494  a2_re = +i02_re-i32_im;
495  a2_im = +i02_im+i32_re;
496  b0_re = +i10_re-i20_im;
497  b0_im = +i10_im+i20_re;
498  b1_re = +i11_re-i21_im;
499  b1_im = +i11_im+i21_re;
500  b2_re = +i12_re-i22_im;
501  b2_im = +i12_im+i22_re;
502 
503 #ifdef MULTI_GPU
504  } else {
505 
506  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
507 
508  // read half spinor from device memory
509  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
510 
511  a0_re = i00_re; a0_im = i00_im;
512  a1_re = i01_re; a1_im = i01_im;
513  a2_re = i02_re; a2_im = i02_im;
514  b0_re = i10_re; b0_im = i10_im;
515  b1_re = i11_re; b1_im = i11_im;
516  b2_re = i12_re; b2_im = i12_im;
517 
518  }
519 #endif // MULTI_GPU
520 
521  // read gauge matrix from device memory
522  READ_GAUGE_MATRIX(G, GAUGE0TEX, 0, ga_idx, ga_stride);
523 
524  // reconstruct gauge matrix
525  RECONSTRUCT_GAUGE_MATRIX(0);
526 
527  // multiply row 0
528  spinorFloat A0_re = 0;
529  A0_re += g00_re * a0_re;
530  A0_re -= g00_im * a0_im;
531  A0_re += g01_re * a1_re;
532  A0_re -= g01_im * a1_im;
533  A0_re += g02_re * a2_re;
534  A0_re -= g02_im * a2_im;
535  spinorFloat A0_im = 0;
536  A0_im += g00_re * a0_im;
537  A0_im += g00_im * a0_re;
538  A0_im += g01_re * a1_im;
539  A0_im += g01_im * a1_re;
540  A0_im += g02_re * a2_im;
541  A0_im += g02_im * a2_re;
542  spinorFloat B0_re = 0;
543  B0_re += g00_re * b0_re;
544  B0_re -= g00_im * b0_im;
545  B0_re += g01_re * b1_re;
546  B0_re -= g01_im * b1_im;
547  B0_re += g02_re * b2_re;
548  B0_re -= g02_im * b2_im;
549  spinorFloat B0_im = 0;
550  B0_im += g00_re * b0_im;
551  B0_im += g00_im * b0_re;
552  B0_im += g01_re * b1_im;
553  B0_im += g01_im * b1_re;
554  B0_im += g02_re * b2_im;
555  B0_im += g02_im * b2_re;
556 
557  // multiply row 1
558  spinorFloat A1_re = 0;
559  A1_re += g10_re * a0_re;
560  A1_re -= g10_im * a0_im;
561  A1_re += g11_re * a1_re;
562  A1_re -= g11_im * a1_im;
563  A1_re += g12_re * a2_re;
564  A1_re -= g12_im * a2_im;
565  spinorFloat A1_im = 0;
566  A1_im += g10_re * a0_im;
567  A1_im += g10_im * a0_re;
568  A1_im += g11_re * a1_im;
569  A1_im += g11_im * a1_re;
570  A1_im += g12_re * a2_im;
571  A1_im += g12_im * a2_re;
572  spinorFloat B1_re = 0;
573  B1_re += g10_re * b0_re;
574  B1_re -= g10_im * b0_im;
575  B1_re += g11_re * b1_re;
576  B1_re -= g11_im * b1_im;
577  B1_re += g12_re * b2_re;
578  B1_re -= g12_im * b2_im;
579  spinorFloat B1_im = 0;
580  B1_im += g10_re * b0_im;
581  B1_im += g10_im * b0_re;
582  B1_im += g11_re * b1_im;
583  B1_im += g11_im * b1_re;
584  B1_im += g12_re * b2_im;
585  B1_im += g12_im * b2_re;
586 
587  // multiply row 2
588  spinorFloat A2_re = 0;
589  A2_re += g20_re * a0_re;
590  A2_re -= g20_im * a0_im;
591  A2_re += g21_re * a1_re;
592  A2_re -= g21_im * a1_im;
593  A2_re += g22_re * a2_re;
594  A2_re -= g22_im * a2_im;
595  spinorFloat A2_im = 0;
596  A2_im += g20_re * a0_im;
597  A2_im += g20_im * a0_re;
598  A2_im += g21_re * a1_im;
599  A2_im += g21_im * a1_re;
600  A2_im += g22_re * a2_im;
601  A2_im += g22_im * a2_re;
602  spinorFloat B2_re = 0;
603  B2_re += g20_re * b0_re;
604  B2_re -= g20_im * b0_im;
605  B2_re += g21_re * b1_re;
606  B2_re -= g21_im * b1_im;
607  B2_re += g22_re * b2_re;
608  B2_re -= g22_im * b2_im;
609  spinorFloat B2_im = 0;
610  B2_im += g20_re * b0_im;
611  B2_im += g20_im * b0_re;
612  B2_im += g21_re * b1_im;
613  B2_im += g21_im * b1_re;
614  B2_im += g22_re * b2_im;
615  B2_im += g22_im * b2_re;
616 
617  o00_re += A0_re;
618  o00_im += A0_im;
619  o10_re += B0_re;
620  o10_im += B0_im;
621  o20_re += B0_im;
622  o20_im -= B0_re;
623  o30_re += A0_im;
624  o30_im -= A0_re;
625 
626  o01_re += A1_re;
627  o01_im += A1_im;
628  o11_re += B1_re;
629  o11_im += B1_im;
630  o21_re += B1_im;
631  o21_im -= B1_re;
632  o31_re += A1_im;
633  o31_im -= A1_re;
634 
635  o02_re += A2_re;
636  o02_im += A2_im;
637  o12_re += B2_re;
638  o12_im += B2_im;
639  o22_re += B2_im;
640  o22_im -= B2_re;
641  o32_re += A2_im;
642  o32_im -= A2_re;
643 
644 }
645 
646 #ifdef MULTI_GPU
647 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[0] || x1>0)) ||
648  (kernel_type == EXTERIOR_KERNEL_X && x1==0) )
649 #endif
650 {
651  // Projector P0-
652  // 1 0 0 -i
653  // 0 1 -i 0
654  // 0 i 1 0
655  // i 0 0 1
656 
657 #ifdef MULTI_GPU
658  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x1==0 ? X+X1m1 : X-1) >> 1 :
659  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
660 #else
661  const int sp_idx = (x1==0 ? X+X1m1 : X-1) >> 1;
662 #endif
663 
664 #ifdef MULTI_GPU
665  const int ga_idx = ((kernel_type == INTERIOR_KERNEL) ? sp_idx : Vh+face_idx);
666 #else
667  const int ga_idx = sp_idx;
668 #endif
669 
670  spinorFloat a0_re, a0_im;
671  spinorFloat a1_re, a1_im;
672  spinorFloat a2_re, a2_im;
673  spinorFloat b0_re, b0_im;
674  spinorFloat b1_re, b1_im;
675  spinorFloat b2_re, b2_im;
676 
677 #ifdef MULTI_GPU
678  if (kernel_type == INTERIOR_KERNEL) {
679 #endif
680 
681  // read spinor from device memory
682  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
683 
684  // project spinor into half spinors
685  a0_re = +i00_re+i30_im;
686  a0_im = +i00_im-i30_re;
687  a1_re = +i01_re+i31_im;
688  a1_im = +i01_im-i31_re;
689  a2_re = +i02_re+i32_im;
690  a2_im = +i02_im-i32_re;
691  b0_re = +i10_re+i20_im;
692  b0_im = +i10_im-i20_re;
693  b1_re = +i11_re+i21_im;
694  b1_im = +i11_im-i21_re;
695  b2_re = +i12_re+i22_im;
696  b2_im = +i12_im-i22_re;
697 
698 #ifdef MULTI_GPU
699  } else {
700 
701  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
702 
703  // read half spinor from device memory
704  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
705 
706  a0_re = i00_re; a0_im = i00_im;
707  a1_re = i01_re; a1_im = i01_im;
708  a2_re = i02_re; a2_im = i02_im;
709  b0_re = i10_re; b0_im = i10_im;
710  b1_re = i11_re; b1_im = i11_im;
711  b2_re = i12_re; b2_im = i12_im;
712 
713  }
714 #endif // MULTI_GPU
715 
716  // read gauge matrix from device memory
717  READ_GAUGE_MATRIX(G, GAUGE1TEX, 1, ga_idx, ga_stride);
718 
719  // reconstruct gauge matrix
720  RECONSTRUCT_GAUGE_MATRIX(1);
721 
722  // multiply row 0
723  spinorFloat A0_re = 0;
724  A0_re += gT00_re * a0_re;
725  A0_re -= gT00_im * a0_im;
726  A0_re += gT01_re * a1_re;
727  A0_re -= gT01_im * a1_im;
728  A0_re += gT02_re * a2_re;
729  A0_re -= gT02_im * a2_im;
730  spinorFloat A0_im = 0;
731  A0_im += gT00_re * a0_im;
732  A0_im += gT00_im * a0_re;
733  A0_im += gT01_re * a1_im;
734  A0_im += gT01_im * a1_re;
735  A0_im += gT02_re * a2_im;
736  A0_im += gT02_im * a2_re;
737  spinorFloat B0_re = 0;
738  B0_re += gT00_re * b0_re;
739  B0_re -= gT00_im * b0_im;
740  B0_re += gT01_re * b1_re;
741  B0_re -= gT01_im * b1_im;
742  B0_re += gT02_re * b2_re;
743  B0_re -= gT02_im * b2_im;
744  spinorFloat B0_im = 0;
745  B0_im += gT00_re * b0_im;
746  B0_im += gT00_im * b0_re;
747  B0_im += gT01_re * b1_im;
748  B0_im += gT01_im * b1_re;
749  B0_im += gT02_re * b2_im;
750  B0_im += gT02_im * b2_re;
751 
752  // multiply row 1
753  spinorFloat A1_re = 0;
754  A1_re += gT10_re * a0_re;
755  A1_re -= gT10_im * a0_im;
756  A1_re += gT11_re * a1_re;
757  A1_re -= gT11_im * a1_im;
758  A1_re += gT12_re * a2_re;
759  A1_re -= gT12_im * a2_im;
760  spinorFloat A1_im = 0;
761  A1_im += gT10_re * a0_im;
762  A1_im += gT10_im * a0_re;
763  A1_im += gT11_re * a1_im;
764  A1_im += gT11_im * a1_re;
765  A1_im += gT12_re * a2_im;
766  A1_im += gT12_im * a2_re;
767  spinorFloat B1_re = 0;
768  B1_re += gT10_re * b0_re;
769  B1_re -= gT10_im * b0_im;
770  B1_re += gT11_re * b1_re;
771  B1_re -= gT11_im * b1_im;
772  B1_re += gT12_re * b2_re;
773  B1_re -= gT12_im * b2_im;
774  spinorFloat B1_im = 0;
775  B1_im += gT10_re * b0_im;
776  B1_im += gT10_im * b0_re;
777  B1_im += gT11_re * b1_im;
778  B1_im += gT11_im * b1_re;
779  B1_im += gT12_re * b2_im;
780  B1_im += gT12_im * b2_re;
781 
782  // multiply row 2
783  spinorFloat A2_re = 0;
784  A2_re += gT20_re * a0_re;
785  A2_re -= gT20_im * a0_im;
786  A2_re += gT21_re * a1_re;
787  A2_re -= gT21_im * a1_im;
788  A2_re += gT22_re * a2_re;
789  A2_re -= gT22_im * a2_im;
790  spinorFloat A2_im = 0;
791  A2_im += gT20_re * a0_im;
792  A2_im += gT20_im * a0_re;
793  A2_im += gT21_re * a1_im;
794  A2_im += gT21_im * a1_re;
795  A2_im += gT22_re * a2_im;
796  A2_im += gT22_im * a2_re;
797  spinorFloat B2_re = 0;
798  B2_re += gT20_re * b0_re;
799  B2_re -= gT20_im * b0_im;
800  B2_re += gT21_re * b1_re;
801  B2_re -= gT21_im * b1_im;
802  B2_re += gT22_re * b2_re;
803  B2_re -= gT22_im * b2_im;
804  spinorFloat B2_im = 0;
805  B2_im += gT20_re * b0_im;
806  B2_im += gT20_im * b0_re;
807  B2_im += gT21_re * b1_im;
808  B2_im += gT21_im * b1_re;
809  B2_im += gT22_re * b2_im;
810  B2_im += gT22_im * b2_re;
811 
812  o00_re += A0_re;
813  o00_im += A0_im;
814  o10_re += B0_re;
815  o10_im += B0_im;
816  o20_re -= B0_im;
817  o20_im += B0_re;
818  o30_re -= A0_im;
819  o30_im += A0_re;
820 
821  o01_re += A1_re;
822  o01_im += A1_im;
823  o11_re += B1_re;
824  o11_im += B1_im;
825  o21_re -= B1_im;
826  o21_im += B1_re;
827  o31_re -= A1_im;
828  o31_im += A1_re;
829 
830  o02_re += A2_re;
831  o02_im += A2_im;
832  o12_re += B2_re;
833  o12_im += B2_im;
834  o22_re -= B2_im;
835  o22_im += B2_re;
836  o32_re -= A2_im;
837  o32_im += A2_re;
838 
839 }
840 
841 #ifdef MULTI_GPU
842 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[1] || x2<X2m1)) ||
843  (kernel_type == EXTERIOR_KERNEL_Y && x2==X2m1) )
844 #endif
845 {
846  // Projector P1+
847  // 1 0 0 1
848  // 0 1 -1 0
849  // 0 -1 1 0
850  // 1 0 0 1
851 
852 #ifdef MULTI_GPU
853  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x2==X2m1 ? X-X2X1mX1 : X+X1) >> 1 :
854  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
855 #else
856  const int sp_idx = (x2==X2m1 ? X-X2X1mX1 : X+X1) >> 1;
857 #endif
858 
859  const int ga_idx = sid;
860 
861  spinorFloat a0_re, a0_im;
862  spinorFloat a1_re, a1_im;
863  spinorFloat a2_re, a2_im;
864  spinorFloat b0_re, b0_im;
865  spinorFloat b1_re, b1_im;
866  spinorFloat b2_re, b2_im;
867 
868 #ifdef MULTI_GPU
869  if (kernel_type == INTERIOR_KERNEL) {
870 #endif
871 
872  // read spinor from device memory
873  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
874 
875  // project spinor into half spinors
876  a0_re = +i00_re+i30_re;
877  a0_im = +i00_im+i30_im;
878  a1_re = +i01_re+i31_re;
879  a1_im = +i01_im+i31_im;
880  a2_re = +i02_re+i32_re;
881  a2_im = +i02_im+i32_im;
882  b0_re = +i10_re-i20_re;
883  b0_im = +i10_im-i20_im;
884  b1_re = +i11_re-i21_re;
885  b1_im = +i11_im-i21_im;
886  b2_re = +i12_re-i22_re;
887  b2_im = +i12_im-i22_im;
888 
889 #ifdef MULTI_GPU
890  } else {
891 
892  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
893 
894  // read half spinor from device memory
895  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
896 
897  a0_re = i00_re; a0_im = i00_im;
898  a1_re = i01_re; a1_im = i01_im;
899  a2_re = i02_re; a2_im = i02_im;
900  b0_re = i10_re; b0_im = i10_im;
901  b1_re = i11_re; b1_im = i11_im;
902  b2_re = i12_re; b2_im = i12_im;
903 
904  }
905 #endif // MULTI_GPU
906 
907  // read gauge matrix from device memory
908  READ_GAUGE_MATRIX(G, GAUGE0TEX, 2, ga_idx, ga_stride);
909 
910  // reconstruct gauge matrix
911  RECONSTRUCT_GAUGE_MATRIX(2);
912 
913  // multiply row 0
914  spinorFloat A0_re = 0;
915  A0_re += g00_re * a0_re;
916  A0_re -= g00_im * a0_im;
917  A0_re += g01_re * a1_re;
918  A0_re -= g01_im * a1_im;
919  A0_re += g02_re * a2_re;
920  A0_re -= g02_im * a2_im;
921  spinorFloat A0_im = 0;
922  A0_im += g00_re * a0_im;
923  A0_im += g00_im * a0_re;
924  A0_im += g01_re * a1_im;
925  A0_im += g01_im * a1_re;
926  A0_im += g02_re * a2_im;
927  A0_im += g02_im * a2_re;
928  spinorFloat B0_re = 0;
929  B0_re += g00_re * b0_re;
930  B0_re -= g00_im * b0_im;
931  B0_re += g01_re * b1_re;
932  B0_re -= g01_im * b1_im;
933  B0_re += g02_re * b2_re;
934  B0_re -= g02_im * b2_im;
935  spinorFloat B0_im = 0;
936  B0_im += g00_re * b0_im;
937  B0_im += g00_im * b0_re;
938  B0_im += g01_re * b1_im;
939  B0_im += g01_im * b1_re;
940  B0_im += g02_re * b2_im;
941  B0_im += g02_im * b2_re;
942 
943  // multiply row 1
944  spinorFloat A1_re = 0;
945  A1_re += g10_re * a0_re;
946  A1_re -= g10_im * a0_im;
947  A1_re += g11_re * a1_re;
948  A1_re -= g11_im * a1_im;
949  A1_re += g12_re * a2_re;
950  A1_re -= g12_im * a2_im;
951  spinorFloat A1_im = 0;
952  A1_im += g10_re * a0_im;
953  A1_im += g10_im * a0_re;
954  A1_im += g11_re * a1_im;
955  A1_im += g11_im * a1_re;
956  A1_im += g12_re * a2_im;
957  A1_im += g12_im * a2_re;
958  spinorFloat B1_re = 0;
959  B1_re += g10_re * b0_re;
960  B1_re -= g10_im * b0_im;
961  B1_re += g11_re * b1_re;
962  B1_re -= g11_im * b1_im;
963  B1_re += g12_re * b2_re;
964  B1_re -= g12_im * b2_im;
965  spinorFloat B1_im = 0;
966  B1_im += g10_re * b0_im;
967  B1_im += g10_im * b0_re;
968  B1_im += g11_re * b1_im;
969  B1_im += g11_im * b1_re;
970  B1_im += g12_re * b2_im;
971  B1_im += g12_im * b2_re;
972 
973  // multiply row 2
974  spinorFloat A2_re = 0;
975  A2_re += g20_re * a0_re;
976  A2_re -= g20_im * a0_im;
977  A2_re += g21_re * a1_re;
978  A2_re -= g21_im * a1_im;
979  A2_re += g22_re * a2_re;
980  A2_re -= g22_im * a2_im;
981  spinorFloat A2_im = 0;
982  A2_im += g20_re * a0_im;
983  A2_im += g20_im * a0_re;
984  A2_im += g21_re * a1_im;
985  A2_im += g21_im * a1_re;
986  A2_im += g22_re * a2_im;
987  A2_im += g22_im * a2_re;
988  spinorFloat B2_re = 0;
989  B2_re += g20_re * b0_re;
990  B2_re -= g20_im * b0_im;
991  B2_re += g21_re * b1_re;
992  B2_re -= g21_im * b1_im;
993  B2_re += g22_re * b2_re;
994  B2_re -= g22_im * b2_im;
995  spinorFloat B2_im = 0;
996  B2_im += g20_re * b0_im;
997  B2_im += g20_im * b0_re;
998  B2_im += g21_re * b1_im;
999  B2_im += g21_im * b1_re;
1000  B2_im += g22_re * b2_im;
1001  B2_im += g22_im * b2_re;
1002 
1003  o00_re += A0_re;
1004  o00_im += A0_im;
1005  o10_re += B0_re;
1006  o10_im += B0_im;
1007  o20_re -= B0_re;
1008  o20_im -= B0_im;
1009  o30_re += A0_re;
1010  o30_im += A0_im;
1011 
1012  o01_re += A1_re;
1013  o01_im += A1_im;
1014  o11_re += B1_re;
1015  o11_im += B1_im;
1016  o21_re -= B1_re;
1017  o21_im -= B1_im;
1018  o31_re += A1_re;
1019  o31_im += A1_im;
1020 
1021  o02_re += A2_re;
1022  o02_im += A2_im;
1023  o12_re += B2_re;
1024  o12_im += B2_im;
1025  o22_re -= B2_re;
1026  o22_im -= B2_im;
1027  o32_re += A2_re;
1028  o32_im += A2_im;
1029 
1030 }
1031 
1032 #ifdef MULTI_GPU
1033 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[1] || x2>0)) ||
1034  (kernel_type == EXTERIOR_KERNEL_Y && x2==0) )
1035 #endif
1036 {
1037  // Projector P1-
1038  // 1 0 0 -1
1039  // 0 1 1 0
1040  // 0 1 1 0
1041  // -1 0 0 1
1042 
1043 #ifdef MULTI_GPU
1044  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x2==0 ? X+X2X1mX1 : X-X1) >> 1 :
1045  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
1046 #else
1047  const int sp_idx = (x2==0 ? X+X2X1mX1 : X-X1) >> 1;
1048 #endif
1049 
1050 #ifdef MULTI_GPU
1051  const int ga_idx = ((kernel_type == INTERIOR_KERNEL) ? sp_idx : Vh+face_idx);
1052 #else
1053  const int ga_idx = sp_idx;
1054 #endif
1055 
1056  spinorFloat a0_re, a0_im;
1057  spinorFloat a1_re, a1_im;
1058  spinorFloat a2_re, a2_im;
1059  spinorFloat b0_re, b0_im;
1060  spinorFloat b1_re, b1_im;
1061  spinorFloat b2_re, b2_im;
1062 
1063 #ifdef MULTI_GPU
1064  if (kernel_type == INTERIOR_KERNEL) {
1065 #endif
1066 
1067  // read spinor from device memory
1068  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
1069 
1070  // project spinor into half spinors
1071  a0_re = +i00_re-i30_re;
1072  a0_im = +i00_im-i30_im;
1073  a1_re = +i01_re-i31_re;
1074  a1_im = +i01_im-i31_im;
1075  a2_re = +i02_re-i32_re;
1076  a2_im = +i02_im-i32_im;
1077  b0_re = +i10_re+i20_re;
1078  b0_im = +i10_im+i20_im;
1079  b1_re = +i11_re+i21_re;
1080  b1_im = +i11_im+i21_im;
1081  b2_re = +i12_re+i22_re;
1082  b2_im = +i12_im+i22_im;
1083 
1084 #ifdef MULTI_GPU
1085  } else {
1086 
1087  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1088 
1089  // read half spinor from device memory
1090  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
1091 
1092  a0_re = i00_re; a0_im = i00_im;
1093  a1_re = i01_re; a1_im = i01_im;
1094  a2_re = i02_re; a2_im = i02_im;
1095  b0_re = i10_re; b0_im = i10_im;
1096  b1_re = i11_re; b1_im = i11_im;
1097  b2_re = i12_re; b2_im = i12_im;
1098 
1099  }
1100 #endif // MULTI_GPU
1101 
1102  // read gauge matrix from device memory
1103  READ_GAUGE_MATRIX(G, GAUGE1TEX, 3, ga_idx, ga_stride);
1104 
1105  // reconstruct gauge matrix
1106  RECONSTRUCT_GAUGE_MATRIX(3);
1107 
1108  // multiply row 0
1109  spinorFloat A0_re = 0;
1110  A0_re += gT00_re * a0_re;
1111  A0_re -= gT00_im * a0_im;
1112  A0_re += gT01_re * a1_re;
1113  A0_re -= gT01_im * a1_im;
1114  A0_re += gT02_re * a2_re;
1115  A0_re -= gT02_im * a2_im;
1116  spinorFloat A0_im = 0;
1117  A0_im += gT00_re * a0_im;
1118  A0_im += gT00_im * a0_re;
1119  A0_im += gT01_re * a1_im;
1120  A0_im += gT01_im * a1_re;
1121  A0_im += gT02_re * a2_im;
1122  A0_im += gT02_im * a2_re;
1123  spinorFloat B0_re = 0;
1124  B0_re += gT00_re * b0_re;
1125  B0_re -= gT00_im * b0_im;
1126  B0_re += gT01_re * b1_re;
1127  B0_re -= gT01_im * b1_im;
1128  B0_re += gT02_re * b2_re;
1129  B0_re -= gT02_im * b2_im;
1130  spinorFloat B0_im = 0;
1131  B0_im += gT00_re * b0_im;
1132  B0_im += gT00_im * b0_re;
1133  B0_im += gT01_re * b1_im;
1134  B0_im += gT01_im * b1_re;
1135  B0_im += gT02_re * b2_im;
1136  B0_im += gT02_im * b2_re;
1137 
1138  // multiply row 1
1139  spinorFloat A1_re = 0;
1140  A1_re += gT10_re * a0_re;
1141  A1_re -= gT10_im * a0_im;
1142  A1_re += gT11_re * a1_re;
1143  A1_re -= gT11_im * a1_im;
1144  A1_re += gT12_re * a2_re;
1145  A1_re -= gT12_im * a2_im;
1146  spinorFloat A1_im = 0;
1147  A1_im += gT10_re * a0_im;
1148  A1_im += gT10_im * a0_re;
1149  A1_im += gT11_re * a1_im;
1150  A1_im += gT11_im * a1_re;
1151  A1_im += gT12_re * a2_im;
1152  A1_im += gT12_im * a2_re;
1153  spinorFloat B1_re = 0;
1154  B1_re += gT10_re * b0_re;
1155  B1_re -= gT10_im * b0_im;
1156  B1_re += gT11_re * b1_re;
1157  B1_re -= gT11_im * b1_im;
1158  B1_re += gT12_re * b2_re;
1159  B1_re -= gT12_im * b2_im;
1160  spinorFloat B1_im = 0;
1161  B1_im += gT10_re * b0_im;
1162  B1_im += gT10_im * b0_re;
1163  B1_im += gT11_re * b1_im;
1164  B1_im += gT11_im * b1_re;
1165  B1_im += gT12_re * b2_im;
1166  B1_im += gT12_im * b2_re;
1167 
1168  // multiply row 2
1169  spinorFloat A2_re = 0;
1170  A2_re += gT20_re * a0_re;
1171  A2_re -= gT20_im * a0_im;
1172  A2_re += gT21_re * a1_re;
1173  A2_re -= gT21_im * a1_im;
1174  A2_re += gT22_re * a2_re;
1175  A2_re -= gT22_im * a2_im;
1176  spinorFloat A2_im = 0;
1177  A2_im += gT20_re * a0_im;
1178  A2_im += gT20_im * a0_re;
1179  A2_im += gT21_re * a1_im;
1180  A2_im += gT21_im * a1_re;
1181  A2_im += gT22_re * a2_im;
1182  A2_im += gT22_im * a2_re;
1183  spinorFloat B2_re = 0;
1184  B2_re += gT20_re * b0_re;
1185  B2_re -= gT20_im * b0_im;
1186  B2_re += gT21_re * b1_re;
1187  B2_re -= gT21_im * b1_im;
1188  B2_re += gT22_re * b2_re;
1189  B2_re -= gT22_im * b2_im;
1190  spinorFloat B2_im = 0;
1191  B2_im += gT20_re * b0_im;
1192  B2_im += gT20_im * b0_re;
1193  B2_im += gT21_re * b1_im;
1194  B2_im += gT21_im * b1_re;
1195  B2_im += gT22_re * b2_im;
1196  B2_im += gT22_im * b2_re;
1197 
1198  o00_re += A0_re;
1199  o00_im += A0_im;
1200  o10_re += B0_re;
1201  o10_im += B0_im;
1202  o20_re += B0_re;
1203  o20_im += B0_im;
1204  o30_re -= A0_re;
1205  o30_im -= A0_im;
1206 
1207  o01_re += A1_re;
1208  o01_im += A1_im;
1209  o11_re += B1_re;
1210  o11_im += B1_im;
1211  o21_re += B1_re;
1212  o21_im += B1_im;
1213  o31_re -= A1_re;
1214  o31_im -= A1_im;
1215 
1216  o02_re += A2_re;
1217  o02_im += A2_im;
1218  o12_re += B2_re;
1219  o12_im += B2_im;
1220  o22_re += B2_re;
1221  o22_im += B2_im;
1222  o32_re -= A2_re;
1223  o32_im -= A2_im;
1224 
1225 }
1226 
1227 #ifdef MULTI_GPU
1228 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[2] || x3<X3m1)) ||
1229  (kernel_type == EXTERIOR_KERNEL_Z && x3==X3m1) )
1230 #endif
1231 {
1232  // Projector P2+
1233  // 1 0 i 0
1234  // 0 1 0 -i
1235  // -i 0 1 0
1236  // 0 i 0 1
1237 
1238 #ifdef MULTI_GPU
1239  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x3==X3m1 ? X-X3X2X1mX2X1 : X+X2X1) >> 1 :
1240  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
1241 #else
1242  const int sp_idx = (x3==X3m1 ? X-X3X2X1mX2X1 : X+X2X1) >> 1;
1243 #endif
1244 
1245  const int ga_idx = sid;
1246 
1247  spinorFloat a0_re, a0_im;
1248  spinorFloat a1_re, a1_im;
1249  spinorFloat a2_re, a2_im;
1250  spinorFloat b0_re, b0_im;
1251  spinorFloat b1_re, b1_im;
1252  spinorFloat b2_re, b2_im;
1253 
1254 #ifdef MULTI_GPU
1255  if (kernel_type == INTERIOR_KERNEL) {
1256 #endif
1257 
1258  // read spinor from device memory
1259  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
1260 
1261  // project spinor into half spinors
1262  a0_re = +i00_re-i20_im;
1263  a0_im = +i00_im+i20_re;
1264  a1_re = +i01_re-i21_im;
1265  a1_im = +i01_im+i21_re;
1266  a2_re = +i02_re-i22_im;
1267  a2_im = +i02_im+i22_re;
1268  b0_re = +i10_re+i30_im;
1269  b0_im = +i10_im-i30_re;
1270  b1_re = +i11_re+i31_im;
1271  b1_im = +i11_im-i31_re;
1272  b2_re = +i12_re+i32_im;
1273  b2_im = +i12_im-i32_re;
1274 
1275 #ifdef MULTI_GPU
1276  } else {
1277 
1278  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1279 
1280  // read half spinor from device memory
1281  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
1282 
1283  a0_re = i00_re; a0_im = i00_im;
1284  a1_re = i01_re; a1_im = i01_im;
1285  a2_re = i02_re; a2_im = i02_im;
1286  b0_re = i10_re; b0_im = i10_im;
1287  b1_re = i11_re; b1_im = i11_im;
1288  b2_re = i12_re; b2_im = i12_im;
1289 
1290  }
1291 #endif // MULTI_GPU
1292 
1293  // read gauge matrix from device memory
1294  READ_GAUGE_MATRIX(G, GAUGE0TEX, 4, ga_idx, ga_stride);
1295 
1296  // reconstruct gauge matrix
1297  RECONSTRUCT_GAUGE_MATRIX(4);
1298 
1299  // multiply row 0
1300  spinorFloat A0_re = 0;
1301  A0_re += g00_re * a0_re;
1302  A0_re -= g00_im * a0_im;
1303  A0_re += g01_re * a1_re;
1304  A0_re -= g01_im * a1_im;
1305  A0_re += g02_re * a2_re;
1306  A0_re -= g02_im * a2_im;
1307  spinorFloat A0_im = 0;
1308  A0_im += g00_re * a0_im;
1309  A0_im += g00_im * a0_re;
1310  A0_im += g01_re * a1_im;
1311  A0_im += g01_im * a1_re;
1312  A0_im += g02_re * a2_im;
1313  A0_im += g02_im * a2_re;
1314  spinorFloat B0_re = 0;
1315  B0_re += g00_re * b0_re;
1316  B0_re -= g00_im * b0_im;
1317  B0_re += g01_re * b1_re;
1318  B0_re -= g01_im * b1_im;
1319  B0_re += g02_re * b2_re;
1320  B0_re -= g02_im * b2_im;
1321  spinorFloat B0_im = 0;
1322  B0_im += g00_re * b0_im;
1323  B0_im += g00_im * b0_re;
1324  B0_im += g01_re * b1_im;
1325  B0_im += g01_im * b1_re;
1326  B0_im += g02_re * b2_im;
1327  B0_im += g02_im * b2_re;
1328 
1329  // multiply row 1
1330  spinorFloat A1_re = 0;
1331  A1_re += g10_re * a0_re;
1332  A1_re -= g10_im * a0_im;
1333  A1_re += g11_re * a1_re;
1334  A1_re -= g11_im * a1_im;
1335  A1_re += g12_re * a2_re;
1336  A1_re -= g12_im * a2_im;
1337  spinorFloat A1_im = 0;
1338  A1_im += g10_re * a0_im;
1339  A1_im += g10_im * a0_re;
1340  A1_im += g11_re * a1_im;
1341  A1_im += g11_im * a1_re;
1342  A1_im += g12_re * a2_im;
1343  A1_im += g12_im * a2_re;
1344  spinorFloat B1_re = 0;
1345  B1_re += g10_re * b0_re;
1346  B1_re -= g10_im * b0_im;
1347  B1_re += g11_re * b1_re;
1348  B1_re -= g11_im * b1_im;
1349  B1_re += g12_re * b2_re;
1350  B1_re -= g12_im * b2_im;
1351  spinorFloat B1_im = 0;
1352  B1_im += g10_re * b0_im;
1353  B1_im += g10_im * b0_re;
1354  B1_im += g11_re * b1_im;
1355  B1_im += g11_im * b1_re;
1356  B1_im += g12_re * b2_im;
1357  B1_im += g12_im * b2_re;
1358 
1359  // multiply row 2
1360  spinorFloat A2_re = 0;
1361  A2_re += g20_re * a0_re;
1362  A2_re -= g20_im * a0_im;
1363  A2_re += g21_re * a1_re;
1364  A2_re -= g21_im * a1_im;
1365  A2_re += g22_re * a2_re;
1366  A2_re -= g22_im * a2_im;
1367  spinorFloat A2_im = 0;
1368  A2_im += g20_re * a0_im;
1369  A2_im += g20_im * a0_re;
1370  A2_im += g21_re * a1_im;
1371  A2_im += g21_im * a1_re;
1372  A2_im += g22_re * a2_im;
1373  A2_im += g22_im * a2_re;
1374  spinorFloat B2_re = 0;
1375  B2_re += g20_re * b0_re;
1376  B2_re -= g20_im * b0_im;
1377  B2_re += g21_re * b1_re;
1378  B2_re -= g21_im * b1_im;
1379  B2_re += g22_re * b2_re;
1380  B2_re -= g22_im * b2_im;
1381  spinorFloat B2_im = 0;
1382  B2_im += g20_re * b0_im;
1383  B2_im += g20_im * b0_re;
1384  B2_im += g21_re * b1_im;
1385  B2_im += g21_im * b1_re;
1386  B2_im += g22_re * b2_im;
1387  B2_im += g22_im * b2_re;
1388 
1389  o00_re += A0_re;
1390  o00_im += A0_im;
1391  o10_re += B0_re;
1392  o10_im += B0_im;
1393  o20_re += A0_im;
1394  o20_im -= A0_re;
1395  o30_re -= B0_im;
1396  o30_im += B0_re;
1397 
1398  o01_re += A1_re;
1399  o01_im += A1_im;
1400  o11_re += B1_re;
1401  o11_im += B1_im;
1402  o21_re += A1_im;
1403  o21_im -= A1_re;
1404  o31_re -= B1_im;
1405  o31_im += B1_re;
1406 
1407  o02_re += A2_re;
1408  o02_im += A2_im;
1409  o12_re += B2_re;
1410  o12_im += B2_im;
1411  o22_re += A2_im;
1412  o22_im -= A2_re;
1413  o32_re -= B2_im;
1414  o32_im += B2_re;
1415 
1416 }
1417 
1418 #ifdef MULTI_GPU
1419 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[2] || x3>0)) ||
1420  (kernel_type == EXTERIOR_KERNEL_Z && x3==0) )
1421 #endif
1422 {
1423  // Projector P2-
1424  // 1 0 -i 0
1425  // 0 1 0 i
1426  // i 0 1 0
1427  // 0 -i 0 1
1428 
1429 #ifdef MULTI_GPU
1430  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x3==0 ? X+X3X2X1mX2X1 : X-X2X1) >> 1 :
1431  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
1432 #else
1433  const int sp_idx = (x3==0 ? X+X3X2X1mX2X1 : X-X2X1) >> 1;
1434 #endif
1435 
1436 #ifdef MULTI_GPU
1437  const int ga_idx = ((kernel_type == INTERIOR_KERNEL) ? sp_idx : Vh+face_idx);
1438 #else
1439  const int ga_idx = sp_idx;
1440 #endif
1441 
1442  spinorFloat a0_re, a0_im;
1443  spinorFloat a1_re, a1_im;
1444  spinorFloat a2_re, a2_im;
1445  spinorFloat b0_re, b0_im;
1446  spinorFloat b1_re, b1_im;
1447  spinorFloat b2_re, b2_im;
1448 
1449 #ifdef MULTI_GPU
1450  if (kernel_type == INTERIOR_KERNEL) {
1451 #endif
1452 
1453  // read spinor from device memory
1454  READ_SPINOR(SPINORTEX, sp_stride, sp_idx, sp_idx);
1455 
1456  // project spinor into half spinors
1457  a0_re = +i00_re+i20_im;
1458  a0_im = +i00_im-i20_re;
1459  a1_re = +i01_re+i21_im;
1460  a1_im = +i01_im-i21_re;
1461  a2_re = +i02_re+i22_im;
1462  a2_im = +i02_im-i22_re;
1463  b0_re = +i10_re-i30_im;
1464  b0_im = +i10_im+i30_re;
1465  b1_re = +i11_re-i31_im;
1466  b1_im = +i11_im+i31_re;
1467  b2_re = +i12_re-i32_im;
1468  b2_im = +i12_im+i32_re;
1469 
1470 #ifdef MULTI_GPU
1471  } else {
1472 
1473  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1474 
1475  // read half spinor from device memory
1476  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
1477 
1478  a0_re = i00_re; a0_im = i00_im;
1479  a1_re = i01_re; a1_im = i01_im;
1480  a2_re = i02_re; a2_im = i02_im;
1481  b0_re = i10_re; b0_im = i10_im;
1482  b1_re = i11_re; b1_im = i11_im;
1483  b2_re = i12_re; b2_im = i12_im;
1484 
1485  }
1486 #endif // MULTI_GPU
1487 
1488  // read gauge matrix from device memory
1489  READ_GAUGE_MATRIX(G, GAUGE1TEX, 5, ga_idx, ga_stride);
1490 
1491  // reconstruct gauge matrix
1492  RECONSTRUCT_GAUGE_MATRIX(5);
1493 
1494  // multiply row 0
1495  spinorFloat A0_re = 0;
1496  A0_re += gT00_re * a0_re;
1497  A0_re -= gT00_im * a0_im;
1498  A0_re += gT01_re * a1_re;
1499  A0_re -= gT01_im * a1_im;
1500  A0_re += gT02_re * a2_re;
1501  A0_re -= gT02_im * a2_im;
1502  spinorFloat A0_im = 0;
1503  A0_im += gT00_re * a0_im;
1504  A0_im += gT00_im * a0_re;
1505  A0_im += gT01_re * a1_im;
1506  A0_im += gT01_im * a1_re;
1507  A0_im += gT02_re * a2_im;
1508  A0_im += gT02_im * a2_re;
1509  spinorFloat B0_re = 0;
1510  B0_re += gT00_re * b0_re;
1511  B0_re -= gT00_im * b0_im;
1512  B0_re += gT01_re * b1_re;
1513  B0_re -= gT01_im * b1_im;
1514  B0_re += gT02_re * b2_re;
1515  B0_re -= gT02_im * b2_im;
1516  spinorFloat B0_im = 0;
1517  B0_im += gT00_re * b0_im;
1518  B0_im += gT00_im * b0_re;
1519  B0_im += gT01_re * b1_im;
1520  B0_im += gT01_im * b1_re;
1521  B0_im += gT02_re * b2_im;
1522  B0_im += gT02_im * b2_re;
1523 
1524  // multiply row 1
1525  spinorFloat A1_re = 0;
1526  A1_re += gT10_re * a0_re;
1527  A1_re -= gT10_im * a0_im;
1528  A1_re += gT11_re * a1_re;
1529  A1_re -= gT11_im * a1_im;
1530  A1_re += gT12_re * a2_re;
1531  A1_re -= gT12_im * a2_im;
1532  spinorFloat A1_im = 0;
1533  A1_im += gT10_re * a0_im;
1534  A1_im += gT10_im * a0_re;
1535  A1_im += gT11_re * a1_im;
1536  A1_im += gT11_im * a1_re;
1537  A1_im += gT12_re * a2_im;
1538  A1_im += gT12_im * a2_re;
1539  spinorFloat B1_re = 0;
1540  B1_re += gT10_re * b0_re;
1541  B1_re -= gT10_im * b0_im;
1542  B1_re += gT11_re * b1_re;
1543  B1_re -= gT11_im * b1_im;
1544  B1_re += gT12_re * b2_re;
1545  B1_re -= gT12_im * b2_im;
1546  spinorFloat B1_im = 0;
1547  B1_im += gT10_re * b0_im;
1548  B1_im += gT10_im * b0_re;
1549  B1_im += gT11_re * b1_im;
1550  B1_im += gT11_im * b1_re;
1551  B1_im += gT12_re * b2_im;
1552  B1_im += gT12_im * b2_re;
1553 
1554  // multiply row 2
1555  spinorFloat A2_re = 0;
1556  A2_re += gT20_re * a0_re;
1557  A2_re -= gT20_im * a0_im;
1558  A2_re += gT21_re * a1_re;
1559  A2_re -= gT21_im * a1_im;
1560  A2_re += gT22_re * a2_re;
1561  A2_re -= gT22_im * a2_im;
1562  spinorFloat A2_im = 0;
1563  A2_im += gT20_re * a0_im;
1564  A2_im += gT20_im * a0_re;
1565  A2_im += gT21_re * a1_im;
1566  A2_im += gT21_im * a1_re;
1567  A2_im += gT22_re * a2_im;
1568  A2_im += gT22_im * a2_re;
1569  spinorFloat B2_re = 0;
1570  B2_re += gT20_re * b0_re;
1571  B2_re -= gT20_im * b0_im;
1572  B2_re += gT21_re * b1_re;
1573  B2_re -= gT21_im * b1_im;
1574  B2_re += gT22_re * b2_re;
1575  B2_re -= gT22_im * b2_im;
1576  spinorFloat B2_im = 0;
1577  B2_im += gT20_re * b0_im;
1578  B2_im += gT20_im * b0_re;
1579  B2_im += gT21_re * b1_im;
1580  B2_im += gT21_im * b1_re;
1581  B2_im += gT22_re * b2_im;
1582  B2_im += gT22_im * b2_re;
1583 
1584  o00_re += A0_re;
1585  o00_im += A0_im;
1586  o10_re += B0_re;
1587  o10_im += B0_im;
1588  o20_re -= A0_im;
1589  o20_im += A0_re;
1590  o30_re += B0_im;
1591  o30_im -= B0_re;
1592 
1593  o01_re += A1_re;
1594  o01_im += A1_im;
1595  o11_re += B1_re;
1596  o11_im += B1_im;
1597  o21_re -= A1_im;
1598  o21_im += A1_re;
1599  o31_re += B1_im;
1600  o31_im -= B1_re;
1601 
1602  o02_re += A2_re;
1603  o02_im += A2_im;
1604  o12_re += B2_re;
1605  o12_im += B2_im;
1606  o22_re -= A2_im;
1607  o22_im += A2_re;
1608  o32_re += B2_im;
1609  o32_im -= B2_re;
1610 
1611 }
1612 
1613 #ifdef MULTI_GPU
1614 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[3] || x4<X4m1)) ||
1615  (kernel_type == EXTERIOR_KERNEL_T && x4==X4m1) )
1616 #endif
1617 {
1618  // Projector P3+
1619  // 2 0 0 0
1620  // 0 2 0 0
1621  // 0 0 0 0
1622  // 0 0 0 0
1623 
1624 #ifdef MULTI_GPU
1625  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x4==X4m1 ? X-X4X3X2X1mX3X2X1 : X+X3X2X1) >> 1 :
1626  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
1627 #else
1628  const int sp_idx = (x4==X4m1 ? X-X4X3X2X1mX3X2X1 : X+X3X2X1) >> 1;
1629 #endif
1630 
1631  const int ga_idx = sid;
1632 
1633  if (gauge_fixed && ga_idx < X4X3X2X1hmX3X2X1h)
1634  {
1635  spinorFloat a0_re, a0_im;
1636  spinorFloat a1_re, a1_im;
1637  spinorFloat a2_re, a2_im;
1638  spinorFloat b0_re, b0_im;
1639  spinorFloat b1_re, b1_im;
1640  spinorFloat b2_re, b2_im;
1641 
1642 #ifdef MULTI_GPU
1643  if (kernel_type == INTERIOR_KERNEL) {
1644 #endif
1645 
1646  // read spinor from device memory
1647  READ_SPINOR_UP(SPINORTEX, sp_stride, sp_idx, sp_idx);
1648 
1649  // project spinor into half spinors
1650  a0_re = +2*i00_re;
1651  a0_im = +2*i00_im;
1652  a1_re = +2*i01_re;
1653  a1_im = +2*i01_im;
1654  a2_re = +2*i02_re;
1655  a2_im = +2*i02_im;
1656  b0_re = +2*i10_re;
1657  b0_im = +2*i10_im;
1658  b1_re = +2*i11_re;
1659  b1_im = +2*i11_im;
1660  b2_re = +2*i12_re;
1661  b2_im = +2*i12_im;
1662 
1663 #ifdef MULTI_GPU
1664  } else {
1665 
1666  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1667  const int t_proj_scale = TPROJSCALE;
1668 
1669  // read half spinor from device memory
1670  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
1671 
1672  a0_re = t_proj_scale*i00_re; a0_im = t_proj_scale*i00_im;
1673  a1_re = t_proj_scale*i01_re; a1_im = t_proj_scale*i01_im;
1674  a2_re = t_proj_scale*i02_re; a2_im = t_proj_scale*i02_im;
1675  b0_re = t_proj_scale*i10_re; b0_im = t_proj_scale*i10_im;
1676  b1_re = t_proj_scale*i11_re; b1_im = t_proj_scale*i11_im;
1677  b2_re = t_proj_scale*i12_re; b2_im = t_proj_scale*i12_im;
1678 
1679  }
1680 #endif // MULTI_GPU
1681 
1682  // identity gauge matrix
1683  spinorFloat A0_re = a0_re; spinorFloat A0_im = a0_im;
1684  spinorFloat B0_re = b0_re; spinorFloat B0_im = b0_im;
1685  spinorFloat A1_re = a1_re; spinorFloat A1_im = a1_im;
1686  spinorFloat B1_re = b1_re; spinorFloat B1_im = b1_im;
1687  spinorFloat A2_re = a2_re; spinorFloat A2_im = a2_im;
1688  spinorFloat B2_re = b2_re; spinorFloat B2_im = b2_im;
1689 
1690  o00_re += A0_re;
1691  o00_im += A0_im;
1692  o10_re += B0_re;
1693  o10_im += B0_im;
1694 
1695  o01_re += A1_re;
1696  o01_im += A1_im;
1697  o11_re += B1_re;
1698  o11_im += B1_im;
1699 
1700  o02_re += A2_re;
1701  o02_im += A2_im;
1702  o12_re += B2_re;
1703  o12_im += B2_im;
1704 
1705  } else {
1706  spinorFloat a0_re, a0_im;
1707  spinorFloat a1_re, a1_im;
1708  spinorFloat a2_re, a2_im;
1709  spinorFloat b0_re, b0_im;
1710  spinorFloat b1_re, b1_im;
1711  spinorFloat b2_re, b2_im;
1712 
1713 #ifdef MULTI_GPU
1714  if (kernel_type == INTERIOR_KERNEL) {
1715 #endif
1716 
1717  // read spinor from device memory
1718  READ_SPINOR_UP(SPINORTEX, sp_stride, sp_idx, sp_idx);
1719 
1720  // project spinor into half spinors
1721  a0_re = +2*i00_re;
1722  a0_im = +2*i00_im;
1723  a1_re = +2*i01_re;
1724  a1_im = +2*i01_im;
1725  a2_re = +2*i02_re;
1726  a2_im = +2*i02_im;
1727  b0_re = +2*i10_re;
1728  b0_im = +2*i10_im;
1729  b1_re = +2*i11_re;
1730  b1_im = +2*i11_im;
1731  b2_re = +2*i12_re;
1732  b2_im = +2*i12_im;
1733 
1734 #ifdef MULTI_GPU
1735  } else {
1736 
1737  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1738  const int t_proj_scale = TPROJSCALE;
1739 
1740  // read half spinor from device memory
1741  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
1742 
1743  a0_re = t_proj_scale*i00_re; a0_im = t_proj_scale*i00_im;
1744  a1_re = t_proj_scale*i01_re; a1_im = t_proj_scale*i01_im;
1745  a2_re = t_proj_scale*i02_re; a2_im = t_proj_scale*i02_im;
1746  b0_re = t_proj_scale*i10_re; b0_im = t_proj_scale*i10_im;
1747  b1_re = t_proj_scale*i11_re; b1_im = t_proj_scale*i11_im;
1748  b2_re = t_proj_scale*i12_re; b2_im = t_proj_scale*i12_im;
1749 
1750  }
1751 #endif // MULTI_GPU
1752 
1753  // read gauge matrix from device memory
1754  READ_GAUGE_MATRIX(G, GAUGE0TEX, 6, ga_idx, ga_stride);
1755 
1756  // reconstruct gauge matrix
1757  RECONSTRUCT_GAUGE_MATRIX(6);
1758 
1759  // multiply row 0
1760  spinorFloat A0_re = 0;
1761  A0_re += g00_re * a0_re;
1762  A0_re -= g00_im * a0_im;
1763  A0_re += g01_re * a1_re;
1764  A0_re -= g01_im * a1_im;
1765  A0_re += g02_re * a2_re;
1766  A0_re -= g02_im * a2_im;
1767  spinorFloat A0_im = 0;
1768  A0_im += g00_re * a0_im;
1769  A0_im += g00_im * a0_re;
1770  A0_im += g01_re * a1_im;
1771  A0_im += g01_im * a1_re;
1772  A0_im += g02_re * a2_im;
1773  A0_im += g02_im * a2_re;
1774  spinorFloat B0_re = 0;
1775  B0_re += g00_re * b0_re;
1776  B0_re -= g00_im * b0_im;
1777  B0_re += g01_re * b1_re;
1778  B0_re -= g01_im * b1_im;
1779  B0_re += g02_re * b2_re;
1780  B0_re -= g02_im * b2_im;
1781  spinorFloat B0_im = 0;
1782  B0_im += g00_re * b0_im;
1783  B0_im += g00_im * b0_re;
1784  B0_im += g01_re * b1_im;
1785  B0_im += g01_im * b1_re;
1786  B0_im += g02_re * b2_im;
1787  B0_im += g02_im * b2_re;
1788 
1789  // multiply row 1
1790  spinorFloat A1_re = 0;
1791  A1_re += g10_re * a0_re;
1792  A1_re -= g10_im * a0_im;
1793  A1_re += g11_re * a1_re;
1794  A1_re -= g11_im * a1_im;
1795  A1_re += g12_re * a2_re;
1796  A1_re -= g12_im * a2_im;
1797  spinorFloat A1_im = 0;
1798  A1_im += g10_re * a0_im;
1799  A1_im += g10_im * a0_re;
1800  A1_im += g11_re * a1_im;
1801  A1_im += g11_im * a1_re;
1802  A1_im += g12_re * a2_im;
1803  A1_im += g12_im * a2_re;
1804  spinorFloat B1_re = 0;
1805  B1_re += g10_re * b0_re;
1806  B1_re -= g10_im * b0_im;
1807  B1_re += g11_re * b1_re;
1808  B1_re -= g11_im * b1_im;
1809  B1_re += g12_re * b2_re;
1810  B1_re -= g12_im * b2_im;
1811  spinorFloat B1_im = 0;
1812  B1_im += g10_re * b0_im;
1813  B1_im += g10_im * b0_re;
1814  B1_im += g11_re * b1_im;
1815  B1_im += g11_im * b1_re;
1816  B1_im += g12_re * b2_im;
1817  B1_im += g12_im * b2_re;
1818 
1819  // multiply row 2
1820  spinorFloat A2_re = 0;
1821  A2_re += g20_re * a0_re;
1822  A2_re -= g20_im * a0_im;
1823  A2_re += g21_re * a1_re;
1824  A2_re -= g21_im * a1_im;
1825  A2_re += g22_re * a2_re;
1826  A2_re -= g22_im * a2_im;
1827  spinorFloat A2_im = 0;
1828  A2_im += g20_re * a0_im;
1829  A2_im += g20_im * a0_re;
1830  A2_im += g21_re * a1_im;
1831  A2_im += g21_im * a1_re;
1832  A2_im += g22_re * a2_im;
1833  A2_im += g22_im * a2_re;
1834  spinorFloat B2_re = 0;
1835  B2_re += g20_re * b0_re;
1836  B2_re -= g20_im * b0_im;
1837  B2_re += g21_re * b1_re;
1838  B2_re -= g21_im * b1_im;
1839  B2_re += g22_re * b2_re;
1840  B2_re -= g22_im * b2_im;
1841  spinorFloat B2_im = 0;
1842  B2_im += g20_re * b0_im;
1843  B2_im += g20_im * b0_re;
1844  B2_im += g21_re * b1_im;
1845  B2_im += g21_im * b1_re;
1846  B2_im += g22_re * b2_im;
1847  B2_im += g22_im * b2_re;
1848 
1849  o00_re += A0_re;
1850  o00_im += A0_im;
1851  o10_re += B0_re;
1852  o10_im += B0_im;
1853 
1854  o01_re += A1_re;
1855  o01_im += A1_im;
1856  o11_re += B1_re;
1857  o11_im += B1_im;
1858 
1859  o02_re += A2_re;
1860  o02_im += A2_im;
1861  o12_re += B2_re;
1862  o12_im += B2_im;
1863 
1864  }
1865 }
1866 
1867 #ifdef MULTI_GPU
1868 if ( (kernel_type == INTERIOR_KERNEL && (!param.ghostDim[3] || x4>0)) ||
1869  (kernel_type == EXTERIOR_KERNEL_T && x4==0) )
1870 #endif
1871 {
1872  // Projector P3-
1873  // 0 0 0 0
1874  // 0 0 0 0
1875  // 0 0 2 0
1876  // 0 0 0 2
1877 
1878 #ifdef MULTI_GPU
1879  const int sp_idx = (kernel_type == INTERIOR_KERNEL) ? (x4==0 ? X+X4X3X2X1mX3X2X1 : X-X3X2X1) >> 1 :
1880  face_idx + param.ghostOffset[static_cast<int>(kernel_type)];
1881 #else
1882  const int sp_idx = (x4==0 ? X+X4X3X2X1mX3X2X1 : X-X3X2X1) >> 1;
1883 #endif
1884 
1885 #ifdef MULTI_GPU
1886  const int ga_idx = ((kernel_type == INTERIOR_KERNEL) ? sp_idx : Vh+face_idx);
1887 #else
1888  const int ga_idx = sp_idx;
1889 #endif
1890 
1891  if (gauge_fixed && ga_idx < X4X3X2X1hmX3X2X1h)
1892  {
1893  spinorFloat a0_re, a0_im;
1894  spinorFloat a1_re, a1_im;
1895  spinorFloat a2_re, a2_im;
1896  spinorFloat b0_re, b0_im;
1897  spinorFloat b1_re, b1_im;
1898  spinorFloat b2_re, b2_im;
1899 
1900 #ifdef MULTI_GPU
1901  if (kernel_type == INTERIOR_KERNEL) {
1902 #endif
1903 
1904  // read spinor from device memory
1905  READ_SPINOR_DOWN(SPINORTEX, sp_stride, sp_idx, sp_idx);
1906 
1907  // project spinor into half spinors
1908  a0_re = +2*i20_re;
1909  a0_im = +2*i20_im;
1910  a1_re = +2*i21_re;
1911  a1_im = +2*i21_im;
1912  a2_re = +2*i22_re;
1913  a2_im = +2*i22_im;
1914  b0_re = +2*i30_re;
1915  b0_im = +2*i30_im;
1916  b1_re = +2*i31_re;
1917  b1_im = +2*i31_im;
1918  b2_re = +2*i32_re;
1919  b2_im = +2*i32_im;
1920 
1921 #ifdef MULTI_GPU
1922  } else {
1923 
1924  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1925  const int t_proj_scale = TPROJSCALE;
1926 
1927  // read half spinor from device memory
1928  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
1929 
1930  a0_re = t_proj_scale*i00_re; a0_im = t_proj_scale*i00_im;
1931  a1_re = t_proj_scale*i01_re; a1_im = t_proj_scale*i01_im;
1932  a2_re = t_proj_scale*i02_re; a2_im = t_proj_scale*i02_im;
1933  b0_re = t_proj_scale*i10_re; b0_im = t_proj_scale*i10_im;
1934  b1_re = t_proj_scale*i11_re; b1_im = t_proj_scale*i11_im;
1935  b2_re = t_proj_scale*i12_re; b2_im = t_proj_scale*i12_im;
1936 
1937  }
1938 #endif // MULTI_GPU
1939 
1940  // identity gauge matrix
1941  spinorFloat A0_re = a0_re; spinorFloat A0_im = a0_im;
1942  spinorFloat B0_re = b0_re; spinorFloat B0_im = b0_im;
1943  spinorFloat A1_re = a1_re; spinorFloat A1_im = a1_im;
1944  spinorFloat B1_re = b1_re; spinorFloat B1_im = b1_im;
1945  spinorFloat A2_re = a2_re; spinorFloat A2_im = a2_im;
1946  spinorFloat B2_re = b2_re; spinorFloat B2_im = b2_im;
1947 
1948  o20_re += A0_re;
1949  o20_im += A0_im;
1950  o30_re += B0_re;
1951  o30_im += B0_im;
1952 
1953  o21_re += A1_re;
1954  o21_im += A1_im;
1955  o31_re += B1_re;
1956  o31_im += B1_im;
1957 
1958  o22_re += A2_re;
1959  o22_im += A2_im;
1960  o32_re += B2_re;
1961  o32_im += B2_im;
1962 
1963  } else {
1964  spinorFloat a0_re, a0_im;
1965  spinorFloat a1_re, a1_im;
1966  spinorFloat a2_re, a2_im;
1967  spinorFloat b0_re, b0_im;
1968  spinorFloat b1_re, b1_im;
1969  spinorFloat b2_re, b2_im;
1970 
1971 #ifdef MULTI_GPU
1972  if (kernel_type == INTERIOR_KERNEL) {
1973 #endif
1974 
1975  // read spinor from device memory
1976  READ_SPINOR_DOWN(SPINORTEX, sp_stride, sp_idx, sp_idx);
1977 
1978  // project spinor into half spinors
1979  a0_re = +2*i20_re;
1980  a0_im = +2*i20_im;
1981  a1_re = +2*i21_re;
1982  a1_im = +2*i21_im;
1983  a2_re = +2*i22_re;
1984  a2_im = +2*i22_im;
1985  b0_re = +2*i30_re;
1986  b0_im = +2*i30_im;
1987  b1_re = +2*i31_re;
1988  b1_im = +2*i31_im;
1989  b2_re = +2*i32_re;
1990  b2_im = +2*i32_im;
1991 
1992 #ifdef MULTI_GPU
1993  } else {
1994 
1995  const int sp_stride_pad = ghostFace[static_cast<int>(kernel_type)];
1996  const int t_proj_scale = TPROJSCALE;
1997 
1998  // read half spinor from device memory
1999  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
2000 
2001  a0_re = t_proj_scale*i00_re; a0_im = t_proj_scale*i00_im;
2002  a1_re = t_proj_scale*i01_re; a1_im = t_proj_scale*i01_im;
2003  a2_re = t_proj_scale*i02_re; a2_im = t_proj_scale*i02_im;
2004  b0_re = t_proj_scale*i10_re; b0_im = t_proj_scale*i10_im;
2005  b1_re = t_proj_scale*i11_re; b1_im = t_proj_scale*i11_im;
2006  b2_re = t_proj_scale*i12_re; b2_im = t_proj_scale*i12_im;
2007 
2008  }
2009 #endif // MULTI_GPU
2010 
2011  // read gauge matrix from device memory
2012  READ_GAUGE_MATRIX(G, GAUGE1TEX, 7, ga_idx, ga_stride);
2013 
2014  // reconstruct gauge matrix
2015  RECONSTRUCT_GAUGE_MATRIX(7);
2016 
2017  // multiply row 0
2018  spinorFloat A0_re = 0;
2019  A0_re += gT00_re * a0_re;
2020  A0_re -= gT00_im * a0_im;
2021  A0_re += gT01_re * a1_re;
2022  A0_re -= gT01_im * a1_im;
2023  A0_re += gT02_re * a2_re;
2024  A0_re -= gT02_im * a2_im;
2025  spinorFloat A0_im = 0;
2026  A0_im += gT00_re * a0_im;
2027  A0_im += gT00_im * a0_re;
2028  A0_im += gT01_re * a1_im;
2029  A0_im += gT01_im * a1_re;
2030  A0_im += gT02_re * a2_im;
2031  A0_im += gT02_im * a2_re;
2032  spinorFloat B0_re = 0;
2033  B0_re += gT00_re * b0_re;
2034  B0_re -= gT00_im * b0_im;
2035  B0_re += gT01_re * b1_re;
2036  B0_re -= gT01_im * b1_im;
2037  B0_re += gT02_re * b2_re;
2038  B0_re -= gT02_im * b2_im;
2039  spinorFloat B0_im = 0;
2040  B0_im += gT00_re * b0_im;
2041  B0_im += gT00_im * b0_re;
2042  B0_im += gT01_re * b1_im;
2043  B0_im += gT01_im * b1_re;
2044  B0_im += gT02_re * b2_im;
2045  B0_im += gT02_im * b2_re;
2046 
2047  // multiply row 1
2048  spinorFloat A1_re = 0;
2049  A1_re += gT10_re * a0_re;
2050  A1_re -= gT10_im * a0_im;
2051  A1_re += gT11_re * a1_re;
2052  A1_re -= gT11_im * a1_im;
2053  A1_re += gT12_re * a2_re;
2054  A1_re -= gT12_im * a2_im;
2055  spinorFloat A1_im = 0;
2056  A1_im += gT10_re * a0_im;
2057  A1_im += gT10_im * a0_re;
2058  A1_im += gT11_re * a1_im;
2059  A1_im += gT11_im * a1_re;
2060  A1_im += gT12_re * a2_im;
2061  A1_im += gT12_im * a2_re;
2062  spinorFloat B1_re = 0;
2063  B1_re += gT10_re * b0_re;
2064  B1_re -= gT10_im * b0_im;
2065  B1_re += gT11_re * b1_re;
2066  B1_re -= gT11_im * b1_im;
2067  B1_re += gT12_re * b2_re;
2068  B1_re -= gT12_im * b2_im;
2069  spinorFloat B1_im = 0;
2070  B1_im += gT10_re * b0_im;
2071  B1_im += gT10_im * b0_re;
2072  B1_im += gT11_re * b1_im;
2073  B1_im += gT11_im * b1_re;
2074  B1_im += gT12_re * b2_im;
2075  B1_im += gT12_im * b2_re;
2076 
2077  // multiply row 2
2078  spinorFloat A2_re = 0;
2079  A2_re += gT20_re * a0_re;
2080  A2_re -= gT20_im * a0_im;
2081  A2_re += gT21_re * a1_re;
2082  A2_re -= gT21_im * a1_im;
2083  A2_re += gT22_re * a2_re;
2084  A2_re -= gT22_im * a2_im;
2085  spinorFloat A2_im = 0;
2086  A2_im += gT20_re * a0_im;
2087  A2_im += gT20_im * a0_re;
2088  A2_im += gT21_re * a1_im;
2089  A2_im += gT21_im * a1_re;
2090  A2_im += gT22_re * a2_im;
2091  A2_im += gT22_im * a2_re;
2092  spinorFloat B2_re = 0;
2093  B2_re += gT20_re * b0_re;
2094  B2_re -= gT20_im * b0_im;
2095  B2_re += gT21_re * b1_re;
2096  B2_re -= gT21_im * b1_im;
2097  B2_re += gT22_re * b2_re;
2098  B2_re -= gT22_im * b2_im;
2099  spinorFloat B2_im = 0;
2100  B2_im += gT20_re * b0_im;
2101  B2_im += gT20_im * b0_re;
2102  B2_im += gT21_re * b1_im;
2103  B2_im += gT21_im * b1_re;
2104  B2_im += gT22_re * b2_im;
2105  B2_im += gT22_im * b2_re;
2106 
2107  o20_re += A0_re;
2108  o20_im += A0_im;
2109  o30_re += B0_re;
2110  o30_im += B0_im;
2111 
2112  o21_re += A1_re;
2113  o21_im += A1_im;
2114  o31_re += B1_re;
2115  o31_im += B1_im;
2116 
2117  o22_re += A2_re;
2118  o22_im += A2_im;
2119  o32_re += B2_re;
2120  o32_im += B2_im;
2121 
2122  }
2123 }
2124 
2125 #if defined MULTI_GPU && (defined DSLASH_XPAY || defined DSLASH_CLOVER)
2126 
2127 int incomplete = 0; // Have all 8 contributions been computed for this site?
2128 
2129 switch(kernel_type) { // intentional fall-through
2130 case INTERIOR_KERNEL:
2131  incomplete = incomplete || (param.commDim[3] && (x4==0 || x4==X4m1));
2132 case EXTERIOR_KERNEL_T:
2133  incomplete = incomplete || (param.commDim[2] && (x3==0 || x3==X3m1));
2134 case EXTERIOR_KERNEL_Z:
2135  incomplete = incomplete || (param.commDim[1] && (x2==0 || x2==X2m1));
2136 case EXTERIOR_KERNEL_Y:
2137  incomplete = incomplete || (param.commDim[0] && (x1==0 || x1==X1m1));
2138 }
2139 
2140 if (!incomplete)
2141 #endif // MULTI_GPU
2142 {
2143 #ifdef DSLASH_CLOVER
2144 
2145  // change to chiral basis
2146  {
2147  spinorFloat a00_re = -o10_re - o30_re;
2148  spinorFloat a00_im = -o10_im - o30_im;
2149  spinorFloat a10_re = o00_re + o20_re;
2150  spinorFloat a10_im = o00_im + o20_im;
2151  spinorFloat a20_re = -o10_re + o30_re;
2152  spinorFloat a20_im = -o10_im + o30_im;
2153  spinorFloat a30_re = o00_re - o20_re;
2154  spinorFloat a30_im = o00_im - o20_im;
2155 
2156  o00_re = a00_re; o00_im = a00_im;
2157  o10_re = a10_re; o10_im = a10_im;
2158  o20_re = a20_re; o20_im = a20_im;
2159  o30_re = a30_re; o30_im = a30_im;
2160  }
2161 
2162  {
2163  spinorFloat a01_re = -o11_re - o31_re;
2164  spinorFloat a01_im = -o11_im - o31_im;
2165  spinorFloat a11_re = o01_re + o21_re;
2166  spinorFloat a11_im = o01_im + o21_im;
2167  spinorFloat a21_re = -o11_re + o31_re;
2168  spinorFloat a21_im = -o11_im + o31_im;
2169  spinorFloat a31_re = o01_re - o21_re;
2170  spinorFloat a31_im = o01_im - o21_im;
2171 
2172  o01_re = a01_re; o01_im = a01_im;
2173  o11_re = a11_re; o11_im = a11_im;
2174  o21_re = a21_re; o21_im = a21_im;
2175  o31_re = a31_re; o31_im = a31_im;
2176  }
2177 
2178  {
2179  spinorFloat a02_re = -o12_re - o32_re;
2180  spinorFloat a02_im = -o12_im - o32_im;
2181  spinorFloat a12_re = o02_re + o22_re;
2182  spinorFloat a12_im = o02_im + o22_im;
2183  spinorFloat a22_re = -o12_re + o32_re;
2184  spinorFloat a22_im = -o12_im + o32_im;
2185  spinorFloat a32_re = o02_re - o22_re;
2186  spinorFloat a32_im = o02_im - o22_im;
2187 
2188  o02_re = a02_re; o02_im = a02_im;
2189  o12_re = a12_re; o12_im = a12_im;
2190  o22_re = a22_re; o22_im = a22_im;
2191  o32_re = a32_re; o32_im = a32_im;
2192  }
2193 
2194  // apply first chiral block
2195  {
2196  READ_CLOVER(CLOVERTEX, 0)
2197 
2198  spinorFloat a00_re = 0; spinorFloat a00_im = 0;
2199  spinorFloat a01_re = 0; spinorFloat a01_im = 0;
2200  spinorFloat a02_re = 0; spinorFloat a02_im = 0;
2201  spinorFloat a10_re = 0; spinorFloat a10_im = 0;
2202  spinorFloat a11_re = 0; spinorFloat a11_im = 0;
2203  spinorFloat a12_re = 0; spinorFloat a12_im = 0;
2204 
2205  a00_re += c00_00_re * o00_re;
2206  a00_im += c00_00_re * o00_im;
2207  a00_re += c00_01_re * o01_re;
2208  a00_re -= c00_01_im * o01_im;
2209  a00_im += c00_01_re * o01_im;
2210  a00_im += c00_01_im * o01_re;
2211  a00_re += c00_02_re * o02_re;
2212  a00_re -= c00_02_im * o02_im;
2213  a00_im += c00_02_re * o02_im;
2214  a00_im += c00_02_im * o02_re;
2215  a00_re += c00_10_re * o10_re;
2216  a00_re -= c00_10_im * o10_im;
2217  a00_im += c00_10_re * o10_im;
2218  a00_im += c00_10_im * o10_re;
2219  a00_re += c00_11_re * o11_re;
2220  a00_re -= c00_11_im * o11_im;
2221  a00_im += c00_11_re * o11_im;
2222  a00_im += c00_11_im * o11_re;
2223  a00_re += c00_12_re * o12_re;
2224  a00_re -= c00_12_im * o12_im;
2225  a00_im += c00_12_re * o12_im;
2226  a00_im += c00_12_im * o12_re;
2227 
2228  a01_re += c01_00_re * o00_re;
2229  a01_re -= c01_00_im * o00_im;
2230  a01_im += c01_00_re * o00_im;
2231  a01_im += c01_00_im * o00_re;
2232  a01_re += c01_01_re * o01_re;
2233  a01_im += c01_01_re * o01_im;
2234  a01_re += c01_02_re * o02_re;
2235  a01_re -= c01_02_im * o02_im;
2236  a01_im += c01_02_re * o02_im;
2237  a01_im += c01_02_im * o02_re;
2238  a01_re += c01_10_re * o10_re;
2239  a01_re -= c01_10_im * o10_im;
2240  a01_im += c01_10_re * o10_im;
2241  a01_im += c01_10_im * o10_re;
2242  a01_re += c01_11_re * o11_re;
2243  a01_re -= c01_11_im * o11_im;
2244  a01_im += c01_11_re * o11_im;
2245  a01_im += c01_11_im * o11_re;
2246  a01_re += c01_12_re * o12_re;
2247  a01_re -= c01_12_im * o12_im;
2248  a01_im += c01_12_re * o12_im;
2249  a01_im += c01_12_im * o12_re;
2250 
2251  a02_re += c02_00_re * o00_re;
2252  a02_re -= c02_00_im * o00_im;
2253  a02_im += c02_00_re * o00_im;
2254  a02_im += c02_00_im * o00_re;
2255  a02_re += c02_01_re * o01_re;
2256  a02_re -= c02_01_im * o01_im;
2257  a02_im += c02_01_re * o01_im;
2258  a02_im += c02_01_im * o01_re;
2259  a02_re += c02_02_re * o02_re;
2260  a02_im += c02_02_re * o02_im;
2261  a02_re += c02_10_re * o10_re;
2262  a02_re -= c02_10_im * o10_im;
2263  a02_im += c02_10_re * o10_im;
2264  a02_im += c02_10_im * o10_re;
2265  a02_re += c02_11_re * o11_re;
2266  a02_re -= c02_11_im * o11_im;
2267  a02_im += c02_11_re * o11_im;
2268  a02_im += c02_11_im * o11_re;
2269  a02_re += c02_12_re * o12_re;
2270  a02_re -= c02_12_im * o12_im;
2271  a02_im += c02_12_re * o12_im;
2272  a02_im += c02_12_im * o12_re;
2273 
2274  a10_re += c10_00_re * o00_re;
2275  a10_re -= c10_00_im * o00_im;
2276  a10_im += c10_00_re * o00_im;
2277  a10_im += c10_00_im * o00_re;
2278  a10_re += c10_01_re * o01_re;
2279  a10_re -= c10_01_im * o01_im;
2280  a10_im += c10_01_re * o01_im;
2281  a10_im += c10_01_im * o01_re;
2282  a10_re += c10_02_re * o02_re;
2283  a10_re -= c10_02_im * o02_im;
2284  a10_im += c10_02_re * o02_im;
2285  a10_im += c10_02_im * o02_re;
2286  a10_re += c10_10_re * o10_re;
2287  a10_im += c10_10_re * o10_im;
2288  a10_re += c10_11_re * o11_re;
2289  a10_re -= c10_11_im * o11_im;
2290  a10_im += c10_11_re * o11_im;
2291  a10_im += c10_11_im * o11_re;
2292  a10_re += c10_12_re * o12_re;
2293  a10_re -= c10_12_im * o12_im;
2294  a10_im += c10_12_re * o12_im;
2295  a10_im += c10_12_im * o12_re;
2296 
2297  a11_re += c11_00_re * o00_re;
2298  a11_re -= c11_00_im * o00_im;
2299  a11_im += c11_00_re * o00_im;
2300  a11_im += c11_00_im * o00_re;
2301  a11_re += c11_01_re * o01_re;
2302  a11_re -= c11_01_im * o01_im;
2303  a11_im += c11_01_re * o01_im;
2304  a11_im += c11_01_im * o01_re;
2305  a11_re += c11_02_re * o02_re;
2306  a11_re -= c11_02_im * o02_im;
2307  a11_im += c11_02_re * o02_im;
2308  a11_im += c11_02_im * o02_re;
2309  a11_re += c11_10_re * o10_re;
2310  a11_re -= c11_10_im * o10_im;
2311  a11_im += c11_10_re * o10_im;
2312  a11_im += c11_10_im * o10_re;
2313  a11_re += c11_11_re * o11_re;
2314  a11_im += c11_11_re * o11_im;
2315  a11_re += c11_12_re * o12_re;
2316  a11_re -= c11_12_im * o12_im;
2317  a11_im += c11_12_re * o12_im;
2318  a11_im += c11_12_im * o12_re;
2319 
2320  a12_re += c12_00_re * o00_re;
2321  a12_re -= c12_00_im * o00_im;
2322  a12_im += c12_00_re * o00_im;
2323  a12_im += c12_00_im * o00_re;
2324  a12_re += c12_01_re * o01_re;
2325  a12_re -= c12_01_im * o01_im;
2326  a12_im += c12_01_re * o01_im;
2327  a12_im += c12_01_im * o01_re;
2328  a12_re += c12_02_re * o02_re;
2329  a12_re -= c12_02_im * o02_im;
2330  a12_im += c12_02_re * o02_im;
2331  a12_im += c12_02_im * o02_re;
2332  a12_re += c12_10_re * o10_re;
2333  a12_re -= c12_10_im * o10_im;
2334  a12_im += c12_10_re * o10_im;
2335  a12_im += c12_10_im * o10_re;
2336  a12_re += c12_11_re * o11_re;
2337  a12_re -= c12_11_im * o11_im;
2338  a12_im += c12_11_re * o11_im;
2339  a12_im += c12_11_im * o11_re;
2340  a12_re += c12_12_re * o12_re;
2341  a12_im += c12_12_re * o12_im;
2342 
2343  o00_re = a00_re; o00_im = a00_im;
2344  o01_re = a01_re; o01_im = a01_im;
2345  o02_re = a02_re; o02_im = a02_im;
2346  o10_re = a10_re; o10_im = a10_im;
2347  o11_re = a11_re; o11_im = a11_im;
2348  o12_re = a12_re; o12_im = a12_im;
2349 
2350  }
2351 
2352  // apply second chiral block
2353  {
2354  READ_CLOVER(CLOVERTEX, 1)
2355 
2356  spinorFloat a20_re = 0; spinorFloat a20_im = 0;
2357  spinorFloat a21_re = 0; spinorFloat a21_im = 0;
2358  spinorFloat a22_re = 0; spinorFloat a22_im = 0;
2359  spinorFloat a30_re = 0; spinorFloat a30_im = 0;
2360  spinorFloat a31_re = 0; spinorFloat a31_im = 0;
2361  spinorFloat a32_re = 0; spinorFloat a32_im = 0;
2362 
2363  a20_re += c20_20_re * o20_re;
2364  a20_im += c20_20_re * o20_im;
2365  a20_re += c20_21_re * o21_re;
2366  a20_re -= c20_21_im * o21_im;
2367  a20_im += c20_21_re * o21_im;
2368  a20_im += c20_21_im * o21_re;
2369  a20_re += c20_22_re * o22_re;
2370  a20_re -= c20_22_im * o22_im;
2371  a20_im += c20_22_re * o22_im;
2372  a20_im += c20_22_im * o22_re;
2373  a20_re += c20_30_re * o30_re;
2374  a20_re -= c20_30_im * o30_im;
2375  a20_im += c20_30_re * o30_im;
2376  a20_im += c20_30_im * o30_re;
2377  a20_re += c20_31_re * o31_re;
2378  a20_re -= c20_31_im * o31_im;
2379  a20_im += c20_31_re * o31_im;
2380  a20_im += c20_31_im * o31_re;
2381  a20_re += c20_32_re * o32_re;
2382  a20_re -= c20_32_im * o32_im;
2383  a20_im += c20_32_re * o32_im;
2384  a20_im += c20_32_im * o32_re;
2385 
2386  a21_re += c21_20_re * o20_re;
2387  a21_re -= c21_20_im * o20_im;
2388  a21_im += c21_20_re * o20_im;
2389  a21_im += c21_20_im * o20_re;
2390  a21_re += c21_21_re * o21_re;
2391  a21_im += c21_21_re * o21_im;
2392  a21_re += c21_22_re * o22_re;
2393  a21_re -= c21_22_im * o22_im;
2394  a21_im += c21_22_re * o22_im;
2395  a21_im += c21_22_im * o22_re;
2396  a21_re += c21_30_re * o30_re;
2397  a21_re -= c21_30_im * o30_im;
2398  a21_im += c21_30_re * o30_im;
2399  a21_im += c21_30_im * o30_re;
2400  a21_re += c21_31_re * o31_re;
2401  a21_re -= c21_31_im * o31_im;
2402  a21_im += c21_31_re * o31_im;
2403  a21_im += c21_31_im * o31_re;
2404  a21_re += c21_32_re * o32_re;
2405  a21_re -= c21_32_im * o32_im;
2406  a21_im += c21_32_re * o32_im;
2407  a21_im += c21_32_im * o32_re;
2408 
2409  a22_re += c22_20_re * o20_re;
2410  a22_re -= c22_20_im * o20_im;
2411  a22_im += c22_20_re * o20_im;
2412  a22_im += c22_20_im * o20_re;
2413  a22_re += c22_21_re * o21_re;
2414  a22_re -= c22_21_im * o21_im;
2415  a22_im += c22_21_re * o21_im;
2416  a22_im += c22_21_im * o21_re;
2417  a22_re += c22_22_re * o22_re;
2418  a22_im += c22_22_re * o22_im;
2419  a22_re += c22_30_re * o30_re;
2420  a22_re -= c22_30_im * o30_im;
2421  a22_im += c22_30_re * o30_im;
2422  a22_im += c22_30_im * o30_re;
2423  a22_re += c22_31_re * o31_re;
2424  a22_re -= c22_31_im * o31_im;
2425  a22_im += c22_31_re * o31_im;
2426  a22_im += c22_31_im * o31_re;
2427  a22_re += c22_32_re * o32_re;
2428  a22_re -= c22_32_im * o32_im;
2429  a22_im += c22_32_re * o32_im;
2430  a22_im += c22_32_im * o32_re;
2431 
2432  a30_re += c30_20_re * o20_re;
2433  a30_re -= c30_20_im * o20_im;
2434  a30_im += c30_20_re * o20_im;
2435  a30_im += c30_20_im * o20_re;
2436  a30_re += c30_21_re * o21_re;
2437  a30_re -= c30_21_im * o21_im;
2438  a30_im += c30_21_re * o21_im;
2439  a30_im += c30_21_im * o21_re;
2440  a30_re += c30_22_re * o22_re;
2441  a30_re -= c30_22_im * o22_im;
2442  a30_im += c30_22_re * o22_im;
2443  a30_im += c30_22_im * o22_re;
2444  a30_re += c30_30_re * o30_re;
2445  a30_im += c30_30_re * o30_im;
2446  a30_re += c30_31_re * o31_re;
2447  a30_re -= c30_31_im * o31_im;
2448  a30_im += c30_31_re * o31_im;
2449  a30_im += c30_31_im * o31_re;
2450  a30_re += c30_32_re * o32_re;
2451  a30_re -= c30_32_im * o32_im;
2452  a30_im += c30_32_re * o32_im;
2453  a30_im += c30_32_im * o32_re;
2454 
2455  a31_re += c31_20_re * o20_re;
2456  a31_re -= c31_20_im * o20_im;
2457  a31_im += c31_20_re * o20_im;
2458  a31_im += c31_20_im * o20_re;
2459  a31_re += c31_21_re * o21_re;
2460  a31_re -= c31_21_im * o21_im;
2461  a31_im += c31_21_re * o21_im;
2462  a31_im += c31_21_im * o21_re;
2463  a31_re += c31_22_re * o22_re;
2464  a31_re -= c31_22_im * o22_im;
2465  a31_im += c31_22_re * o22_im;
2466  a31_im += c31_22_im * o22_re;
2467  a31_re += c31_30_re * o30_re;
2468  a31_re -= c31_30_im * o30_im;
2469  a31_im += c31_30_re * o30_im;
2470  a31_im += c31_30_im * o30_re;
2471  a31_re += c31_31_re * o31_re;
2472  a31_im += c31_31_re * o31_im;
2473  a31_re += c31_32_re * o32_re;
2474  a31_re -= c31_32_im * o32_im;
2475  a31_im += c31_32_re * o32_im;
2476  a31_im += c31_32_im * o32_re;
2477 
2478  a32_re += c32_20_re * o20_re;
2479  a32_re -= c32_20_im * o20_im;
2480  a32_im += c32_20_re * o20_im;
2481  a32_im += c32_20_im * o20_re;
2482  a32_re += c32_21_re * o21_re;
2483  a32_re -= c32_21_im * o21_im;
2484  a32_im += c32_21_re * o21_im;
2485  a32_im += c32_21_im * o21_re;
2486  a32_re += c32_22_re * o22_re;
2487  a32_re -= c32_22_im * o22_im;
2488  a32_im += c32_22_re * o22_im;
2489  a32_im += c32_22_im * o22_re;
2490  a32_re += c32_30_re * o30_re;
2491  a32_re -= c32_30_im * o30_im;
2492  a32_im += c32_30_re * o30_im;
2493  a32_im += c32_30_im * o30_re;
2494  a32_re += c32_31_re * o31_re;
2495  a32_re -= c32_31_im * o31_im;
2496  a32_im += c32_31_re * o31_im;
2497  a32_im += c32_31_im * o31_re;
2498  a32_re += c32_32_re * o32_re;
2499  a32_im += c32_32_re * o32_im;
2500 
2501  o20_re = a20_re; o20_im = a20_im;
2502  o21_re = a21_re; o21_im = a21_im;
2503  o22_re = a22_re; o22_im = a22_im;
2504  o30_re = a30_re; o30_im = a30_im;
2505  o31_re = a31_re; o31_im = a31_im;
2506  o32_re = a32_re; o32_im = a32_im;
2507 
2508  }
2509 
2510  // change back from chiral basis
2511  // (note: required factor of 1/2 is included in clover term normalization)
2512  {
2513  spinorFloat a00_re = o10_re + o30_re;
2514  spinorFloat a00_im = o10_im + o30_im;
2515  spinorFloat a10_re = -o00_re - o20_re;
2516  spinorFloat a10_im = -o00_im - o20_im;
2517  spinorFloat a20_re = o10_re - o30_re;
2518  spinorFloat a20_im = o10_im - o30_im;
2519  spinorFloat a30_re = -o00_re + o20_re;
2520  spinorFloat a30_im = -o00_im + o20_im;
2521 
2522  o00_re = a00_re; o00_im = a00_im;
2523  o10_re = a10_re; o10_im = a10_im;
2524  o20_re = a20_re; o20_im = a20_im;
2525  o30_re = a30_re; o30_im = a30_im;
2526  }
2527 
2528  {
2529  spinorFloat a01_re = o11_re + o31_re;
2530  spinorFloat a01_im = o11_im + o31_im;
2531  spinorFloat a11_re = -o01_re - o21_re;
2532  spinorFloat a11_im = -o01_im - o21_im;
2533  spinorFloat a21_re = o11_re - o31_re;
2534  spinorFloat a21_im = o11_im - o31_im;
2535  spinorFloat a31_re = -o01_re + o21_re;
2536  spinorFloat a31_im = -o01_im + o21_im;
2537 
2538  o01_re = a01_re; o01_im = a01_im;
2539  o11_re = a11_re; o11_im = a11_im;
2540  o21_re = a21_re; o21_im = a21_im;
2541  o31_re = a31_re; o31_im = a31_im;
2542  }
2543 
2544  {
2545  spinorFloat a02_re = o12_re + o32_re;
2546  spinorFloat a02_im = o12_im + o32_im;
2547  spinorFloat a12_re = -o02_re - o22_re;
2548  spinorFloat a12_im = -o02_im - o22_im;
2549  spinorFloat a22_re = o12_re - o32_re;
2550  spinorFloat a22_im = o12_im - o32_im;
2551  spinorFloat a32_re = -o02_re + o22_re;
2552  spinorFloat a32_im = -o02_im + o22_im;
2553 
2554  o02_re = a02_re; o02_im = a02_im;
2555  o12_re = a12_re; o12_im = a12_im;
2556  o22_re = a22_re; o22_im = a22_im;
2557  o32_re = a32_re; o32_im = a32_im;
2558  }
2559 
2560 #endif // DSLASH_CLOVER
2561 
2562 #ifdef DSLASH_XPAY
2563 
2564  READ_ACCUM(ACCUMTEX, sp_stride)
2565 
2566  o00_re = a*o00_re+acc00_re;
2567  o00_im = a*o00_im+acc00_im;
2568  o01_re = a*o01_re+acc01_re;
2569  o01_im = a*o01_im+acc01_im;
2570  o02_re = a*o02_re+acc02_re;
2571  o02_im = a*o02_im+acc02_im;
2572  o10_re = a*o10_re+acc10_re;
2573  o10_im = a*o10_im+acc10_im;
2574  o11_re = a*o11_re+acc11_re;
2575  o11_im = a*o11_im+acc11_im;
2576  o12_re = a*o12_re+acc12_re;
2577  o12_im = a*o12_im+acc12_im;
2578  o20_re = a*o20_re+acc20_re;
2579  o20_im = a*o20_im+acc20_im;
2580  o21_re = a*o21_re+acc21_re;
2581  o21_im = a*o21_im+acc21_im;
2582  o22_re = a*o22_re+acc22_re;
2583  o22_im = a*o22_im+acc22_im;
2584  o30_re = a*o30_re+acc30_re;
2585  o30_im = a*o30_im+acc30_im;
2586  o31_re = a*o31_re+acc31_re;
2587  o31_im = a*o31_im+acc31_im;
2588  o32_re = a*o32_re+acc32_re;
2589  o32_im = a*o32_im+acc32_im;
2590 #endif // DSLASH_XPAY
2591 }
2592 
2593 // write spinor field back to device memory
2594 WRITE_SPINOR(sp_stride);
2595 
2596 // undefine to prevent warning when precision is changed
2597 #undef spinorFloat
2598 #undef g00_re
2599 #undef g00_im
2600 #undef g01_re
2601 #undef g01_im
2602 #undef g02_re
2603 #undef g02_im
2604 #undef g10_re
2605 #undef g10_im
2606 #undef g11_re
2607 #undef g11_im
2608 #undef g12_re
2609 #undef g12_im
2610 #undef g20_re
2611 #undef g20_im
2612 #undef g21_re
2613 #undef g21_im
2614 #undef g22_re
2615 #undef g22_im
2616 
2617 #undef i00_re
2618 #undef i00_im
2619 #undef i01_re
2620 #undef i01_im
2621 #undef i02_re
2622 #undef i02_im
2623 #undef i10_re
2624 #undef i10_im
2625 #undef i11_re
2626 #undef i11_im
2627 #undef i12_re
2628 #undef i12_im
2629 #undef i20_re
2630 #undef i20_im
2631 #undef i21_re
2632 #undef i21_im
2633 #undef i22_re
2634 #undef i22_im
2635 #undef i30_re
2636 #undef i30_im
2637 #undef i31_re
2638 #undef i31_im
2639 #undef i32_re
2640 #undef i32_im
2641 
2642 #undef acc00_re
2643 #undef acc00_im
2644 #undef acc01_re
2645 #undef acc01_im
2646 #undef acc02_re
2647 #undef acc02_im
2648 #undef acc10_re
2649 #undef acc10_im
2650 #undef acc11_re
2651 #undef acc11_im
2652 #undef acc12_re
2653 #undef acc12_im
2654 #undef acc20_re
2655 #undef acc20_im
2656 #undef acc21_re
2657 #undef acc21_im
2658 #undef acc22_re
2659 #undef acc22_im
2660 #undef acc30_re
2661 #undef acc30_im
2662 #undef acc31_re
2663 #undef acc31_im
2664 #undef acc32_re
2665 #undef acc32_im
2666 
2667 #undef c00_00_re
2668 #undef c01_01_re
2669 #undef c02_02_re
2670 #undef c10_10_re
2671 #undef c11_11_re
2672 #undef c12_12_re
2673 #undef c01_00_re
2674 #undef c01_00_im
2675 #undef c02_00_re
2676 #undef c02_00_im
2677 #undef c10_00_re
2678 #undef c10_00_im
2679 #undef c11_00_re
2680 #undef c11_00_im
2681 #undef c12_00_re
2682 #undef c12_00_im
2683 #undef c02_01_re
2684 #undef c02_01_im
2685 #undef c10_01_re
2686 #undef c10_01_im
2687 #undef c11_01_re
2688 #undef c11_01_im
2689 #undef c12_01_re
2690 #undef c12_01_im
2691 #undef c10_02_re
2692 #undef c10_02_im
2693 #undef c11_02_re
2694 #undef c11_02_im
2695 #undef c12_02_re
2696 #undef c12_02_im
2697 #undef c11_10_re
2698 #undef c11_10_im
2699 #undef c12_10_re
2700 #undef c12_10_im
2701 #undef c12_11_re
2702 #undef c12_11_im
2703 
2704 
2705 #undef VOLATILE
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