source: ThirdParty/mpqc_open/src/bin/mpqc/validate/ref/optts_az3scf321gc1opt.out

Candidate_v1.6.1
Last change on this file was 860145, checked in by Frederik Heber <heber@…>, 9 years ago

Merge commit '0b990dfaa8c6007a996d030163a25f7f5fc8a7e7' as 'ThirdParty/mpqc_open'
  • Property mode set to 100644
File size: 34.8 KB
Line 
1
2 MPQC: Massively Parallel Quantum Chemistry
3 Version 2.1.0-alpha-gcc3
4
5 Machine: i686-pc-linux-gnu
6 User: cljanss@aros.ca.sandia.gov
7 Start Time: Sat Apr 6 14:10:52 2002
8
9 Using ProcMessageGrp for message passing (number of nodes = 1).
10 Using PthreadThreadGrp for threading (number of threads = 2).
11 Using ProcMemoryGrp for distributed shared memory.
12 Total number of processors = 2
13 Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/atominfo.kv.
14 WARNING: two unbound groups of atoms
15 consider using extra_bonds input
16
17 adding bond between 3 and 5
18 adding bond between 4 and 5
19
20 IntCoorGen: generated 33 coordinates.
21 Forming fixed optimization coordinates:
22 Forming optimization coordinates:
23 SymmMolecularCoor::form_variable_coordinates()
24 expected 18 coordinates
25 found 18 variable coordinates
26 found 0 constant coordinates
27 Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/3-21g.kv.
28 Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/sto-3g.kv.
29
30 CLSCF::init: total charge = 0
31
32 docc = [ 12 ]
33 nbasis = 20
34
35 CLSCF::init: total charge = 0
36
37 docc = [ 12 ]
38 nbasis = 37
39
40 performing a transition state search
41
42
43 Molecular formula C2H5N
44
45 MPQC options:
46 matrixkit = <ReplSCMatrixKit>
47 filename = optts_az3scf321gc1opt
48 restart_file = optts_az3scf321gc1opt.ckpt
49 restart = no
50 checkpoint = no
51 savestate = no
52 do_energy = yes
53 do_gradient = no
54 optimize = yes
55 write_pdb = no
56 print_mole = yes
57 print_timings = yes
58
59 SCF::compute: energy accuracy = 1.0000000e-06
60
61 integral intermediate storage = 138316 bytes
62 integral cache = 31850436 bytes
63 Projecting guess wavefunction into the present basis set
64
65 SCF::compute: energy accuracy = 1.0000000e-06
66
67 integral intermediate storage = 137940 bytes
68 integral cache = 31858700 bytes
69 Starting from core Hamiltonian guess
70
71 Using symmetric orthogonalization.
72 n(SO): 20
73 Maximum orthogonalization residual = 2.55622
74 Minimum orthogonalization residual = 0.237142
75 nuclear repulsion energy = 73.5666609484
76
77 25930 integrals
78 iter 1 energy = -130.5921792284 delta = 3.73133e-01
79 25725 integrals
80 iter 2 energy = -131.1879088829 delta = 1.14141e-01
81 26270 integrals
82 iter 3 energy = -131.2298461480 delta = 3.87578e-02
83 25879 integrals
84 iter 4 energy = -131.2349399855 delta = 1.47928e-02
85 25561 integrals
86 iter 5 energy = -131.2358469503 delta = 5.58097e-03
87 26293 integrals
88 iter 6 energy = -131.2359543202 delta = 1.96721e-03
89 26044 integrals
90 iter 7 energy = -131.2359771768 delta = 9.13435e-04
91 25815 integrals
92 iter 8 energy = -131.2359811618 delta = 4.01917e-04
93 26392 integrals
94 iter 9 energy = -131.2359810174 delta = 1.25958e-04
95 25475 integrals
96 iter 10 energy = -131.2359810350 delta = 2.33643e-05
97 26669 integrals
98 iter 11 energy = -131.2359810301 delta = 6.95338e-06
99 25905 integrals
100 iter 12 energy = -131.2359810284 delta = 1.67164e-06
101
102 HOMO is 12 A = -0.275467
103 LUMO is 13 A = 0.299588
104
105 total scf energy = -131.2359810284
106
107 Projecting the guess density.
108
109 The number of electrons in the guess density = 24
110 Using symmetric orthogonalization.
111 n(SO): 37
112 Maximum orthogonalization residual = 4.61154
113 Minimum orthogonalization residual = 0.0266187
114 The number of electrons in the projected density = 23.9471
115
116 nuclear repulsion energy = 73.5666609484
117
118 258137 integrals
119 iter 1 energy = -131.9992068677 delta = 1.72473e-01
120 267089 integrals
121 iter 2 energy = -132.1404627991 delta = 3.12866e-02
122 260203 integrals
123 iter 3 energy = -132.1492774216 delta = 6.37906e-03
124 271186 integrals
125 iter 4 energy = -132.1503243297 delta = 2.19273e-03
126 262624 integrals
127 iter 5 energy = -132.1504668050 delta = 1.01593e-03
128 258283 integrals
129 iter 6 energy = -132.1504773210 delta = 2.31061e-04
130 272553 integrals
131 iter 7 energy = -132.1504793043 delta = 1.54297e-04
132 260048 integrals
133 iter 8 energy = -132.1504795442 delta = 5.95415e-05
134 273680 integrals
135 iter 9 energy = -132.1504795600 delta = 1.43854e-05
136 274029 integrals
137 iter 10 energy = -132.1504795605 delta = 1.28895e-06
138
139 HOMO is 12 A = -0.344531
140 LUMO is 13 A = 0.158073
141
142 total scf energy = -132.1504795605
143
144 SCF::compute: gradient accuracy = 1.0000000e-04
145
146 Total Gradient:
147 1 N -0.0000053968 -0.0000022097 0.0000002411
148 2 H 0.0000014573 0.0000000877 0.0000005803
149 3 C -0.0017286874 -0.0039221870 -0.0022793195
150 4 C 0.0026329585 -0.0027176959 0.0030472804
151 5 H -0.0009009154 0.0066471631 -0.0007746185
152 6 H 0.0000022885 -0.0000017111 0.0000008678
153 7 H -0.0000013256 -0.0000026557 0.0000054652
154 8 H -0.0000003790 -0.0000007913 -0.0000004968
155
156
157 following mode 0
158 lambda_p = 0.00023277
159 lambda_n = -4.6606e-07
160
161 Max Gradient : 0.0066471631 0.0001000000 no
162 Max Displacement : 0.0226317697 0.0001000000 no
163 Gradient*Displace: 0.0002323193 0.0001000000 no
164
165 taking step of size 0.048076
166
167 CLHF: changing atomic coordinates:
168 Molecular formula: C2H5N
169 molecule<Molecule>: (
170 symmetry = c1
171 unit = "angstrom"
172 { n atoms geometry }={
173 1 N [ -0.3537924378 0.0384913470 -1.0613245007]
174 2 H [ 0.3229868960 0.0455481849 -1.8058379247]
175 3 C [ 0.1305090945 -0.6635688640 0.1143689644]
176 4 C [ -0.1151201116 1.1830408999 -0.0955495514]
177 5 H [ 0.6105739740 0.4421326507 0.7459004673]
178 6 H [ -0.6229132116 -1.1441431472 0.7002991469]
179 7 H [ 1.0761024276 -1.1653406506 0.0276135178]
180 8 H [ -1.0483466310 1.2638395792 0.4632340656]
181 }
182 )
183 Atomic Masses:
184 14.00307 1.00783 12.00000 12.00000 1.00783
185 1.00783 1.00783 1.00783
186
187 SCF::compute: energy accuracy = 4.8563568e-08
188
189 integral intermediate storage = 138316 bytes
190 integral cache = 31850436 bytes
191 nuclear repulsion energy = 73.5645437779
192
193 Using symmetric orthogonalization.
194 n(SO): 37
195 Maximum orthogonalization residual = 4.60981
196 Minimum orthogonalization residual = 0.0265982
197 257785 integrals
198 iter 1 energy = -132.1500320216 delta = 1.81837e-01
199 271182 integrals
200 iter 2 energy = -132.1502344828 delta = 1.12290e-03
201 259519 integrals
202 iter 3 energy = -132.1502676433 delta = 4.45215e-04
203 257065 integrals
204 iter 4 energy = -132.1502755498 delta = 1.93519e-04
205 254688 integrals
206 iter 5 energy = -132.1502780533 delta = 1.32452e-04
207 272921 integrals
208 iter 6 energy = -132.1502783797 delta = 7.18695e-05
209 255797 integrals
210 iter 7 energy = -132.1502783916 delta = 8.44473e-06
211 273894 integrals
212 iter 8 energy = -132.1502783930 delta = 4.09391e-06
213 262943 integrals
214 iter 9 energy = -132.1502783935 delta = 3.03925e-06
215 260171 integrals
216 iter 10 energy = -132.1502783936 delta = 9.43516e-07
217 274487 integrals
218 iter 11 energy = -132.1502783937 delta = 2.40939e-07
219 262221 integrals
220 iter 12 energy = -132.1502783937 delta = 1.25636e-07
221
222 HOMO is 12 A = -0.344585
223 LUMO is 13 A = 0.157068
224
225 total scf energy = -132.1502783937
226
227 SCF::compute: gradient accuracy = 4.8563568e-06
228
229 Total Gradient:
230 1 N -0.0005941181 0.0006936953 0.0000895093
231 2 H 0.0001446730 -0.0001068454 0.0001162734
232 3 C 0.0000901117 -0.0038718878 -0.0003315340
233 4 C 0.0025702958 -0.0003823835 0.0007966180
234 5 H -0.0021452675 0.0050111546 -0.0005297505
235 6 H -0.0000340435 -0.0002618301 -0.0001567202
236 7 H -0.0001616277 -0.0005686236 -0.0005003434
237 8 H 0.0001299763 -0.0005132794 0.0005159474
238
239
240 following mode 0
241 lambda_p = 0.00017711
242 lambda_n = -0.00012782
243
244 Max Gradient : 0.0050111546 0.0001000000 no
245 Max Displacement : 0.0512698125 0.0001000000 no
246 Gradient*Displace: 0.0000514079 0.0001000000 yes
247
248 taking step of size 0.105254
249
250 CLHF: changing atomic coordinates:
251 Molecular formula: C2H5N
252 molecule<Molecule>: (
253 symmetry = c1
254 unit = "angstrom"
255 { n atoms geometry }={
256 1 N [ -0.3492794164 0.0363248732 -1.0685201722]
257 2 H [ 0.3348941091 0.0510865072 -1.8060741347]
258 3 C [ 0.1253957162 -0.6609119830 0.1095509384]
259 4 C [ -0.1219653064 1.1734676548 -0.0891578673]
260 5 H [ 0.6284314934 0.4546395784 0.7283548104]
261 6 H [ -0.6322591518 -1.1208178962 0.7062426024]
262 7 H [ 1.0671279079 -1.1704974953 0.0323520003]
263 8 H [ -1.0523453519 1.2367087609 0.4759560078]
264 }
265 )
266 Atomic Masses:
267 14.00307 1.00783 12.00000 12.00000 1.00783
268 1.00783 1.00783 1.00783
269
270 SCF::compute: energy accuracy = 3.5581822e-08
271
272 integral intermediate storage = 138316 bytes
273 integral cache = 31850436 bytes
274 nuclear repulsion energy = 73.7049768813
275
276 Using symmetric orthogonalization.
277 n(SO): 37
278 Maximum orthogonalization residual = 4.62354
279 Minimum orthogonalization residual = 0.0260753
280 258052 integrals
281 iter 1 energy = -132.1491003253 delta = 1.82446e-01
282 270720 integrals
283 iter 2 energy = -132.1500625142 delta = 2.92422e-03
284 260632 integrals
285 iter 3 energy = -132.1501782943 delta = 9.78562e-04
286 257416 integrals
287 iter 4 energy = -132.1501993915 delta = 4.47219e-04
288 272658 integrals
289 iter 5 energy = -132.1502025211 delta = 1.48619e-04
290 261683 integrals
291 iter 6 energy = -132.1502034523 delta = 1.07789e-04
292 256391 integrals
293 iter 7 energy = -132.1502035309 delta = 2.31439e-05
294 273732 integrals
295 iter 8 energy = -132.1502035456 delta = 1.33964e-05
296 261103 integrals
297 iter 9 energy = -132.1502035481 delta = 4.70334e-06
298 258750 integrals
299 iter 10 energy = -132.1502035487 delta = 2.16508e-06
300 274165 integrals
301 iter 11 energy = -132.1502035487 delta = 9.17974e-07
302 261204 integrals
303 iter 12 energy = -132.1502035487 delta = 3.16313e-07
304 257404 integrals
305 iter 13 energy = -132.1502035487 delta = 1.00893e-07
306
307 HOMO is 12 A = -0.345657
308 LUMO is 13 A = 0.159927
309
310 total scf energy = -132.1502035487
311
312 SCF::compute: gradient accuracy = 3.5581822e-06
313
314 Total Gradient:
315 1 N 0.0005481240 0.0001901795 -0.0009309950
316 2 H 0.0003063972 -0.0000002581 0.0002847671
317 3 C 0.0007119087 -0.0005278691 0.0011920378
318 4 C 0.0004849031 0.0019907078 -0.0010923192
319 5 H -0.0013022292 -0.0000096925 -0.0006633406
320 6 H -0.0001919035 0.0008123094 0.0006717837
321 7 H -0.0005097402 -0.0006575147 -0.0007185020
322 8 H -0.0000474601 -0.0017978624 0.0012565683
323
324
325 following mode 0
326 lambda_p = 7.6244e-06
327 lambda_n = -0.00014922
328
329 Max Gradient : 0.0019907078 0.0001000000 no
330 Max Displacement : 0.0392093867 0.0001000000 no
331 Gradient*Displace: 0.0001416220 0.0001000000 no
332
333 taking step of size 0.054047
334
335 CLHF: changing atomic coordinates:
336 Molecular formula: C2H5N
337 molecule<Molecule>: (
338 symmetry = c1
339 unit = "angstrom"
340 { n atoms geometry }={
341 1 N [ -0.3525036947 0.0360027640 -1.0644958469]
342 2 H [ 0.3261315827 0.0487303885 -1.8072081404]
343 3 C [ 0.1272188462 -0.6636485024 0.1103813301]
344 4 C [ -0.1175519404 1.1738517575 -0.0885320440]
345 5 H [ 0.6224727896 0.4476233382 0.7384664593]
346 6 H [ -0.6277259128 -1.1356238715 0.7008189411]
347 7 H [ 1.0737451440 -1.1643933506 0.0327696348]
348 8 H [ -1.0517868147 1.2574574763 0.4665038509]
349 }
350 )
351 Atomic Masses:
352 14.00307 1.00783 12.00000 12.00000 1.00783
353 1.00783 1.00783 1.00783
354
355 SCF::compute: energy accuracy = 1.5945659e-08
356
357 integral intermediate storage = 138316 bytes
358 integral cache = 31850436 bytes
359 nuclear repulsion energy = 73.6649001028
360
361 Using symmetric orthogonalization.
362 n(SO): 37
363 Maximum orthogonalization residual = 4.61515
364 Minimum orthogonalization residual = 0.0262602
365 258279 integrals
366 iter 1 energy = -132.1500165642 delta = 1.81616e-01
367 271312 integrals
368 iter 2 energy = -132.1502483725 delta = 1.19926e-03
369 260688 integrals
370 iter 3 energy = -132.1502773611 delta = 4.60228e-04
371 256448 integrals
372 iter 4 energy = -132.1502816044 delta = 1.76412e-04
373 273311 integrals
374 iter 5 energy = -132.1502822020 delta = 6.02731e-05
375 262996 integrals
376 iter 6 energy = -132.1502824605 delta = 4.73575e-05
377 261378 integrals
378 iter 7 energy = -132.1502825025 delta = 2.38272e-05
379 273832 integrals
380 iter 8 energy = -132.1502825076 delta = 5.71515e-06
381 261537 integrals
382 iter 9 energy = -132.1502825082 delta = 2.98534e-06
383 256865 integrals
384 iter 10 energy = -132.1502825084 delta = 6.03767e-07
385 274270 integrals
386 iter 11 energy = -132.1502825084 delta = 2.77879e-07
387 259494 integrals
388 iter 12 energy = -132.1502825084 delta = 6.78557e-08
389 257152 integrals
390 iter 13 energy = -132.1502825084 delta = 3.95203e-08
391 275245 integrals
392 iter 14 energy = -132.1502825084 delta = 1.67090e-08
393
394 HOMO is 12 A = -0.344312
395 LUMO is 13 A = 0.159684
396
397 total scf energy = -132.1502825084
398
399 SCF::compute: gradient accuracy = 1.5945659e-06
400
401 Total Gradient:
402 1 N -0.0005881569 0.0001451623 -0.0003153833
403 2 H 0.0001881022 0.0000245381 0.0001082923
404 3 C 0.0012271080 -0.0010758570 0.0002734157
405 4 C 0.0005625855 0.0004760949 0.0000040422
406 5 H -0.0007395665 0.0006052558 0.0000148695
407 6 H -0.0001137277 0.0003602320 0.0001098819
408 7 H -0.0003293607 -0.0003398947 -0.0003235371
409 8 H -0.0002069838 -0.0001955316 0.0001284188
410
411
412 following mode 0
413 lambda_p = 1.3893e-07
414 lambda_n = -1.3192e-05
415
416 Max Gradient : 0.0012271080 0.0001000000 no
417 Max Displacement : 0.0068027764 0.0001000000 no
418 Gradient*Displace: 0.0000130526 0.0001000000 yes
419
420 taking step of size 0.010947
421
422 CLHF: changing atomic coordinates:
423 Molecular formula: C2H5N
424 molecule<Molecule>: (
425 symmetry = c1
426 unit = "angstrom"
427 { n atoms geometry }={
428 1 N [ -0.3528553526 0.0358142336 -1.0644234067]
429 2 H [ 0.3248961012 0.0478982532 -1.8078474835]
430 3 C [ 0.1260391204 -0.6632637449 0.1101089999]
431 4 C [ -0.1167568800 1.1726568840 -0.0881031765]
432 5 H [ 0.6227928204 0.4464476775 0.7388097004]
433 6 H [ -0.6281195164 -1.1381183927 0.6993008161]
434 7 H [ 1.0746210066 -1.1607934761 0.0345391213]
435 8 H [ -1.0506172995 1.2593585654 0.4663196142]
436 }
437 )
438 Atomic Masses:
439 14.00307 1.00783 12.00000 12.00000 1.00783
440 1.00783 1.00783 1.00783
441
442 SCF::compute: energy accuracy = 6.0149709e-09
443
444 integral intermediate storage = 138316 bytes
445 integral cache = 31850436 bytes
446 nuclear repulsion energy = 73.6905622854
447
448 Using symmetric orthogonalization.
449 n(SO): 37
450 Maximum orthogonalization residual = 4.61646
451 Minimum orthogonalization residual = 0.0262245
452 258361 integrals
453 iter 1 energy = -132.1502854076 delta = 1.81761e-01
454 272291 integrals
455 iter 2 energy = -132.1502903940 delta = 3.47993e-04
456 260219 integrals
457 iter 3 energy = -132.1502915846 delta = 1.03522e-04
458 255369 integrals
459 iter 4 energy = -132.1502917821 delta = 3.80821e-05
460 273714 integrals
461 iter 5 energy = -132.1502918102 delta = 1.58490e-05
462 262433 integrals
463 iter 6 energy = -132.1502918188 delta = 7.47965e-06
464 260004 integrals
465 iter 7 energy = -132.1502918209 delta = 3.22406e-06
466 258551 integrals
467 iter 8 energy = -132.1502918214 delta = 2.12111e-06
468 274165 integrals
469 iter 9 energy = -132.1502918208 delta = 7.23067e-07
470 261724 integrals
471 iter 10 energy = -132.1502918208 delta = 3.97033e-07
472 255602 integrals
473 iter 11 energy = -132.1502918208 delta = 8.12667e-08
474 275245 integrals
475 iter 12 energy = -132.1502918208 delta = 1.32973e-08
476
477 HOMO is 12 A = -0.344115
478 LUMO is 13 A = 0.160356
479
480 total scf energy = -132.1502918208
481
482 SCF::compute: gradient accuracy = 6.0149709e-07
483
484 Total Gradient:
485 1 N -0.0004885218 -0.0000093025 -0.0000809687
486 2 H 0.0001333025 -0.0000085131 0.0000875152
487 3 C 0.0008202328 -0.0003201174 0.0000209630
488 4 C 0.0002564483 0.0002743110 -0.0000685529
489 5 H -0.0004296047 0.0000610430 0.0001136314
490 6 H -0.0001140631 0.0001879928 0.0000460050
491 7 H -0.0001351425 -0.0001205118 -0.0001454429
492 8 H -0.0000426515 -0.0000649020 0.0000268500
493
494
495 following mode 0
496 lambda_p = 4.2049e-07
497 lambda_n = -4.8219e-06
498
499 Max Gradient : 0.0008202328 0.0001000000 no
500 Max Displacement : 0.0036797130 0.0001000000 no
501 Gradient*Displace: 0.0000044000 0.0001000000 yes
502
503 taking step of size 0.008618
504
505 CLHF: changing atomic coordinates:
506 Molecular formula: C2H5N
507 molecule<Molecule>: (
508 symmetry = c1
509 unit = "angstrom"
510 { n atoms geometry }={
511 1 N [ -0.3527542484 0.0360349740 -1.0644578229]
512 2 H [ 0.3243279561 0.0477583538 -1.8084120033]
513 3 C [ 0.1252220066 -0.6627708949 0.1104501667]
514 4 C [ -0.1167657160 1.1724641337 -0.0884135845]
515 5 H [ 0.6236358249 0.4449046441 0.7386110395]
516 6 H [ -0.6282430750 -1.1396809905 0.6988038410]
517 7 H [ 1.0748233901 -1.1588462557 0.0358463472]
518 8 H [ -1.0502461382 1.2601360355 0.4662762015]
519 }
520 )
521 Atomic Masses:
522 14.00307 1.00783 12.00000 12.00000 1.00783
523 1.00783 1.00783 1.00783
524
525 SCF::compute: energy accuracy = 4.2055708e-09
526
527 integral intermediate storage = 138316 bytes
528 integral cache = 31850436 bytes
529 nuclear repulsion energy = 73.7003856140
530
531 Using symmetric orthogonalization.
532 n(SO): 37
533 Maximum orthogonalization residual = 4.61693
534 Minimum orthogonalization residual = 0.0262256
535 258361 integrals
536 iter 1 energy = -132.1502953675 delta = 1.81680e-01
537 272643 integrals
538 iter 2 energy = -132.1502936423 delta = 1.79716e-04
539 260741 integrals
540 iter 3 energy = -132.1502940887 delta = 5.50303e-05
541 257333 integrals
542 iter 4 energy = -132.1502941732 delta = 2.06264e-05
543 273833 integrals
544 iter 5 energy = -132.1502941806 delta = 8.59221e-06
545 263394 integrals
546 iter 6 energy = -132.1502941851 delta = 5.77570e-06
547 260712 integrals
548 iter 7 energy = -132.1502941856 delta = 2.11012e-06
549 274165 integrals
550 iter 8 energy = -132.1502941857 delta = 5.95779e-07
551 258637 integrals
552 iter 9 energy = -132.1502941857 delta = 1.22003e-07
553 274857 integrals
554 iter 10 energy = -132.1502941857 delta = 4.12339e-08
555 260940 integrals
556 iter 11 energy = -132.1502941857 delta = 1.69903e-08
557 258070 integrals
558 iter 12 energy = -132.1502941857 delta = 6.80480e-09
559
560 HOMO is 12 A = -0.344037
561 LUMO is 13 A = 0.160741
562
563 total scf energy = -132.1502941857
564
565 SCF::compute: gradient accuracy = 4.2055708e-07
566
567 Total Gradient:
568 1 N -0.0001758231 -0.0000976987 -0.0000451602
569 2 H 0.0000446110 0.0000170006 0.0000191875
570 3 C 0.0001110672 -0.0000433908 -0.0000817522
571 4 C 0.0000829016 0.0000801172 -0.0000135671
572 5 H -0.0000629321 -0.0000474633 0.0000802782
573 6 H -0.0000245011 0.0000393573 0.0000155412
574 7 H 0.0000144010 0.0000467665 0.0000122732
575 8 H 0.0000102755 0.0000053113 0.0000131992
576
577
578 following mode 0
579 lambda_p = 1.1298e-08
580 lambda_n = -2.7075e-07
581
582 Max Gradient : 0.0001758231 0.0001000000 no
583 Max Displacement : 0.0007241558 0.0001000000 no
584 Gradient*Displace: 0.0000002595 0.0001000000 yes
585
586 taking step of size 0.002016
587
588 CLHF: changing atomic coordinates:
589 Molecular formula: C2H5N
590 molecule<Molecule>: (
591 symmetry = c1
592 unit = "angstrom"
593 { n atoms geometry }={
594 1 N [ -0.3525734298 0.0361880121 -1.0643943443]
595 2 H [ 0.3244074563 0.0478214028 -1.8084054663]
596 3 C [ 0.1251861889 -0.6626389685 0.1106211100]
597 4 C [ -0.1169658648 1.1725202298 -0.0884624468]
598 5 H [ 0.6240190316 0.4448873060 0.7383628457]
599 6 H [ -0.6282579071 -1.1396940670 0.6988602963]
600 7 H [ 1.0746313611 -1.1590391454 0.0358617554]
601 8 H [ -1.0504468362 1.2599552303 0.4662604350]
602 }
603 )
604 Atomic Masses:
605 14.00307 1.00783 12.00000 12.00000 1.00783
606 1.00783 1.00783 1.00783
607
608 SCF::compute: energy accuracy = 1.0350596e-09
609
610 integral intermediate storage = 138316 bytes
611 integral cache = 31850436 bytes
612 nuclear repulsion energy = 73.7022610193
613
614 Using symmetric orthogonalization.
615 n(SO): 37
616 Maximum orthogonalization residual = 4.61694
617 Minimum orthogonalization residual = 0.0262248
618 258361 integrals
619 iter 1 energy = -132.1503003081 delta = 1.81645e-01
620 273315 integrals
621 iter 2 energy = -132.1502943241 delta = 4.87850e-05
622 260600 integrals
623 iter 3 energy = -132.1502943554 delta = 1.25667e-05
624 258544 integrals
625 iter 4 energy = -132.1502943619 delta = 6.83796e-06
626 274035 integrals
627 iter 5 energy = -132.1502943696 delta = 2.13657e-06
628 264717 integrals
629 iter 6 energy = -132.1502943704 delta = 2.64261e-06
630 261594 integrals
631 iter 7 energy = -132.1502943704 delta = 7.15470e-07
632 274679 integrals
633 iter 8 energy = -132.1502943704 delta = 1.35856e-07
634 262428 integrals
635 iter 9 energy = -132.1502943704 delta = 6.77874e-08
636 261400 integrals
637 iter 10 energy = -132.1502943704 delta = 4.33561e-08
638 258067 integrals
639 iter 11 energy = -132.1502943704 delta = 1.45243e-08
640 275335 integrals
641 iter 12 energy = -132.1502943704 delta = 5.39321e-09
642 261710 integrals
643 iter 13 energy = -132.1502943704 delta = 3.20114e-09
644 259993 integrals
645 iter 14 energy = -132.1502943704 delta = 1.66279e-09
646 260568 integrals
647 iter 15 energy = -132.1502943704 delta = 1.98298e-09
648
649 HOMO is 12 A = -0.344039
650 LUMO is 13 A = 0.160751
651
652 total scf energy = -132.1502943704
653
654 SCF::compute: gradient accuracy = 1.0350596e-07
655
656 Total Gradient:
657 1 N -0.0000712626 -0.0000686600 -0.0000197497
658 2 H 0.0000180392 0.0000136775 0.0000151842
659 3 C 0.0000036874 -0.0000182600 -0.0000520868
660 4 C 0.0000427162 0.0000558361 -0.0000001229
661 5 H -0.0000053574 -0.0000279429 0.0000374245
662 6 H -0.0000016023 0.0000139285 0.0000070970
663 7 H 0.0000151469 0.0000308027 0.0000109552
664 8 H -0.0000013674 0.0000006180 0.0000012984
665
666
667 following mode 0
668 lambda_p = 4.3761e-10
669 lambda_n = -1.0883e-07
670
671 Max Gradient : 0.0000712626 0.0001000000 yes
672 Max Displacement : 0.0005251720 0.0001000000 no
673 Gradient*Displace: 0.0000001084 0.0001000000 yes
674
675 taking step of size 0.001617
676
677 CLHF: changing atomic coordinates:
678 Molecular formula: C2H5N
679 molecule<Molecule>: (
680 symmetry = c1
681 unit = "angstrom"
682 { n atoms geometry }={
683 1 N [ -0.3524103772 0.0363133407 -1.0643621118]
684 2 H [ 0.3245055966 0.0478683862 -1.8084297320]
685 3 C [ 0.1252219288 -0.6625309096 0.1107530994]
686 4 C [ -0.1171562136 1.1725200967 -0.0884713919]
687 5 H [ 0.6242827712 0.4449929689 0.7381464692]
688 6 H [ -0.6282926213 -1.1395821406 0.6989094433]
689 7 H [ 1.0744598813 -1.1593170545 0.0358444260]
690 8 H [ -1.0506109659 1.2597353121 0.4663139830]
691 }
692 )
693 Atomic Masses:
694 14.00307 1.00783 12.00000 12.00000 1.00783
695 1.00783 1.00783 1.00783
696
697 SCF::compute: energy accuracy = 5.2323401e-10
698
699 integral intermediate storage = 138316 bytes
700 integral cache = 31850436 bytes
701 nuclear repulsion energy = 73.7038927458
702
703 Using symmetric orthogonalization.
704 n(SO): 37
705 Maximum orthogonalization residual = 4.61697
706 Minimum orthogonalization residual = 0.026222
707 258361 integrals
708 iter 1 energy = -132.1503004554 delta = 1.81644e-01
709 273315 integrals
710 iter 2 energy = -132.1502943973 delta = 4.73156e-05
711 260412 integrals
712 iter 3 energy = -132.1502944197 delta = 1.08335e-05
713 257798 integrals
714 iter 4 energy = -132.1502944249 delta = 6.03458e-06
715 274035 integrals
716 iter 5 energy = -132.1502944290 delta = 1.88538e-06
717 263448 integrals
718 iter 6 energy = -132.1502944293 delta = 1.44893e-06
719 261037 integrals
720 iter 7 energy = -132.1502944293 delta = 5.68205e-07
721 257497 integrals
722 iter 8 energy = -132.1502944292 delta = 1.92811e-07
723 274679 integrals
724 iter 9 energy = -132.1502944294 delta = 9.08368e-08
725 260681 integrals
726 iter 10 energy = -132.1502944294 delta = 3.05451e-08
727 258632 integrals
728 iter 11 energy = -132.1502944294 delta = 1.74374e-08
729 275335 integrals
730 iter 12 energy = -132.1502944294 delta = 5.45810e-09
731 262221 integrals
732 iter 13 energy = -132.1502944294 delta = 4.05130e-09
733 261036 integrals
734 iter 14 energy = -132.1502944294 delta = 2.37693e-09
735 260845 integrals
736 iter 15 energy = -132.1502944294 delta = 2.48256e-09
737 258589 integrals
738 iter 16 energy = -132.1502944294 delta = 9.99133e-10
739 256181 integrals
740 iter 17 energy = -132.1502944294 delta = 6.78201e-10
741
742 HOMO is 12 A = -0.344033
743 LUMO is 13 A = 0.160756
744
745 total scf energy = -132.1502944294
746
747 SCF::compute: gradient accuracy = 5.2323401e-08
748
749 Total Gradient:
750 1 N -0.0000053959 -0.0000268600 -0.0000006950
751 2 H 0.0000073309 0.0000030772 -0.0000007145
752 3 C -0.0000191599 0.0000062001 -0.0000146718
753 4 C 0.0000013567 0.0000304664 0.0000073441
754 5 H 0.0000125255 -0.0000130548 0.0000037113
755 6 H 0.0000038852 -0.0000007041 0.0000049636
756 7 H 0.0000030278 0.0000040165 0.0000019761
757 8 H -0.0000035703 -0.0000031412 -0.0000019137
758
759
760 following mode 0
761 lambda_p = 1.6404e-10
762 lambda_n = 1.4137e-09
763
764 Max Gradient : 0.0000304664 0.0001000000 yes
765 Max Displacement : 0.0000706812 0.0001000000 yes
766 Gradient*Displace: 0.0000000047 0.0001000000 yes
767
768 All convergence criteria have been met.
769 The optimization has converged.
770
771 Value of the MolecularEnergy: -132.1502944294
772
773 Function Parameters:
774 value_accuracy = 4.233577e-10 (5.232340e-10) (computed)
775 gradient_accuracy = 4.233577e-08 (5.232340e-08) (computed)
776 hessian_accuracy = 0.000000e+00 (1.000000e-04)
777
778 Molecular Coordinates:
779 IntMolecularCoor Parameters:
780 update_bmat = no
781 scale_bonds = 1
782 scale_bends = 1
783 scale_tors = 1
784 scale_outs = 1
785 symmetry_tolerance = 1.000000e-05
786 simple_tolerance = 1.000000e-03
787 coordinate_tolerance = 1.000000e-07
788 have_fixed_values = 0
789 max_update_steps = 100
790 max_update_disp = 0.500000
791 have_fixed_values = 0
792
793 Molecular formula: C2H5N
794 molecule<Molecule>: (
795 symmetry = c1
796 unit = "angstrom"
797 { n atoms geometry }={
798 1 N [ -0.3524103772 0.0363133407 -1.0643621118]
799 2 H [ 0.3245055966 0.0478683862 -1.8084297320]
800 3 C [ 0.1252219288 -0.6625309096 0.1107530994]
801 4 C [ -0.1171562136 1.1725200967 -0.0884713919]
802 5 H [ 0.6242827712 0.4449929689 0.7381464692]
803 6 H [ -0.6282926213 -1.1395821406 0.6989094433]
804 7 H [ 1.0744598813 -1.1593170545 0.0358444260]
805 8 H [ -1.0506109659 1.2597353121 0.4663139830]
806 }
807 )
808 Atomic Masses:
809 14.00307 1.00783 12.00000 12.00000 1.00783
810 1.00783 1.00783 1.00783
811
812 Bonds:
813 STRE s1 1.00597 1 2 N-H
814 STRE s2 1.44824 1 3 N-C
815 STRE s3 1.51614 1 4 N-C
816 STRE s4 1.36722 3 5 C-H
817 STRE s5 1.32753 4 5 C-H
818 STRE s6 1.06831 3 6 C-H
819 STRE s7 1.07399 3 7 C-H
820 STRE s8 1.08937 4 8 C-H
821 Bends:
822 BEND b1 112.56782 2 1 3 H-N-C
823 BEND b2 111.28883 2 1 4 H-N-C
824 BEND b3 77.77053 3 1 4 C-N-C
825 BEND b4 87.38264 3 5 4 C-H-C
826 BEND b5 95.84485 1 3 5 N-C-H
827 BEND b6 94.40231 1 4 5 N-C-H
828 BEND b7 115.44079 1 3 6 N-C-H
829 BEND b8 111.50301 5 3 6 H-C-H
830 BEND b9 117.26482 1 3 7 N-C-H
831 BEND b10 94.82353 5 3 7 H-C-H
832 BEND b11 117.08074 6 3 7 H-C-H
833 BEND b12 104.76418 1 4 8 N-C-H
834 BEND b13 101.84937 5 4 8 H-C-H
835 Torsions:
836 TORS t1 -15.36030 4 1 3 5 C-N-C-H
837 TORS t2 101.81598 4 1 3 6 C-N-C-H
838 TORS t3 -113.86249 4 1 3 7 C-N-C-H
839 TORS t4 15.79483 3 1 4 5 C-N-C-H
840 TORS t5 -87.69474 3 1 4 8 C-N-C-H
841 TORS t6 17.21549 1 3 5 4 N-C-H-C
842 TORS t7 -103.07981 6 3 5 4 H-C-H-C
843 TORS t8 135.29997 7 3 5 4 H-C-H-C
844 TORS t9 -16.38410 1 4 5 3 N-C-H-C
845 TORS t10 89.71579 8 4 5 3 H-C-H-C
846 Out of Plane:
847 OUT o1 -61.31379 2 1 3 4 H-N-C-C
848 OUT o2 70.10304 8 4 1 5 H-C-N-H
849 Followed:
850 SUM 0.0749677348
851 1.0000000000 STRE 1.36719 3 5 C-H
852 -1.0000000000 STRE 1.32752 4 5 C-H
853
854 SymmMolecularCoor Parameters:
855 change_coordinates = no
856 transform_hessian = yes
857 max_kappa2 = 10.000000
858
859 GaussianBasisSet:
860 nbasis = 37
861 nshell = 19
862 nprim = 33
863 name = "3-21G"
864 Natural Population Analysis:
865 n atom charge ne(S) ne(P)
866 1 N -0.745979 3.453100 4.292878
867 2 H 0.394628 0.605372
868 3 C -0.325843 3.092532 3.233311
869 4 C -0.250599 3.447081 2.803518
870 5 H 0.242644 0.757356
871 6 H 0.252600 0.747400
872 7 H 0.253609 0.746391
873 8 H 0.178940 0.821060
874
875 SCF Parameters:
876 maxiter = 40
877 density_reset_frequency = 10
878 level_shift = 0.000000
879
880 CLSCF Parameters:
881 charge = 0
882 ndocc = 12
883 docc = [ 12 ]
884
885 The following keywords in "optts_az3scf321gc1opt.in" were ignored:
886 mpqc:mole:guess_wavefunction:multiplicity
887 mpqc:mole:multiplicity
888
889 CPU Wall
890mpqc: 12.63 13.83
891 NAO: 0.02 0.02
892 calc: 12.43 13.63
893 compute gradient: 5.91 6.80
894 nuc rep: 0.00 0.00
895 one electron gradient: 0.62 0.62
896 overlap gradient: 0.12 0.13
897 two electron gradient: 5.17 6.05
898 contribution: 4.38 5.28
899 start thread: 4.37 4.39
900 stop thread: 0.00 0.87
901 setup: 0.79 0.77
902 vector: 6.24 6.55
903 density: 0.08 0.08
904 evals: 0.32 0.37
905 extrap: 0.42 0.33
906 fock: 4.70 5.05
907 accum: 0.00 0.00
908 ao_gmat: 4.57 4.91
909 start thread: 4.55 4.61
910 stop thread: 0.00 0.29
911 init pmax: 0.00 0.01
912 local data: 0.06 0.04
913 setup: 0.01 0.01
914 sum: 0.00 0.00
915 symm: 0.04 0.06
916 vector: 0.25 0.26
917 density: 0.01 0.00
918 evals: 0.00 0.01
919 extrap: 0.00 0.01
920 fock: 0.19 0.19
921 accum: 0.00 0.00
922 ao_gmat: 0.17 0.18
923 start thread: 0.17 0.16
924 stop thread: 0.00 0.01
925 init pmax: 0.00 0.00
926 local data: 0.00 0.00
927 setup: 0.01 0.00
928 sum: 0.00 0.00
929 symm: 0.01 0.00
930 input: 0.17 0.17
931
932 End Time: Sat Apr 6 14:11:05 2002
933
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