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Last change on this file since 1c350e was 398fcd, checked in by Frederik Heber <heber@…>, 8 years ago

Converted validate subfolder into autotest suite.

so long only for target check0.

Property mode set to 100644

File size: 19.9 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 13:35:33 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
15	IntCoorGen: generated 3 coordinates.
16	Forming optimization coordinates:
17	SymmMolecularCoor::form_variable_coordinates()
18	expected 3 coordinates
19	found 2 variable coordinates
20	found 0 constant coordinates
21	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/6-311gSS.kv.
22	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/sto-3g.kv.
23
24	CLSCF::init: total charge = 0
25
26	docc = [ 5 ]
27	nbasis = 7
28
29	CLSCF::init: total charge = 0
30
31	docc = [ 5 ]
32	nbasis = 30
33
34	Molecular formula H2O
35
36	MPQC options:
37	matrixkit = <ReplSCMatrixKit>
38	filename = h2ofrq_scf6311gssc2vfrq
39	restart_file = h2ofrq_scf6311gssc2vfrq.ckpt
40	restart = no
41	checkpoint = no
42	savestate = no
43	do_energy = yes
44	do_gradient = no
45	optimize = no
46	write_pdb = no
47	print_mole = yes
48	print_timings = yes
49
50	SCF::compute: energy accuracy = 1.0000000e-06
51
52	integral intermediate storage = 260598 bytes
53	integral cache = 31731962 bytes
54	Projecting guess wavefunction into the present basis set
55
56	SCF::compute: energy accuracy = 1.0000000e-06
57
58	integral intermediate storage = 31876 bytes
59	integral cache = 31967676 bytes
60	Starting from core Hamiltonian guess
61
62	Using symmetric orthogonalization.
63	n(SO): 7
64	Maximum orthogonalization residual = 1.9104
65	Minimum orthogonalization residual = 0.344888
66	nuclear repulsion energy = 9.1571164588
67
68	733 integrals
69	iter 1 energy = -74.6468200575 delta = 7.47196e-01
70	733 integrals
71	iter 2 energy = -74.9403205745 delta = 2.23216e-01
72	733 integrals
73	iter 3 energy = -74.9595428818 delta = 6.69340e-02
74	733 integrals
75	iter 4 energy = -74.9606520926 delta = 2.02576e-02
76	733 integrals
77	iter 5 energy = -74.9607020706 delta = 4.09811e-03
78	733 integrals
79	iter 6 energy = -74.9607024821 delta = 3.66040e-04
80	733 integrals
81	iter 7 energy = -74.9607024827 delta = 1.47732e-05
82
83	HOMO is 5 A = -0.386942
84	LUMO is 6 A = 0.592900
85
86	total scf energy = -74.9607024827
87
88	Projecting the guess density.
89
90	The number of electrons in the guess density = 10
91	Using symmetric orthogonalization.
92	n(SO): 30
93	Maximum orthogonalization residual = 4.46641
94	Minimum orthogonalization residual = 0.0188915
95	The number of electrons in the projected density = 9.99139
96
97	nuclear repulsion energy = 9.1571164588
98
99	127194 integrals
100	iter 1 energy = -75.7283928106 delta = 9.87360e-02
101	127292 integrals
102	iter 2 energy = -76.0314750633 delta = 3.60005e-02
103	127291 integrals
104	iter 3 energy = -76.0437203673 delta = 6.49018e-03
105	127292 integrals
106	iter 4 energy = -76.0452918417 delta = 2.49056e-03
107	127291 integrals
108	iter 5 energy = -76.0456219144 delta = 9.38963e-04
109	127291 integrals
110	iter 6 energy = -76.0456765911 delta = 5.91379e-04
111	127292 integrals
112	iter 7 energy = -76.0456769437 delta = 3.76481e-05
113	127292 integrals
114	iter 8 energy = -76.0456769851 delta = 1.26111e-05
115	127291 integrals
116	iter 9 energy = -76.0456769889 delta = 3.98043e-06
117
118	HOMO is 5 A = -0.497602
119	LUMO is 6 A = 0.150997
120
121	total scf energy = -76.0456769889
122
123	Value of the MolecularEnergy: -76.0456769889
124
125	The external rank is 6
126	Computing molecular hessian from 6 displacements:
127	Starting at displacement: 0
128	Hessian options:
129	displacement: 0.01 bohr
130	gradient_accuracy: 1e-05 au
131	eliminate_cubic_terms: yes
132	only_totally_symmetric: no
133
134	Beginning displacement 0:
135	Molecule: setting point group to c1
136	Displacement is A1 in c2v. Using point group c1 for displaced molecule.
137
138	SCF::compute: energy accuracy = 1.0000000e-07
139
140	integral intermediate storage = 260598 bytes
141	integral cache = 31731962 bytes
142	nuclear repulsion energy = 9.1571164588
143
144	Using symmetric orthogonalization.
145	n(SO): 30
146	Maximum orthogonalization residual = 4.46641
147	Minimum orthogonalization residual = 0.0188915
148	127284 integrals
149	iter 1 energy = -76.0456771429 delta = 8.83363e-02
150	127292 integrals
151	iter 2 energy = -76.0456769891 delta = 1.23427e-07
152
153	HOMO is 5 A = -0.497601
154	LUMO is 6 A = 0.150997
155
156	total scf energy = -76.0456769891
157
158	SCF::compute: gradient accuracy = 1.0000000e-05
159
160	Total Gradient:
161	1 O -0.0000000000 -0.0000000000 0.0142374752
162	2 H 0.0231236234 0.0000000000 -0.0071187376
163	3 H -0.0231236234 0.0000000000 -0.0071187376
164
165	Beginning displacement 1:
166	Molecule: setting point group to c1
167	Displacement is A1 in c2v. Using point group c1 for displaced molecule.
168
169	SCF::compute: energy accuracy = 1.0000000e-07
170
171	integral intermediate storage = 260598 bytes
172	integral cache = 31731962 bytes
173	nuclear repulsion energy = 9.1315880753
174
175	Using symmetric orthogonalization.
176	n(SO): 30
177	Maximum orthogonalization residual = 4.4655
178	Minimum orthogonalization residual = 0.018966
179	127284 integrals
180	iter 1 energy = -76.0453918693 delta = 8.78600e-02
181	127292 integrals
182	iter 2 energy = -76.0455638311 delta = 1.59498e-03
183	127289 integrals
184	iter 3 energy = -76.0455680474 delta = 2.63675e-04
185	127292 integrals
186	iter 4 energy = -76.0455683139 delta = 4.34224e-05
187	127291 integrals
188	iter 5 energy = -76.0455683517 delta = 1.37402e-05
189	127291 integrals
190	iter 6 energy = -76.0455683612 delta = 7.66141e-06
191	127292 integrals
192	iter 7 energy = -76.0455683616 delta = 1.46595e-06
193	127292 integrals
194	iter 8 energy = -76.0455683616 delta = 2.82450e-07
195
196	HOMO is 5 A = -0.497655
197	LUMO is 6 A = 0.150478
198
199	total scf energy = -76.0455683616
200
201	SCF::compute: gradient accuracy = 1.0000000e-05
202
203	Total Gradient:
204	1 O -0.0000000000 0.0000000000 0.0190185049
205	2 H 0.0246707370 -0.0000000000 -0.0095092524
206	3 H -0.0246707370 -0.0000000000 -0.0095092524
207
208	Beginning displacement 2:
209	Molecule: setting point group to c1
210	Displacement is A1 in c2v. Using point group c1 for displaced molecule.
211
212	SCF::compute: energy accuracy = 1.0000000e-07
213
214	integral intermediate storage = 260598 bytes
215	integral cache = 31731962 bytes
216	nuclear repulsion energy = 9.1948760979
217
218	Using symmetric orthogonalization.
219	n(SO): 30
220	Maximum orthogonalization residual = 4.47756
221	Minimum orthogonalization residual = 0.0185928
222	127284 integrals
223	iter 1 energy = -76.0455178037 delta = 8.93940e-02
224	127292 integrals
225	iter 2 energy = -76.0459950330 delta = 2.68219e-03
226	127291 integrals
227	iter 3 energy = -76.0460060703 delta = 4.18983e-04
228	127292 integrals
229	iter 4 energy = -76.0460069368 delta = 7.64385e-05
230	127291 integrals
231	iter 5 energy = -76.0460070603 delta = 2.34188e-05
232	127291 integrals
233	iter 6 energy = -76.0460070931 delta = 1.46368e-05
234	127292 integrals
235	iter 7 energy = -76.0460070941 delta = 2.31874e-06
236	127292 integrals
237	iter 8 energy = -76.0460070941 delta = 5.30064e-07
238
239	HOMO is 5 A = -0.497942
240	LUMO is 6 A = 0.151516
241
242	total scf energy = -76.0460070941
243
244	SCF::compute: gradient accuracy = 1.0000000e-05
245
246	Total Gradient:
247	1 O -0.0000000000 -0.0000000000 0.0099764904
248	2 H 0.0195527304 0.0000000000 -0.0049882452
249	3 H -0.0195527304 0.0000000000 -0.0049882452
250
251	Beginning displacement 3:
252	Molecule: setting point group to c1
253	Displacement is A1 in c2v. Using point group c1 for displaced molecule.
254
255	SCF::compute: energy accuracy = 1.0000000e-07
256
257	integral intermediate storage = 260598 bytes
258	integral cache = 31731962 bytes
259	nuclear repulsion energy = 9.1824897339
260
261	Using symmetric orthogonalization.
262	n(SO): 30
263	Maximum orthogonalization residual = 4.46728
264	Minimum orthogonalization residual = 0.0188248
265	127284 integrals
266	iter 1 energy = -76.0455956137 delta = 8.84118e-02
267	127292 integrals
268	iter 2 energy = -76.0457323416 delta = 9.31309e-04
269	127291 integrals
270	iter 3 energy = -76.0457348549 delta = 1.46121e-04
271	127292 integrals
272	iter 4 energy = -76.0457349005 delta = 2.15334e-05
273	127292 integrals
274	iter 5 energy = -76.0457349073 delta = 4.23235e-06
275	127291 integrals
276	iter 6 energy = -76.0457349088 delta = 3.02550e-06
277	127292 integrals
278	iter 7 energy = -76.0457349089 delta = 1.02427e-06
279	127291 integrals
280	iter 8 energy = -76.0457349089 delta = 1.75888e-07
281
282	HOMO is 5 A = -0.497547
283	LUMO is 6 A = 0.151510
284
285	total scf energy = -76.0457349089
286
287	SCF::compute: gradient accuracy = 1.0000000e-05
288
289	Total Gradient:
290	1 O 0.0000000000 -0.0000000000 0.0094663470
291	2 H 0.0215341123 0.0000000000 -0.0047331735
292	3 H -0.0215341123 -0.0000000000 -0.0047331735
293
294	Beginning displacement 4:
295	Molecule: setting point group to c1
296	Displacement is A1 in c2v. Using point group c1 for displaced molecule.
297
298	SCF::compute: energy accuracy = 1.0000000e-07
299
300	integral intermediate storage = 260598 bytes
301	integral cache = 31731962 bytes
302	nuclear repulsion energy = 9.1196611049
303
304	Using symmetric orthogonalization.
305	n(SO): 30
306	Maximum orthogonalization residual = 4.4553
307	Minimum orthogonalization residual = 0.0191947
308	127284 integrals
309	iter 1 energy = -76.0448017812 delta = 8.74325e-02
310	127292 integrals
311	iter 2 energy = -76.0452732341 delta = 2.52791e-03
312	127291 integrals
313	iter 3 energy = -76.0452843130 delta = 4.09889e-04
314	127292 integrals
315	iter 4 energy = -76.0452852010 delta = 7.62294e-05
316	127291 integrals
317	iter 5 energy = -76.0452853415 delta = 2.42589e-05
318	127291 integrals
319	iter 6 energy = -76.0452853793 delta = 1.58471e-05
320	127292 integrals
321	iter 7 energy = -76.0452853804 delta = 2.41390e-06
322	127292 integrals
323	iter 8 energy = -76.0452853805 delta = 5.49486e-07
324
325	HOMO is 5 A = -0.497265
326	LUMO is 6 A = 0.150471
327
328	total scf energy = -76.0452853805
329
330	SCF::compute: gradient accuracy = 1.0000000e-05
331
332	Total Gradient:
333	1 O 0.0000000000 0.0000000000 0.0183700475
334	2 H 0.0266018805 0.0000000000 -0.0091850237
335	3 H -0.0266018805 -0.0000000000 -0.0091850237
336
337	Beginning displacement 5:
338	Displacement is B1 in c2v. Using point group c1 for displaced molecule.
339
340	SCF::compute: energy accuracy = 1.0000000e-07
341
342	integral intermediate storage = 260598 bytes
343	integral cache = 31731962 bytes
344	nuclear repulsion energy = 9.1574031199
345
346	Using symmetric orthogonalization.
347	n(SO): 30
348	Maximum orthogonalization residual = 4.46643
349	Minimum orthogonalization residual = 0.0188804
350	127284 integrals
351	iter 1 energy = -76.0451719061 delta = 8.88057e-02
352	127292 integrals
353	iter 2 energy = -76.0456033067 delta = 1.62602e-03
354	127290 integrals
355	iter 3 energy = -76.0456111892 delta = 2.48275e-04
356	127292 integrals
357	iter 4 energy = -76.0456118015 delta = 4.60190e-05
358	127291 integrals
359	iter 5 energy = -76.0456118760 delta = 1.40824e-05
360	127291 integrals
361	iter 6 energy = -76.0456118944 delta = 8.49606e-06
362	127292 integrals
363	iter 7 energy = -76.0456118953 delta = 2.09014e-06
364	127291 integrals
365	iter 8 energy = -76.0456118953 delta = 3.70289e-07
366
367	HOMO is 5 A = -0.497605
368	LUMO is 6 A = 0.150981
369
370	total scf energy = -76.0456118953
371
372	SCF::compute: gradient accuracy = 1.0000000e-05
373
374	Total Gradient:
375	1 O 0.0098478616 -0.0000000000 0.0140810913
376	2 H 0.0181130403 0.0000000000 -0.0035729663
377	3 H -0.0279609018 0.0000000000 -0.0105081251
378	The external rank is 6
379
380	Frequencies (cm-1; negative is imaginary):
381	A1
382	1 3860.79
383	2 1753.23
384
385	B1
386	3 3982.05
387
388	THERMODYNAMIC ANALYSIS:
389
390	Contributions to the nonelectronic enthalpy at 298.15 K:
391	kJ/mol kcal/mol
392	E0vib = 57.3972 13.7183
393	Evib(T) = 0.0044 0.0011
394	Erot(T) = 3.7185 0.8887
395	Etrans(T) = 3.7185 0.8887
396	PV(T) = 2.4790 0.5925
397	Total nonelectronic enthalpy:
398	H_nonel(T) = 67.3176 16.0893
399
400	Contributions to the entropy at 298.15 K and 1.0 atm:
401	J/(molK) cal/(molK)
402	S_trans(T,P) = 144.8020 34.6085
403	S_rot(T) = 43.5773 10.4152
404	S_vib(T) = 0.0167 0.0040
405	S_el = 0.0000 0.0000
406	Total entropy:
407	S_total(T,P) = 188.3959 45.0277
408
409	Various data used for thermodynamic analysis:
410
411	Nonlinear molecule
412	Principal moments of inertia (amu*angstrom^2): 0.54952, 1.23885, 1.78837
413	Point group: c2v
414	Order of point group: 4
415	Rotational symmetry number: 2
416	Rotational temperatures (K): 44.1373, 19.5780, 13.5622
417	Electronic degeneracy: 1
418
419	Function Parameters:
420	value_accuracy = 9.224063e-08 (1.000000e-07)
421	gradient_accuracy = 9.224063e-06 (1.000000e-06)
422	hessian_accuracy = 0.000000e+00 (1.000000e-04) (computed)
423
424	Molecular Coordinates:
425	IntMolecularCoor Parameters:
426	update_bmat = no
427	scale_bonds = 1
428	scale_bends = 1
429	scale_tors = 1
430	scale_outs = 1
431	symmetry_tolerance = 1.000000e-05
432	simple_tolerance = 1.000000e-03
433	coordinate_tolerance = 1.000000e-07
434	have_fixed_values = 0
435	max_update_steps = 100
436	max_update_disp = 0.500000
437	have_fixed_values = 0
438
439	Molecular formula: H2O
440	molecule<Molecule>: (
441	symmetry = c1
442	unit = "angstrom"
443	{ n atoms geometry }={
444	1 O [ 0.0000000000 0.0000000000 0.3693729440]
445	2 H [ 0.7839758990 0.0000000000 -0.1846864720]
446	3 H [ -0.7839758990 0.0000000000 -0.1846864720]
447	}
448	)
449	Atomic Masses:
450	15.99491 1.00783 1.00783
451
452	Bonds:
453	STRE s1 0.96000 1 2 O-H
454	STRE s2 0.96000 1 3 O-H
455	Bends:
456	BEND b1 109.50000 2 1 3 H-O-H
457
458	SymmMolecularCoor Parameters:
459	change_coordinates = no
460	transform_hessian = yes
461	max_kappa2 = 10.000000
462
463	GaussianBasisSet:
464	nbasis = 30
465	nshell = 13
466	nprim = 24
467	name = "6-311G**"
468
469	SCF::compute: energy accuracy = 1.0000000e-07
470
471	integral intermediate storage = 260598 bytes
472	integral cache = 31731962 bytes
473	nuclear repulsion energy = 9.1571164588
474
475	Using symmetric orthogonalization.
476	n(SO): 30
477	Maximum orthogonalization residual = 4.46641
478	Minimum orthogonalization residual = 0.0188915
479	127284 integrals
480	iter 1 energy = -76.0453740011 delta = 8.83463e-02
481	127292 integrals
482	iter 2 energy = -76.0456711669 delta = 1.14120e-03
483	127291 integrals
484	iter 3 energy = -76.0456764986 delta = 1.80316e-04
485	127292 integrals
486	iter 4 energy = -76.0456769294 delta = 3.23010e-05
487	127291 integrals
488	iter 5 energy = -76.0456769821 delta = 1.11988e-05
489	127291 integrals
490	iter 6 energy = -76.0456769888 delta = 4.68550e-06
491	127292 integrals
492	iter 7 energy = -76.0456769891 delta = 1.09801e-06
493	127282 integrals
494	iter 8 energy = -76.0456769891 delta = 2.46052e-07
495
496	HOMO is 5 A = -0.497601
497	LUMO is 6 A = 0.150997
498
499	total scf energy = -76.0456769891
500	Natural Population Analysis:
501	n atom charge ne(S) ne(P) ne(D)
502	1 O -0.905149 3.736351 5.161302 0.007496
503	2 H 0.452574 0.544600 0.002825
504	3 H 0.452574 0.544600 0.002825
505
506	SCF Parameters:
507	maxiter = 40
508	density_reset_frequency = 10
509	level_shift = 0.000000
510
511	CLSCF Parameters:
512	charge = 0
513	ndocc = 5
514	docc = [ 5 ]
515
516	The following keywords in "h2ofrq_scf6311gssc2vfrq.in" were ignored:
517	mpqc:mole:guess_wavefunction:multiplicity
518	mpqc:mole:multiplicity
519
520	CPU Wall
521	mpqc: 3.65 4.00
522	NAO: 0.24 0.26
523	vector: 0.22 0.24
524	density: 0.00 0.00
525	evals: 0.01 0.01
526	extrap: 0.02 0.01
527	fock: 0.17 0.18
528	accum: 0.00 0.00
529	ao_gmat: 0.15 0.18
530	start thread: 0.15 0.15
531	stop thread: 0.00 0.02
532	init pmax: 0.00 0.00
533	local data: 0.00 0.00
534	setup: 0.00 0.00
535	sum: 0.00 0.00
536	symm: 0.01 0.00
537	calc: 0.29 0.30
538	vector: 0.29 0.30
539	density: 0.00 0.00
540	evals: 0.02 0.02
541	extrap: 0.02 0.01
542	fock: 0.18 0.20
543	accum: 0.00 0.00
544	ao_gmat: 0.16 0.19
545	start thread: 0.16 0.17
546	stop thread: 0.00 0.02
547	init pmax: 0.01 0.00
548	local data: 0.00 0.00
549	setup: 0.00 0.00
550	sum: 0.00 0.00
551	symm: 0.01 0.00
552	vector: 0.02 0.02
553	density: 0.00 0.00
554	evals: 0.00 0.00
555	extrap: 0.00 0.00
556	fock: 0.02 0.01
557	accum: 0.00 0.00
558	ao_gmat: 0.01 0.01
559	start thread: 0.01 0.00
560	stop thread: 0.00 0.00
561	init pmax: 0.00 0.00
562	local data: 0.00 0.00
563	setup: 0.00 0.00
564	sum: 0.00 0.00
565	symm: 0.00 0.00
566	hessian: 2.98 3.30
567	compute gradient: 1.68 1.91
568	nuc rep: 0.00 0.00
569	one electron gradient: 0.12 0.12
570	overlap gradient: 0.05 0.04
571	two electron gradient: 1.51 1.75
572	contribution: 0.89 1.13
573	start thread: 0.89 0.89
574	stop thread: 0.00 0.23
575	setup: 0.62 0.62
576	vector: 1.28 1.37
577	density: 0.02 0.02
578	evals: 0.07 0.08
579	extrap: 0.07 0.07
580	fock: 0.90 1.01
581	accum: 0.00 0.00
582	ao_gmat: 0.87 0.97
583	start thread: 0.86 0.86
584	stop thread: 0.00 0.11
585	init pmax: 0.00 0.00
586	local data: 0.03 0.01
587	setup: 0.00 0.00
588	sum: 0.00 0.00
589	symm: 0.00 0.02
590	input: 0.13 0.14
591
592	End Time: Sat Apr 6 13:35:37 2002
593

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