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BondFragment06.out@ bd81f9

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Action_Thermostats Add_AtomRandomPerturbation Add_FitFragmentPartialChargesAction Add_RotateAroundBondAction Add_SelectAtomByNameAction Added_ParseSaveFragmentResults AddingActions_SaveParseParticleParameters Adding_Graph_to_ChangeBondActions Adding_MD_integration_tests Adding_ParticleName_to_Atom Adding_StructOpt_integration_tests AtomFragments Automaking_mpqc_open AutomationFragmentation_failures Candidate_v1.5.4 Candidate_v1.6.0 Candidate_v1.6.1 ChangeBugEmailaddress ChangingTestPorts ChemicalSpaceEvaluator CombiningParticlePotentialParsing Combining_Subpackages Debian_Package_split Debian_package_split_molecuildergui_only Disabling_MemDebug Docu_Python_wait EmpiricalPotential_contain_HomologyGraph EmpiricalPotential_contain_HomologyGraph_documentation Enable_parallel_make_install Enhance_userguide Enhanced_StructuralOptimization Enhanced_StructuralOptimization_continued Example_ManyWaysToTranslateAtom Exclude_Hydrogens_annealWithBondGraph FitPartialCharges_GlobalError Fix_BoundInBox_CenterInBox_MoleculeActions Fix_ChargeSampling_PBC Fix_ChronosMutex Fix_FitPartialCharges Fix_FitPotential_needs_atomicnumbers Fix_ForceAnnealing Fix_IndependentFragmentGrids Fix_ParseParticles Fix_ParseParticles_split_forward_backward_Actions Fix_PopActions Fix_QtFragmentList_sorted_selection Fix_Restrictedkeyset_FragmentMolecule Fix_StatusMsg Fix_StepWorldTime_single_argument Fix_Verbose_Codepatterns Fix_fitting_potentials Fixes ForceAnnealing_goodresults ForceAnnealing_oldresults ForceAnnealing_tocheck ForceAnnealing_with_BondGraph ForceAnnealing_with_BondGraph_continued ForceAnnealing_with_BondGraph_continued_betteresults ForceAnnealing_with_BondGraph_contraction-expansion FragmentAction_writes_AtomFragments FragmentMolecule_checks_bonddegrees GeometryObjects Gui_Fixes Gui_displays_atomic_force_velocity ImplicitCharges IndependentFragmentGrids IndependentFragmentGrids_IndividualZeroInstances IndependentFragmentGrids_IntegrationTest IndependentFragmentGrids_Sole_NN_Calculation JobMarket_RobustOnKillsSegFaults JobMarket_StableWorkerPool JobMarket_unresolvable_hostname_fix MoreRobust_FragmentAutomation ODR_violation_mpqc_open PartialCharges_OrthogonalSummation PdbParser_setsAtomName PythonUI_with_named_parameters QtGui_reactivate_TimeChanged_changes Recreated_GuiChecks Rewrite_FitPartialCharges RotateToPrincipalAxisSystem_UndoRedo SaturateAtoms_findBestMatching SaturateAtoms_singleDegree StoppableMakroAction Subpackage_CodePatterns Subpackage_JobMarket Subpackage_LinearAlgebra Subpackage_levmar Subpackage_mpqc_open Subpackage_vmg Switchable_LogView ThirdParty_MPQC_rebuilt_buildsystem TrajectoryDependenant_MaxOrder TremoloParser_IncreasedPrecision TremoloParser_MultipleTimesteps TremoloParser_setsAtomName Ubuntu_1604_changes stable

Last change on this file since bd81f9 was 004d5c, checked in by Frederik Heber <heber@…>, 12 years ago

Removed JobMarket as it is now in its own repository.

added ax_jobmarket.m4.
added check to configure.ac
Removed libraries libJobMarket... in Makefile.am's, replaced by JobMarket_..._LIBS.
changed some includes that now required JobMarket/ prefix.

Larger change to get JobMarket including its tests out of MoleCuilder:

configure has new enable-switch for JobMarket. Only then, we tests for its presence and usability (and also for boost::asio).
I do not know how to check for AM_CONDITIONAL or config.h values properly in a shell. Hence, I moved all regression tests dealing with the JobMarket into their own folder tests/JobMarket with depends on CONDJOBMARKET whether its included or not, similar to tests/Python.
TESTFIX: regression tests moved to tests/JobMarket have their paths changed.
FragmentationAutomationAction is now conditionally compiled in as well.
some Makefile.am's changed because we now have JobMarket_CFLAGS and _LIBS similar CodePatterns.
We use boost::preprocessor to add it dependently on HAVE_JOBMARKET to src/Actions/GlobalListOfActions.
TESTFIX: The former required a small change to CodeChecks test testsuite-globallistofactions_hpp as we can check no longer for the action name within brackets there.
FIX: I removed some unnecessary includes (defs.hpp) from MPQCCommandJob...hpp into the .cpp files.

Property mode set to 100644

File size: 37.8 KB

Line
1
2	MPQC: Massively Parallel Quantum Chemistry
3	Version 2.3.1
4
5	Machine: i686-pc-linux-gnu
6	User: heber@Atlas
7	Start Time: Sat Apr 21 15:47:05 2012
8
9	Using ProcMessageGrp for message passing (number of nodes = 1).
10	Using PthreadThreadGrp for threading (number of threads = 1).
11	Using ProcMemoryGrp for distributed shared memory.
12	Total number of processors = 1
13
14	Using IntegralV3 by default for molecular integrals evaluation
15
16	Reading file /home/heber/install/share/mpqc/2.3.1/atominfo.kv.
17	Reading file /home/heber/install/share/mpqc/2.3.1/basis/3-21g.kv.
18
19	CLSCF::init: total charge = 0
20
21	docc = [ 5 ]
22	nbasis = 17
23
24	Molecular formula CH4
25
26	MPQC options:
27	matrixkit = <ReplSCMatrixKit>
28	filename = BondFragment06
29	restart_file = BondFragment06.ckpt
30	restart = yes
31	checkpoint = yes
32	savestate = no
33	do_energy = yes
34	do_gradient = yes
35	optimize = no
36	write_pdb = no
37	print_mole = yes
38	print_timings = yes
39
40	SCF::compute: energy accuracy = 1.0000000e-08
41
42	nuclear repulsion energy = 13.4351339093
43
44	integral intermediate storage = 25746 bytes
45	integral cache = 31971806 bytes
46	Starting from core Hamiltonian guess
47
48	Using symmetric orthogonalization.
49	n(basis): 17
50	Maximum orthogonalization residual = 4.01929
51	Minimum orthogonalization residual = 0.0337166
52	Beginning iterations. Basis is 3-21G.
53	14142 integrals
54	iter 1 energy = -39.7763808687 delta = 1.97161e-01
55	14163 integrals
56	iter 2 energy = -39.9543165850 delta = 6.50960e-02
57	14118 integrals
58	iter 3 energy = -39.9740419017 delta = 2.35294e-02
59	14163 integrals
60	iter 4 energy = -39.9766943539 delta = 4.61466e-03
61	14142 integrals
62	iter 5 energy = -39.9767379195 delta = 1.46119e-03
63	14163 integrals
64	iter 6 energy = -39.9767391880 delta = 2.30999e-04
65	14163 integrals
66	iter 7 energy = -39.9767391933 delta = 1.67155e-05
67	14112 integrals
68	iter 8 energy = -39.9767391941 delta = 1.76495e-06
69	14163 integrals
70	iter 9 energy = -39.9767391934 delta = 9.76678e-08
71
72	HOMO is 5 A = -0.542925
73	LUMO is 6 A = 0.294768
74
75	total scf energy = -39.9767391934
76
77	SCF::compute: gradient accuracy = 1.0000000e-06
78
79	Total Gradient:
80	1 H -0.0000016307 0.0029443434 -0.0041658316
81	2 H -0.0000016307 0.0029443434 0.0041658316
82	3 H 0.0041893005 -0.0029737362 -0.0000000000
83	4 H -0.0041536141 -0.0029461076 -0.0000000000
84	5 C -0.0000324249 0.0000311570 -0.0000000000
85
86	Value of the MolecularEnergy: -39.9767391934
87
88
89	Gradient of the MolecularEnergy:
90	1 -0.0000016307
91	2 0.0029443434
92	3 -0.0041658316
93	4 -0.0000016307
94	5 0.0029443434
95	6 0.0041658316
96	7 0.0041893005
97	8 -0.0029737362
98	9 -0.0000000000
99	10 -0.0041536141
100	11 -0.0029461076
101	12 -0.0000000000
102	13 -0.0000324249
103	14 0.0000311570
104	15 -0.0000000000
105
106	The external rank is 6
107	Computing molecular hessian from 19 displacements:
108	Starting at displacement: 0
109	Hessian options:
110	displacement: 0.0100000000 bohr
111	gradient_accuracy: 0.0000100000 au
112	eliminate_cubic_terms: yes
113	only_totally_symmetric: no
114
115	Beginning displacement 0:
116	Molecule: setting point group to c1
117	Displacement is A in c1. Using point group c1 for displaced molecule.
118
119	SCF::compute: energy accuracy = 1.0000000e-07
120
121	nuclear repulsion energy = 13.4351339093
122
123	integral intermediate storage = 25746 bytes
124	integral cache = 31971806 bytes
125	Using symmetric orthogonalization.
126	n(basis): 17
127	Maximum orthogonalization residual = 4.0192898766
128	Minimum orthogonalization residual = 0.0337165503
129	Beginning iterations. Basis is 3-21G.
130	14142 integrals
131	iter 1 energy = -39.9767355158 delta = 2.05397e-01
132	14163 integrals
133	iter 2 energy = -39.9767391932 delta = 1.86232e-06
134	14163 integrals
135	iter 3 energy = -39.9767391933 delta = 8.54118e-07
136	14163 integrals
137	iter 4 energy = -39.9767391934 delta = 2.56964e-07
138	14163 integrals
139	iter 5 energy = -39.9767391934 delta = 2.19283e-07
140	14163 integrals
141	iter 6 energy = -39.9767391934 delta = 1.28687e-07
142	14163 integrals
143	iter 7 energy = -39.9767391934 delta = 4.06740e-07
144
145	HOMO is 5 A = -0.542925
146	LUMO is 6 A = 0.294768
147
148	total scf energy = -39.9767391934
149
150	SCF::compute: gradient accuracy = 1.0000000e-05
151
152	Total Gradient:
153	1 H -0.0000016307 0.0029443437 -0.0041658321
154	2 H -0.0000016307 0.0029443437 0.0041658321
155	3 H 0.0041893010 -0.0029737366 -0.0000000000
156	4 H -0.0041536146 -0.0029461079 0.0000000000
157	5 C -0.0000324249 0.0000311570 0.0000000000
158
159	Beginning displacement 1:
160	Molecule: setting point group to c1
161	Displacement is A in c1. Using point group c1 for displaced molecule.
162
163	SCF::compute: energy accuracy = 1.0000000e-07
164
165	nuclear repulsion energy = 13.4484172484
166
167	integral intermediate storage = 25746 bytes
168	integral cache = 31971806 bytes
169	Using symmetric orthogonalization.
170	n(basis): 17
171	Maximum orthogonalization residual = 4.0229228942
172	Minimum orthogonalization residual = 0.0336012774
173	Beginning iterations. Basis is 3-21G.
174	14138 integrals
175	iter 1 energy = -39.9767595989 delta = 2.05487e-01
176	14163 integrals
177	iter 2 energy = -39.9767680632 delta = 4.23146e-04
178	14157 integrals
179	iter 3 energy = -39.9767685454 delta = 1.07629e-04
180	14163 integrals
181	iter 4 energy = -39.9767685980 delta = 2.48458e-05
182	14155 integrals
183	iter 5 energy = -39.9767686039 delta = 1.27934e-05
184	14136 integrals
185	iter 6 energy = -39.9767686042 delta = 3.25373e-06
186
187	HOMO is 5 A = -0.542554
188	LUMO is 6 A = 0.295056
189
190	total scf energy = -39.9767686042
191
192	SCF::compute: gradient accuracy = 1.0000000e-05
193
194	Total Gradient:
195	1 H 0.0001435662 0.0033269285 -0.0037693669
196	2 H -0.0002383760 0.0018991628 0.0018577648
197	3 H 0.0036494996 -0.0029085044 -0.0001414283
198	4 H -0.0040474964 -0.0031217940 0.0002423461
199	5 C 0.0004928067 0.0008042072 0.0018106843
200
201	Beginning displacement 2:
202	Molecule: setting point group to c1
203	Displacement is A in c1. Using point group c1 for displaced molecule.
204
205	SCF::compute: energy accuracy = 1.0000000e-07
206
207	nuclear repulsion energy = 13.4417383053
208
209	integral intermediate storage = 25746 bytes
210	integral cache = 31971806 bytes
211	Using symmetric orthogonalization.
212	n(basis): 17
213	Maximum orthogonalization residual = 4.0210822128
214	Minimum orthogonalization residual = 0.0336576306
215	Beginning iterations. Basis is 3-21G.
216	14134 integrals
217	iter 1 energy = -39.9766706844 delta = 2.05361e-01
218	14163 integrals
219	iter 2 energy = -39.9767208508 delta = 8.60663e-04
220	14157 integrals
221	iter 3 energy = -39.9767241999 delta = 2.59835e-04
222	14136 integrals
223	iter 4 energy = -39.9767245157 delta = 9.63252e-05
224	14163 integrals
225	iter 5 energy = -39.9767245282 delta = 1.68501e-05
226	14142 integrals
227	iter 6 energy = -39.9767245292 delta = 6.59661e-06
228	14163 integrals
229	iter 7 energy = -39.9767245292 delta = 2.03807e-07
230
231	HOMO is 5 A = -0.541465
232	LUMO is 6 A = 0.294896
233
234	total scf energy = -39.9767245292
235
236	SCF::compute: gradient accuracy = 1.0000000e-05
237
238	Total Gradient:
239	1 H 0.0000013085 0.0016343550 -0.0020687305
240	2 H 0.0000755031 0.0034992119 0.0050179157
241	3 H 0.0063860676 -0.0046823099 0.0001960033
242	4 H -0.0016764076 -0.0014020098 0.0001179345
243	5 C -0.0047864716 0.0009507528 -0.0032631230
244
245	Beginning displacement 3:
246	Molecule: setting point group to c1
247	Displacement is A in c1. Using point group c1 for displaced molecule.
248
249	SCF::compute: energy accuracy = 1.0000000e-07
250
251	nuclear repulsion energy = 13.4239794946
252
253	integral intermediate storage = 25746 bytes
254	integral cache = 31971806 bytes
255	Using symmetric orthogonalization.
256	n(basis): 17
257	Maximum orthogonalization residual = 4.0162535240
258	Minimum orthogonalization residual = 0.0338132844
259	Beginning iterations. Basis is 3-21G.
260	14126 integrals
261	iter 1 energy = -39.9766468185 delta = 2.05284e-01
262	14163 integrals
263	iter 2 energy = -39.9766891636 delta = 9.81993e-04
264	14143 integrals
265	iter 3 energy = -39.9766926847 delta = 2.88576e-04
266	14163 integrals
267	iter 4 energy = -39.9766930053 delta = 8.75199e-05
268	14145 integrals
269	iter 5 energy = -39.9766930413 delta = 3.21558e-05
270	14163 integrals
271	iter 6 energy = -39.9766930424 delta = 7.33859e-06
272	14163 integrals
273	iter 7 energy = -39.9766930424 delta = 2.61578e-07
274
275	HOMO is 5 A = -0.541603
276	LUMO is 6 A = 0.294519
277
278	total scf energy = -39.9766930424
279
280	SCF::compute: gradient accuracy = 1.0000000e-05
281
282	Total Gradient:
283	1 H -0.0001989959 0.0035400107 -0.0049606709
284	2 H -0.0001875269 0.0033976649 0.0037337945
285	3 H 0.0051261278 -0.0034519367 -0.0005106292
286	4 H -0.0048469388 -0.0029814401 -0.0005198130
287	5 C 0.0001073338 -0.0005042988 0.0022573185
288
289	Beginning displacement 4:
290	Molecule: setting point group to c1
291	Displacement is A in c1. Using point group c1 for displaced molecule.
292
293	SCF::compute: energy accuracy = 1.0000000e-07
294
295	nuclear repulsion energy = 13.4225176383
296
297	integral intermediate storage = 25746 bytes
298	integral cache = 31971806 bytes
299	Using symmetric orthogonalization.
300	n(basis): 17
301	Maximum orthogonalization residual = 4.0158374269
302	Minimum orthogonalization residual = 0.0338263467
303	Beginning iterations. Basis is 3-21G.
304	14126 integrals
305	iter 1 energy = -39.9766431664 delta = 2.05388e-01
306	14163 integrals
307	iter 2 energy = -39.9766688294 delta = 7.83198e-04
308	14151 integrals
309	iter 3 energy = -39.9766712449 delta = 2.40638e-04
310	14128 integrals
311	iter 4 energy = -39.9766714542 delta = 9.01359e-05
312	14163 integrals
313	iter 5 energy = -39.9766714610 delta = 1.19687e-05
314	14117 integrals
315	iter 6 energy = -39.9766714608 delta = 1.78038e-06
316	14163 integrals
317	iter 7 energy = -39.9766714612 delta = 2.02131e-07
318
319	HOMO is 5 A = -0.540790
320	LUMO is 6 A = 0.294481
321
322	total scf energy = -39.9766714612
323
324	SCF::compute: gradient accuracy = 1.0000000e-05
325
326	Total Gradient:
327	1 H -0.0002805478 0.0042225167 -0.0048498745
328	2 H -0.0002974489 0.0049450319 0.0066241055
329	3 H 0.0030616159 -0.0022129591 0.0003655840
330	4 H -0.0041000206 -0.0025434584 0.0003817285
331	5 C 0.0016164014 -0.0044111311 -0.0025215434
332
333	Beginning displacement 5:
334	Molecule: setting point group to c1
335	Displacement is A in c1. Using point group c1 for displaced molecule.
336
337	SCF::compute: energy accuracy = 1.0000000e-07
338
339	nuclear repulsion energy = 13.4307316612
340
341	integral intermediate storage = 25746 bytes
342	integral cache = 31971806 bytes
343	Using symmetric orthogonalization.
344	n(basis): 17
345	Maximum orthogonalization residual = 4.0180886142
346	Minimum orthogonalization residual = 0.0337552706
347	Beginning iterations. Basis is 3-21G.
348	14134 integrals
349	iter 1 energy = -39.9766808132 delta = 2.05453e-01
350	14163 integrals
351	iter 2 energy = -39.9767134147 delta = 8.17766e-04
352	14158 integrals
353	iter 3 energy = -39.9767159470 delta = 2.53012e-04
354	14135 integrals
355	iter 4 energy = -39.9767161704 delta = 8.60503e-05
356	14163 integrals
357	iter 5 energy = -39.9767161880 delta = 1.80910e-05
358	14131 integrals
359	iter 6 energy = -39.9767161887 delta = 4.98261e-06
360	14163 integrals
361	iter 7 energy = -39.9767161885 delta = 1.86742e-07
362
363	HOMO is 5 A = -0.541889
364	LUMO is 6 A = 0.294669
365
366	total scf energy = -39.9767161885
367
368	SCF::compute: gradient accuracy = 1.0000000e-05
369
370	Total Gradient:
371	1 H -0.0002766137 0.0038208379 -0.0052492280
372	2 H 0.0005168272 0.0029486343 0.0036802421
373	3 H 0.0041560178 -0.0034317294 0.0002289940
374	4 H -0.0036463067 -0.0032411050 -0.0005641760
375	5 C -0.0007499246 -0.0000966378 0.0019041679
376
377	Beginning displacement 6:
378	Molecule: setting point group to c1
379	Displacement is A in c1. Using point group c1 for displaced molecule.
380
381	SCF::compute: energy accuracy = 1.0000000e-07
382
383	nuclear repulsion energy = 13.4368610577
384
385	integral intermediate storage = 25746 bytes
386	integral cache = 31971806 bytes
387	Using symmetric orthogonalization.
388	n(basis): 17
389	Maximum orthogonalization residual = 4.0197489360
390	Minimum orthogonalization residual = 0.0337005383
391	Beginning iterations. Basis is 3-21G.
392	14134 integrals
393	iter 1 energy = -39.9766459063 delta = 2.05443e-01
394	14163 integrals
395	iter 2 energy = -39.9767026523 delta = 9.44650e-04
396	14149 integrals
397	iter 3 energy = -39.9767066014 delta = 2.92149e-04
398	14126 integrals
399	iter 4 energy = -39.9767069727 delta = 1.09097e-04
400	14163 integrals
401	iter 5 energy = -39.9767069869 delta = 1.74616e-05
402	14138 integrals
403	iter 6 energy = -39.9767069878 delta = 6.47715e-06
404	14163 integrals
405	iter 7 energy = -39.9767069879 delta = 2.21906e-07
406
407	HOMO is 5 A = -0.541109
408	LUMO is 6 A = 0.294790
409
410	total scf energy = -39.9767069879
411
412	SCF::compute: gradient accuracy = 1.0000000e-05
413
414	Total Gradient:
415	1 H -0.0003095408 0.0009934223 -0.0013889668
416	2 H -0.0002505311 0.0035803242 0.0051690282
417	3 H 0.0029166362 -0.0026680618 0.0000919146
418	4 H -0.0064632459 -0.0047824994 0.0000271217
419	5 C 0.0041066816 0.0028768147 -0.0038990976
420
421	Beginning displacement 7:
422	Molecule: setting point group to c1
423	Displacement is A in c1. Using point group c1 for displaced molecule.
424
425	SCF::compute: energy accuracy = 1.0000000e-07
426
427	nuclear repulsion energy = 13.4480282659
428
429	integral intermediate storage = 25746 bytes
430	integral cache = 31971806 bytes
431	Using symmetric orthogonalization.
432	n(basis): 17
433	Maximum orthogonalization residual = 4.0228177217
434	Minimum orthogonalization residual = 0.0336038884
435	Beginning iterations. Basis is 3-21G.
436	14134 integrals
437	iter 1 energy = -39.9766908738 delta = 2.05479e-01
438	14163 integrals
439	iter 2 energy = -39.9767560948 delta = 1.01524e-03
440	14150 integrals
441	iter 3 energy = -39.9767605261 delta = 3.09407e-04
442	14123 integrals
443	iter 4 energy = -39.9767609343 delta = 1.07948e-04
444	14163 integrals
445	iter 5 energy = -39.9767609654 delta = 2.57476e-05
446	14137 integrals
447	iter 6 energy = -39.9767609671 delta = 7.69202e-06
448	14163 integrals
449	iter 7 energy = -39.9767609667 delta = 2.41945e-07
450
451	HOMO is 5 A = -0.542186
452	LUMO is 6 A = 0.295044
453
454	total scf energy = -39.9767609667
455
456	SCF::compute: gradient accuracy = 1.0000000e-05
457
458	Total Gradient:
459	1 H -0.0000284251 0.0033066850 -0.0050615014
460	2 H -0.0003675537 0.0033687727 0.0044744886
461	3 H 0.0020254222 -0.0017424649 -0.0005002040
462	4 H -0.0025575775 -0.0018428334 -0.0001644689
463	5 C 0.0009281340 -0.0030901593 0.0012516857
464
465	Beginning displacement 8:
466	Molecule: setting point group to c1
467	Displacement is A in c1. Using point group c1 for displaced molecule.
468
469	SCF::compute: energy accuracy = 1.0000000e-07
470
471	nuclear repulsion energy = 13.4266938511
472
473	integral intermediate storage = 25746 bytes
474	integral cache = 31971806 bytes
475	Using symmetric orthogonalization.
476	n(basis): 17
477	Maximum orthogonalization residual = 4.0169894210
478	Minimum orthogonalization residual = 0.0337898420
479	Beginning iterations. Basis is 3-21G.
480	14130 integrals
481	iter 1 energy = -39.9766744508 delta = 2.05261e-01
482	14163 integrals
483	iter 2 energy = -39.9766964367 delta = 8.08846e-04
484	14154 integrals
485	iter 3 energy = -39.9766982938 delta = 2.19474e-04
486	14163 integrals
487	iter 4 energy = -39.9766984710 delta = 5.52184e-05
488	14145 integrals
489	iter 5 energy = -39.9766984932 delta = 2.73636e-05
490	14115 integrals
491	iter 6 energy = -39.9766984935 delta = 5.88067e-06
492	14163 integrals
493	iter 7 energy = -39.9766984938 delta = 2.10085e-07
494
495	HOMO is 5 A = -0.542026
496	LUMO is 6 A = 0.294578
497
498	total scf energy = -39.9766984938
499
500	SCF::compute: gradient accuracy = 1.0000000e-05
501
502	Total Gradient:
503	1 H 0.0007710821 0.0029967494 -0.0038988651
504	2 H 0.0003289622 0.0043114324 0.0056528539
505	3 H 0.0048425959 -0.0031583766 -0.0002750562
506	4 H -0.0034654401 -0.0029595000 0.0001720271
507	5 C -0.0024772000 -0.0011903051 -0.0016509597
508
509	Beginning displacement 9:
510	Molecule: setting point group to c1
511	Displacement is A in c1. Using point group c1 for displaced molecule.
512
513	SCF::compute: energy accuracy = 1.0000000e-07
514
515	nuclear repulsion energy = 13.4525950985
516
517	integral intermediate storage = 25746 bytes
518	integral cache = 31971806 bytes
519	Using symmetric orthogonalization.
520	n(basis): 17
521	Maximum orthogonalization residual = 4.0240672795
522	Minimum orthogonalization residual = 0.0335654780
523	Beginning iterations. Basis is 3-21G.
524	14142 integrals
525	iter 1 energy = -39.9767512306 delta = 2.05572e-01
526	14163 integrals
527	iter 2 energy = -39.9767747020 delta = 7.64111e-04
528	14163 integrals
529	iter 3 energy = -39.9767759764 delta = 1.93206e-04
530	14163 integrals
531	iter 4 energy = -39.9767761289 delta = 4.22922e-05
532	14163 integrals
533	iter 5 energy = -39.9767761404 delta = 2.08566e-05
534	14124 integrals
535	iter 6 energy = -39.9767761407 delta = 4.53628e-06
536	14163 integrals
537	iter 7 energy = -39.9767761408 delta = 1.88368e-07
538
539	HOMO is 5 A = -0.542104
540	LUMO is 6 A = 0.295148
541
542	total scf energy = -39.9767761408
543
544	SCF::compute: gradient accuracy = 1.0000000e-05
545
546	Total Gradient:
547	1 H -0.0000864407 0.0025845556 -0.0031401385
548	2 H 0.0004039173 0.0035569479 0.0045576276
549	3 H 0.0027103312 -0.0012551285 0.0002660659
550	4 H -0.0031846112 -0.0018104241 -0.0002199277
551	5 C 0.0001568034 -0.0030759508 -0.0014636273
552
553	Beginning displacement 10:
554	Molecule: setting point group to c1
555	Displacement is A in c1. Using point group c1 for displaced molecule.
556
557	SCF::compute: energy accuracy = 1.0000000e-07
558
559	nuclear repulsion energy = 13.4218761481
560
561	integral intermediate storage = 25746 bytes
562	integral cache = 31971806 bytes
563	Using symmetric orthogonalization.
564	n(basis): 17
565	Maximum orthogonalization residual = 4.0156639705
566	Minimum orthogonalization residual = 0.0338316475
567	Beginning iterations. Basis is 3-21G.
568	14126 integrals
569	iter 1 energy = -39.9766726584 delta = 2.05199e-01
570	14163 integrals
571	iter 2 energy = -39.9766841083 delta = 8.39917e-04
572	14149 integrals
573	iter 3 energy = -39.9766854415 delta = 1.99005e-04
574	14163 integrals
575	iter 4 energy = -39.9766856114 delta = 4.24095e-05
576	14148 integrals
577	iter 5 energy = -39.9766856196 delta = 1.74545e-05
578	14163 integrals
579	iter 6 energy = -39.9766856197 delta = 4.10074e-06
580	14163 integrals
581	iter 7 energy = -39.9766856197 delta = 2.25276e-07
582
583	HOMO is 5 A = -0.541767
584	LUMO is 6 A = 0.294471
585
586	total scf energy = -39.9766856197
587
588	SCF::compute: gradient accuracy = 1.0000000e-05
589
590	Total Gradient:
591	1 H -0.0001473019 0.0025634160 -0.0045599175
592	2 H 0.0002381405 0.0039574359 0.0064359236
593	3 H 0.0047284324 -0.0030389689 0.0001408964
594	4 H -0.0042594552 -0.0027705616 -0.0002428295
595	5 C -0.0005598158 -0.0007113215 -0.0017740730
596
597	Beginning displacement 11:
598	Molecule: setting point group to c1
599	Displacement is A in c1. Using point group c1 for displaced molecule.
600
601	SCF::compute: energy accuracy = 1.0000000e-07
602
603	nuclear repulsion energy = 13.4287588509
604
605	integral intermediate storage = 25746 bytes
606	integral cache = 31971806 bytes
607	Using symmetric orthogonalization.
608	n(basis): 17
609	Maximum orthogonalization residual = 4.0175325849
610	Minimum orthogonalization residual = 0.0337703227
611	Beginning iterations. Basis is 3-21G.
612	14126 integrals
613	iter 1 energy = -39.9766382361 delta = 2.05445e-01
614	14163 integrals
615	iter 2 energy = -39.9766811317 delta = 8.63805e-04
616	14149 integrals
617	iter 3 energy = -39.9766844806 delta = 2.61145e-04
618	14130 integrals
619	iter 4 energy = -39.9766847922 delta = 9.38837e-05
620	14163 integrals
621	iter 5 energy = -39.9766848100 delta = 1.86382e-05
622	14142 integrals
623	iter 6 energy = -39.9766848112 delta = 6.77920e-06
624	14163 integrals
625	iter 7 energy = -39.9766848111 delta = 2.11063e-07
626
627	HOMO is 5 A = -0.541250
628	LUMO is 6 A = 0.294611
629
630	total scf energy = -39.9766848111
631
632	SCF::compute: gradient accuracy = 1.0000000e-05
633
634	Total Gradient:
635	1 H -0.0000082537 0.0042204198 -0.0062192227
636	2 H -0.0000770845 0.0023840113 0.0033079008
637	3 H 0.0019314515 -0.0012224465 -0.0001884489
638	4 H -0.0065770024 -0.0044432684 -0.0001234750
639	5 C 0.0047308891 -0.0009387162 0.0032232458
640
641	Beginning displacement 12:
642	Molecule: setting point group to c1
643	Displacement is A in c1. Using point group c1 for displaced molecule.
644
645	SCF::compute: energy accuracy = 1.0000000e-07
646
647	nuclear repulsion energy = 13.4461706392
648
649	integral intermediate storage = 25746 bytes
650	integral cache = 31971806 bytes
651	Using symmetric orthogonalization.
652	n(basis): 17
653	Maximum orthogonalization residual = 4.0223231505
654	Minimum orthogonalization residual = 0.0336206679
655	Beginning iterations. Basis is 3-21G.
656	14134 integrals
657	iter 1 energy = -39.9767093868 delta = 2.05517e-01
658	14163 integrals
659	iter 2 energy = -39.9767586160 delta = 9.84142e-04
660	14150 integrals
661	iter 3 energy = -39.9767621317 delta = 2.90356e-04
662	14163 integrals
663	iter 4 energy = -39.9767624499 delta = 8.54883e-05
664	14150 integrals
665	iter 5 energy = -39.9767624865 delta = 3.31526e-05
666	14163 integrals
667	iter 6 energy = -39.9767624877 delta = 7.09099e-06
668	14163 integrals
669	iter 7 energy = -39.9767624877 delta = 2.40906e-07
670
671	HOMO is 5 A = -0.542383
672	LUMO is 6 A = 0.295008
673
674	total scf energy = -39.9767624877
675
676	SCF::compute: gradient accuracy = 1.0000000e-05
677
678	Total Gradient:
679	1 H 0.0001929856 0.0023407498 -0.0033589080
680	2 H 0.0001852432 0.0024912080 0.0046042281
681	3 H 0.0032509826 -0.0024948360 0.0005089588
682	4 H -0.0034644435 -0.0029134418 0.0005187972
683	5 C -0.0001647678 0.0005763200 -0.0022730761
684
685	Beginning displacement 13:
686	Molecule: setting point group to c1
687	Displacement is A in c1. Using point group c1 for displaced molecule.
688
689	SCF::compute: energy accuracy = 1.0000000e-07
690
691	nuclear repulsion energy = 13.4477546280
692
693	integral intermediate storage = 25746 bytes
694	integral cache = 31971806 bytes
695	Using symmetric orthogonalization.
696	n(basis): 17
697	Maximum orthogonalization residual = 4.0227395935
698	Minimum orthogonalization residual = 0.0336072974
699	Beginning iterations. Basis is 3-21G.
700	14142 integrals
701	iter 1 energy = -39.9767068794 delta = 2.05415e-01
702	14163 integrals
703	iter 2 energy = -39.9767470596 delta = 7.88330e-04
704	14163 integrals
705	iter 3 energy = -39.9767494819 delta = 2.41312e-04
706	14139 integrals
707	iter 4 energy = -39.9767496987 delta = 8.99437e-05
708	14163 integrals
709	iter 5 energy = -39.9767496976 delta = 1.07995e-05
710	14136 integrals
711	iter 6 energy = -39.9767496978 delta = 2.69742e-06
712	14163 integrals
713	iter 7 energy = -39.9767496978 delta = 1.75285e-07
714
715	HOMO is 5 A = -0.541628
716	LUMO is 6 A = 0.295037
717
718	total scf energy = -39.9767496978
719
720	SCF::compute: gradient accuracy = 1.0000000e-05
721
722	Total Gradient:
723	1 H 0.0002730532 0.0016700695 -0.0034794972
724	2 H 0.0002841465 0.0008882559 0.0016191766
725	3 H 0.0052984363 -0.0037229941 -0.0003737127
726	4 H -0.0042139263 -0.0033551143 -0.0003857454
727	5 C -0.0016417097 0.0045197830 0.0026197786
728
729	Beginning displacement 14:
730	Molecule: setting point group to c1
731	Displacement is A in c1. Using point group c1 for displaced molecule.
732
733	SCF::compute: energy accuracy = 1.0000000e-07
734
735	nuclear repulsion energy = 13.4394779045
736
737	integral intermediate storage = 25746 bytes
738	integral cache = 31971806 bytes
739	Using symmetric orthogonalization.
740	n(basis): 17
741	Maximum orthogonalization residual = 4.0204806000
742	Minimum orthogonalization residual = 0.0336793349
743	Beginning iterations. Basis is 3-21G.
744	14134 integrals
745	iter 1 energy = -39.9767081115 delta = 2.05349e-01
746	14163 integrals
747	iter 2 energy = -39.9767409469 delta = 8.14584e-04
748	14155 integrals
749	iter 3 energy = -39.9767434859 delta = 2.51183e-04
750	14135 integrals
751	iter 4 energy = -39.9767437110 delta = 8.78111e-05
752	14163 integrals
753	iter 5 energy = -39.9767437159 delta = 1.70830e-05
754	14131 integrals
755	iter 6 energy = -39.9767437162 delta = 4.97393e-06
756	14163 integrals
757	iter 7 energy = -39.9767437164 delta = 1.89777e-07
758
759	HOMO is 5 A = -0.541935
760	LUMO is 6 A = 0.294862
761
762	total scf energy = -39.9767437164
763
764	SCF::compute: gradient accuracy = 1.0000000e-05
765
766	Total Gradient:
767	1 H 0.0002730415 0.0020562199 -0.0030682303
768	2 H -0.0005228710 0.0029384097 0.0046519275
769	3 H 0.0042207680 -0.0025157947 -0.0002299373
770	4 H -0.0046647197 -0.0026531871 0.0005662644
771	5 C 0.0006937813 0.0001743522 -0.0019200242
772
773	Beginning displacement 15:
774	Molecule: setting point group to c1
775	Displacement is A in c1. Using point group c1 for displaced molecule.
776
777	SCF::compute: energy accuracy = 1.0000000e-07
778
779	nuclear repulsion energy = 13.4335836510
780
781	integral intermediate storage = 25746 bytes
782	integral cache = 31971806 bytes
783	Using symmetric orthogonalization.
784	n(basis): 17
785	Maximum orthogonalization residual = 4.0188521943
786	Minimum orthogonalization residual = 0.0337289518
787	Beginning iterations. Basis is 3-21G.
788	14130 integrals
789	iter 1 energy = -39.9766389180 delta = 2.05365e-01
790	14163 integrals
791	iter 2 energy = -39.9766922070 delta = 9.40755e-04
792	14146 integrals
793	iter 3 energy = -39.9766961552 delta = 2.90708e-04
794	14124 integrals
795	iter 4 energy = -39.9766965283 delta = 1.10725e-04
796	14163 integrals
797	iter 5 energy = -39.9766965388 delta = 1.60807e-05
798	14135 integrals
799	iter 6 energy = -39.9766965397 delta = 6.19962e-06
800	14163 integrals
801	iter 7 energy = -39.9766965397 delta = 2.29745e-07
802
803	HOMO is 5 A = -0.541085
804	LUMO is 6 A = 0.294718
805
806	total scf energy = -39.9766965397
807
808	SCF::compute: gradient accuracy = 1.0000000e-05
809
810	Total Gradient:
811	1 H 0.0003195261 0.0048376553 -0.0068569365
812	2 H 0.0002444575 0.0023023602 0.0031597503
813	3 H 0.0054622882 -0.0032706311 -0.0000919024
814	4 H -0.0017665027 -0.0010589554 -0.0000220873
815	5 C -0.0042597690 -0.0028104290 0.0038111759
816
817	Beginning displacement 16:
818	Molecule: setting point group to c1
819	Displacement is A in c1. Using point group c1 for displaced molecule.
820
821	SCF::compute: energy accuracy = 1.0000000e-07
822
823	nuclear repulsion energy = 13.4223007123
824
825	integral intermediate storage = 25746 bytes
826	integral cache = 31971806 bytes
827	Using symmetric orthogonalization.
828	n(basis): 17
829	Maximum orthogonalization residual = 4.0157806901
830	Minimum orthogonalization residual = 0.0338272350
831	Beginning iterations. Basis is 3-21G.
832	14126 integrals
833	iter 1 energy = -39.9766171790 delta = 2.05327e-01
834	14163 integrals
835	iter 2 energy = -39.9766753822 delta = 1.01257e-03
836	14143 integrals
837	iter 3 energy = -39.9766797951 delta = 3.06834e-04
838	14119 integrals
839	iter 4 energy = -39.9766802140 delta = 1.09458e-04
840	14163 integrals
841	iter 5 energy = -39.9766802319 delta = 2.38293e-05
842	14133 integrals
843	iter 6 energy = -39.9766802329 delta = 7.74655e-06
844	14163 integrals
845	iter 7 energy = -39.9766802333 delta = 2.53688e-07
846
847	HOMO is 5 A = -0.541654
848	LUMO is 6 A = 0.294477
849
850	total scf energy = -39.9766802333
851
852	SCF::compute: gradient accuracy = 1.0000000e-05
853
854	Total Gradient:
855	1 H 0.0000243310 0.0025734704 -0.0032617569
856	2 H 0.0003623310 0.0025229867 0.0038583172
857	3 H 0.0063111756 -0.0041733581 0.0005097237
858	4 H -0.0057250910 -0.0040362555 0.0001682870
859	5 C -0.0009727467 0.0031131564 -0.0012745709
860
861	Beginning displacement 17:
862	Molecule: setting point group to c1
863	Displacement is A in c1. Using point group c1 for displaced molecule.
864
865	SCF::compute: energy accuracy = 1.0000000e-07
866
867	nuclear repulsion energy = 13.4435005320
868
869	integral intermediate storage = 25746 bytes
870	integral cache = 31971806 bytes
871	Using symmetric orthogonalization.
872	n(basis): 17
873	Maximum orthogonalization residual = 4.0215864615
874	Minimum orthogonalization residual = 0.0336439181
875	Beginning iterations. Basis is 3-21G.
876	14138 integrals
877	iter 1 energy = -39.9767199601 delta = 2.05540e-01
878	14163 integrals
879	iter 2 energy = -39.9767490871 delta = 8.14669e-04
880	14160 integrals
881	iter 3 energy = -39.9767509519 delta = 2.22402e-04
882	14163 integrals
883	iter 4 energy = -39.9767511318 delta = 5.41466e-05
884	14160 integrals
885	iter 5 energy = -39.9767511536 delta = 2.74736e-05
886	14127 integrals
887	iter 6 energy = -39.9767511542 delta = 5.69441e-06
888	14163 integrals
889	iter 7 energy = -39.9767511543 delta = 1.92437e-07
890
891	HOMO is 5 A = -0.541748
892	LUMO is 6 A = 0.294948
893
894	total scf energy = -39.9767511543
895
896	SCF::compute: gradient accuracy = 1.0000000e-05
897
898	Total Gradient:
899	1 H -0.0007750349 0.0028967409 -0.0044408582
900	2 H -0.0003244313 0.0015616957 0.0026508107
901	3 H 0.0035348646 -0.0027841249 0.0002730043
902	4 H -0.0048390423 -0.0029259529 -0.0001725133
903	5 C 0.0024036440 0.0012516411 0.0016895565
904
905	Beginning displacement 18:
906	Molecule: setting point group to c1
907	Displacement is A in c1. Using point group c1 for displaced molecule.
908
909	SCF::compute: energy accuracy = 1.0000000e-07
910
911	nuclear repulsion energy = 13.4176621666
912
913	integral intermediate storage = 25746 bytes
914	integral cache = 31971806 bytes
915	Using symmetric orthogonalization.
916	n(basis): 17
917	Maximum orthogonalization residual = 4.0145132184
918	Minimum orthogonalization residual = 0.0338687057
919	Beginning iterations. Basis is 3-21G.
920	14126 integrals
921	iter 1 energy = -39.9766557191 delta = 2.05229e-01
922	14163 integrals
923	iter 2 energy = -39.9766648799 delta = 7.55305e-04
924	14147 integrals
925	iter 3 energy = -39.9766661444 delta = 1.88735e-04
926	14163 integrals
927	iter 4 energy = -39.9766662892 delta = 4.27483e-05
928	14149 integrals
929	iter 5 energy = -39.9766663010 delta = 2.06973e-05
930	14127 integrals
931	iter 6 energy = -39.9766663016 delta = 4.73524e-06
932	14163 integrals
933	iter 7 energy = -39.9766663013 delta = 2.24992e-07
934
935	HOMO is 5 A = -0.541324
936	LUMO is 6 A = 0.294378
937
938	total scf energy = -39.9766663013
939
940	SCF::compute: gradient accuracy = 1.0000000e-05
941
942	Total Gradient:
943	1 H 0.0000829115 0.0032991756 -0.0051907857
944	2 H -0.0004030588 0.0023304283 0.0037675946
945	3 H 0.0056332369 -0.0046784418 -0.0002698212
946	4 H -0.0051053142 -0.0040739169 0.0002205318
947	5 C -0.0002077753 0.0031227548 0.0014724804
948	The external rank is 6
949
950	Frequencies (cm-1; negative is imaginary):
951	A
952	1 3211.40
953	2 3211.30
954	3 3210.89
955	4 3123.74
956	5 1742.44
957	6 1742.41
958	7 1531.09
959	8 1531.03
960	9 1530.97
961
962	THERMODYNAMIC ANALYSIS:
963
964	Contributions to the nonelectronic enthalpy at 298.15 K:
965	kJ/mol kcal/mol
966	E0vib = 124.6226 29.7855
967	Evib(T) = 0.0433 0.0104
968	Erot(T) = 3.7185 0.8887
969	Etrans(T) = 3.7185 0.8887
970	PV(T) = 2.4790 0.5925
971	Total nonelectronic enthalpy:
972	H_nonel(T) = 134.5818 32.1658
973
974	Contributions to the entropy at 298.15 K and 1.0 atm:
975	J/(molK) cal/(molK)
976	S_trans(T,P) = 143.3501 34.2615
977	S_rot(T) = 63.0024 15.0579
978	S_vib(T) = 0.1645 0.0393
979	S_el = 0.0000 0.0000
980	Total entropy:
981	S_total(T,P) = 206.5169 49.3587
982
983	Various data used for thermodynamic analysis:
984
985	Nonlinear molecule
986	Principal moments of inertia (amu*angstrom^2): 3.19308, 3.19317, 3.19329
987	Point group: c1
988	Order of point group: 1
989	Rotational symmetry number: 1
990	Rotational temperatures (K): 7.5959, 7.5956, 7.5954
991	Electronic degeneracy: 1
992
993	Function Parameters:
994	value_accuracy = 3.758880e-08 (1.000000e-07)
995	gradient_accuracy = 3.758880e-06 (1.000000e-06)
996	hessian_accuracy = 0.000000e+00 (1.000000e-04)
997
998	Molecule:
999	Molecular formula: CH4
1000	molecule<Molecule>: (
1001	symmetry = c1
1002	unit = "angstrom"
1003	{ n atoms geometry }={
1004	1 H [ 6.7799205740 6.8880626260 5.8900000000]
1005	2 H [ 6.7799205740 6.8880626260 7.6700000000]
1006	3 H [ 7.6699205740 5.6293626260 6.7800000000]
1007	4 H [ 5.8899659600 5.6294131320 6.7800000000]
1008	5 C [ 6.7799205740 6.2587626260 6.7800000000]
1009	}
1010	)
1011	Atomic Masses:
1012	1.00783 1.00783 1.00783 1.00783 12.00000
1013
1014	Electronic basis:
1015	GaussianBasisSet:
1016	nbasis = 17
1017	nshell = 11
1018	nprim = 18
1019	name = "3-21G"
1020	SCF Parameters:
1021	maxiter = 200
1022	density_reset_frequency = 10
1023	level_shift = 0.000000
1024
1025	CLSCF Parameters:
1026	charge = 0.0000000000
1027	ndocc = 5
1028	docc = [ 5 ]
1029
1030	CPU Wall
1031	mpqc: 6.99 7.06
1032	calc: 0.38 0.38
1033	compute gradient: 0.14 0.14
1034	nuc rep: -0.00 0.00
1035	one electron gradient: 0.02 0.02
1036	overlap gradient: 0.00 0.00
1037	two electron gradient: 0.12 0.12
1038	contribution: 0.10 0.10
1039	start thread: 0.10 0.10
1040	stop thread: 0.00 0.00
1041	setup: 0.02 0.01
1042	vector: 0.24 0.24
1043	density: 0.00 0.00
1044	evals: 0.01 0.01
1045	extrap: 0.01 0.01
1046	fock: 0.16 0.17
1047	accum: 0.00 0.00
1048	ao_gmat: 0.16 0.16
1049	start thread: 0.16 0.16
1050	stop thread: 0.00 0.00
1051	init pmax: -0.00 0.00
1052	local data: 0.00 0.00
1053	setup: -0.00 0.00
1054	sum: 0.00 0.00
1055	symm: 0.00 0.00
1056	hessian: 6.51 6.57
1057	compute gradient: 2.66 2.69
1058	nuc rep: 0.00 0.00
1059	one electron gradient: 0.35 0.35
1060	overlap gradient: 0.09 0.09
1061	two electron gradient: 2.22 2.26
1062	contribution: 1.97 2.00
1063	start thread: 1.96 1.99
1064	stop thread: 0.00 0.00
1065	setup: 0.25 0.26
1066	vector: 3.80 3.82
1067	density: 0.04 0.05
1068	evals: 0.14 0.12
1069	extrap: 0.13 0.14
1070	fock: 2.77 2.76
1071	accum: -0.00 0.00
1072	ao_gmat: 2.60 2.63
1073	start thread: 2.58 2.62
1074	stop thread: -0.00 0.00
1075	init pmax: 0.01 0.01
1076	local data: 0.04 0.04
1077	setup: 0.02 0.01
1078	sum: -0.00 0.00
1079	symm: 0.07 0.06
1080	input: 0.10 0.10
1081
1082	End Time: Sat Apr 21 15:47:12 2012
1083

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