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Last change on this file since 7dfd07 was 004d5c, checked in by Frederik Heber <heber@…>, 13 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

Rev	Line
[23d10f]	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 15:46:30 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 = BondFragment01
	29	restart_file = BondFragment01.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 = 13.4353379522
	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 = 4.01935
	51	Minimum orthogonalization residual = 0.0337148
	52	Beginning iterations. Basis is 3-21G.
	53	14142 integrals
	54	iter 1 energy = -39.7763906372 delta = 1.97161e-01
	55	14163 integrals
	56	iter 2 energy = -39.9543190655 delta = 6.50954e-02
	57	14118 integrals
	58	iter 3 energy = -39.9740428226 delta = 2.35287e-02
	59	14163 integrals
	60	iter 4 energy = -39.9766949974 delta = 4.61447e-03
	61	14142 integrals
	62	iter 5 energy = -39.9767385603 delta = 1.46117e-03
	63	14163 integrals
	64	iter 6 energy = -39.9767398287 delta = 2.30994e-04
	65	14163 integrals
	66	iter 7 energy = -39.9767398340 delta = 1.67153e-05
	67	14112 integrals
	68	iter 8 energy = -39.9767398348 delta = 1.76494e-06
	69	14163 integrals
	70	iter 9 energy = -39.9767398341 delta = 9.76570e-08
	71
	72	HOMO is 5 A = -0.542942
	73	LUMO is 6 A = 0.294773
	74
	75	total scf energy = -39.9767398341
	76
	77	SCF::compute: gradient accuracy = 1.0000000e-06
	78
	79	Total Gradient:
	80	1 H 0.0041554983 -0.0029446206 -0.0000000000
	81	2 H -0.0000012184 0.0029423768 0.0041660062
	82	3 H -0.0000012184 0.0029423768 -0.0041660062
	83	4 H -0.0041557279 -0.0029428245 -0.0000000000
	84	5 C 0.0000026663 0.0000026916 0.0000000000
	85
	86	Value of the MolecularEnergy: -39.9767398341
	87
	88
	89	Gradient of the MolecularEnergy:
	90	1 0.0041554983
	91	2 -0.0029446206
	92	3 -0.0000000000
	93	4 -0.0000012184
	94	5 0.0029423768
	95	6 0.0041660062
	96	7 -0.0000012184
	97	8 0.0029423768
	98	9 -0.0041660062
	99	10 -0.0041557279
	100	11 -0.0029428245
	101	12 -0.0000000000
	102	13 0.0000026663
	103	14 0.0000026916
	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 = 13.4353379522
	122
	123	integral intermediate storage = 25746 bytes
	124	integral cache = 31971806 bytes
	125	Using symmetric orthogonalization.
	126	n(basis): 17
	127	Maximum orthogonalization residual = 4.0193456831
	128	Minimum orthogonalization residual = 0.0337147792
	129	Beginning iterations. Basis is 3-21G.
	130	14142 integrals
	131	iter 1 energy = -39.9767361553 delta = 2.05397e-01
	132	14163 integrals
	133	iter 2 energy = -39.9767398338 delta = 1.86299e-06
	134	14163 integrals
	135	iter 3 energy = -39.9767398340 delta = 8.54426e-07
	136	14163 integrals
	137	iter 4 energy = -39.9767398340 delta = 2.57059e-07
	138	14163 integrals
	139	iter 5 energy = -39.9767398340 delta = 2.19361e-07
	140	14163 integrals
	141	iter 6 energy = -39.9767398341 delta = 1.28730e-07
	142	14163 integrals
	143	iter 7 energy = -39.9767398341 delta = 4.06888e-07
	144
	145	HOMO is 5 A = -0.542942
	146	LUMO is 6 A = 0.294773
	147
	148	total scf energy = -39.9767398341
	149
	150	SCF::compute: gradient accuracy = 1.0000000e-05
	151
	152	Total Gradient:
	153	1 H 0.0041554988 -0.0029446210 0.0000000000
	154	2 H -0.0000012184 0.0029423771 0.0041660067
	155	3 H -0.0000012184 0.0029423771 -0.0041660067
	156	4 H -0.0041557284 -0.0029428249 -0.0000000000
	157	5 C 0.0000026663 0.0000026916 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 = 13.4347212466
	166
	167	integral intermediate storage = 25746 bytes
	168	integral cache = 31971806 bytes
	169	Using symmetric orthogonalization.
	170	n(basis): 17
	171	Maximum orthogonalization residual = 4.0191848933
	172	Minimum orthogonalization residual = 0.0337192992
	173	Beginning iterations. Basis is 3-21G.
	174	14134 integrals
	175	iter 1 energy = -39.9767255653 delta = 2.05394e-01
	176	14163 integrals
	177	iter 2 energy = -39.9767278807 delta = 2.80267e-04
	178	14152 integrals
	179	iter 3 energy = -39.9767281582 delta = 7.06676e-05
	180	14163 integrals
	181	iter 4 energy = -39.9767281788 delta = 2.23122e-05
	182	14138 integrals
	183	iter 5 energy = -39.9767281797 delta = 5.26207e-06
	184	14163 integrals
	185	iter 6 energy = -39.9767281798 delta = 8.28725e-07
	186
	187	HOMO is 5 A = -0.542241
	188	LUMO is 6 A = 0.294753
	189
	190	total scf energy = -39.9767281798
	191
	192	SCF::compute: gradient accuracy = 1.0000000e-05
	193
	194	Total Gradient:
	195	1 H 0.0039792521 -0.0019565260 0.0000660186
	196	2 H 0.0003295138 0.0021778069 0.0032686900
	197	3 H 0.0002726867 0.0032355961 -0.0046913539
	198	4 H -0.0055176599 -0.0034663829 0.0000068534
	199	5 C 0.0009362073 0.0000095059 0.0013497918
	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 = 13.4391278397
	208
	209	integral intermediate storage = 25746 bytes
	210	integral cache = 31971806 bytes
	211	Using symmetric orthogonalization.
	212	n(basis): 17
	213	Maximum orthogonalization residual = 4.0203860235
	214	Minimum orthogonalization residual = 0.0336822481
	215	Beginning iterations. Basis is 3-21G.
	216	14138 integrals
	217	iter 1 energy = -39.9767093857 delta = 2.05428e-01
	218	14163 integrals
	219	iter 2 energy = -39.9767259353 delta = 5.44812e-04
	220	14158 integrals
	221	iter 3 energy = -39.9767270064 delta = 1.63697e-04
	222	14163 integrals
	223	iter 4 energy = -39.9767270933 delta = 5.40631e-05
	224	14141 integrals
	225	iter 5 energy = -39.9767270976 delta = 9.87995e-06
	226	14163 integrals
	227	iter 6 energy = -39.9767270979 delta = 3.62122e-06
	228	14163 integrals
	229	iter 7 energy = -39.9767270979 delta = 1.25480e-07
	230
	231	HOMO is 5 A = -0.541030
	232	LUMO is 6 A = 0.294849
	233
	234	total scf energy = -39.9767270979
	235
	236	SCF::compute: gradient accuracy = 1.0000000e-05
	237
	238	Total Gradient:
	239	1 H 0.0030300149 -0.0020545908 -0.0003104922
	240	2 H -0.0001597323 0.0028831289 0.0026529131
	241	3 H -0.0002674330 0.0046374411 -0.0058482281
	242	4 H -0.0038822711 -0.0023563801 -0.0004154482
	243	5 C 0.0012794215 -0.0031095991 0.0039212555
	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 = 13.4416959250
	252
	253	integral intermediate storage = 25746 bytes
	254	integral cache = 31971806 bytes
	255	Using symmetric orthogonalization.
	256	n(basis): 17
	257	Maximum orthogonalization residual = 4.0210785456
	258	Minimum orthogonalization residual = 0.0336589036
	259	Beginning iterations. Basis is 3-21G.
	260	14138 integrals
	261	iter 1 energy = -39.9766838432 delta = 2.05422e-01
	262	14163 integrals
	263	iter 2 energy = -39.9767316561 delta = 9.07969e-04
	264	14154 integrals
	265	iter 3 energy = -39.9767349611 delta = 2.84514e-04
	266	14128 integrals
	267	iter 4 energy = -39.9767352600 delta = 1.09529e-04
	268	14163 integrals
	269	iter 5 energy = -39.9767352648 delta = 1.12946e-05
	270	14137 integrals
	271	iter 6 energy = -39.9767352653 delta = 3.81891e-06
	272	14163 integrals
	273	iter 7 energy = -39.9767352652 delta = 1.99634e-07
	274
	275	HOMO is 5 A = -0.541730
	276	LUMO is 6 A = 0.294902
	277
	278	total scf energy = -39.9767352652
	279
	280	SCF::compute: gradient accuracy = 1.0000000e-05
	281
	282	Total Gradient:
	283	1 H 0.0053829067 -0.0041806987 0.0004143524
	284	2 H 0.0002669158 0.0008254331 0.0015183956
	285	3 H -0.0003544480 0.0027315710 -0.0040215087
	286	4 H -0.0043413609 -0.0033813365 -0.0002129497
	287	5 C -0.0009540136 0.0040050311 0.0023017104
	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 = 13.4365178246
	296
	297	integral intermediate storage = 25746 bytes
	298	integral cache = 31971806 bytes
	299	Using symmetric orthogonalization.
	300	n(basis): 17
	301	Maximum orthogonalization residual = 4.0196730039
	302	Minimum orthogonalization residual = 0.0337042567
	303	Beginning iterations. Basis is 3-21G.
	304	14134 integrals
	305	iter 1 energy = -39.9766902492 delta = 2.05368e-01
	306	14163 integrals
	307	iter 2 energy = -39.9767254223 delta = 7.46595e-04
	308	14153 integrals
	309	iter 3 energy = -39.9767277818 delta = 2.22842e-04
	310	14134 integrals
	311	iter 4 energy = -39.9767279967 delta = 8.19233e-05
	312	14163 integrals
	313	iter 5 energy = -39.9767280042 delta = 1.36245e-05
	314	14146 integrals
	315	iter 6 energy = -39.9767280048 delta = 5.19920e-06
	316	14163 integrals
	317	iter 7 energy = -39.9767280048 delta = 1.75042e-07
	318
	319	HOMO is 5 A = -0.541820
	320	LUMO is 6 A = 0.294793
	321
	322	total scf energy = -39.9767280048
	323
	324	SCF::compute: gradient accuracy = 1.0000000e-05
	325
	326	Total Gradient:
	327	1 H 0.0038609554 -0.0025306811 -0.0001106426
	328	2 H 0.0004837001 0.0029854939 0.0043442342
	329	3 H -0.0000864521 0.0035290422 -0.0059129348
	330	4 H -0.0026879188 -0.0019802547 -0.0006763351
	331	5 C -0.0015702846 -0.0020036003 0.0023556784
	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 = 13.4507448575
	340
	341	integral intermediate storage = 25746 bytes
	342	integral cache = 31971806 bytes
	343	Using symmetric orthogonalization.
	344	n(basis): 17
	345	Maximum orthogonalization residual = 4.0235568376
	346	Minimum orthogonalization residual = 0.0335815255
	347	Beginning iterations. Basis is 3-21G.
	348	14142 integrals
	349	iter 1 energy = -39.9767468625 delta = 2.05495e-01
	350	14163 integrals
	351	iter 2 energy = -39.9767641176 delta = 5.34112e-04
	352	14158 integrals
	353	iter 3 energy = -39.9767649518 delta = 1.44056e-04
	354	14163 integrals
	355	iter 4 energy = -39.9767650331 delta = 3.55458e-05
	356	14162 integrals
	357	iter 5 energy = -39.9767650433 delta = 1.78314e-05
	358	14121 integrals
	359	iter 6 energy = -39.9767650436 delta = 4.07103e-06
	360	14163 integrals
	361	iter 7 energy = -39.9767650437 delta = 1.28207e-07
	362
	363	HOMO is 5 A = -0.541704
	364	LUMO is 6 A = 0.295105
	365
	366	total scf energy = -39.9767650437
	367
	368	SCF::compute: gradient accuracy = 1.0000000e-05
	369
	370	Total Gradient:
	371	1 H 0.0047705752 -0.0032569541 -0.0003332919
	372	2 H 0.0001713281 0.0019706736 0.0026228603
	373	3 H 0.0007282611 0.0031701907 -0.0044297060
	374	4 H -0.0016532149 -0.0016834050 0.0002192715
	375	5 C -0.0040169494 -0.0002005052 0.0019208662
	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 = 13.4261016073
	384
	385	integral intermediate storage = 25746 bytes
	386	integral cache = 31971806 bytes
	387	Using symmetric orthogonalization.
	388	n(basis): 17
	389	Maximum orthogonalization residual = 4.0168227763
	390	Minimum orthogonalization residual = 0.0337945787
	391	Beginning iterations. Basis is 3-21G.
	392	14134 integrals
	393	iter 1 energy = -39.9766531338 delta = 2.05241e-01
	394	14163 integrals
	395	iter 2 energy = -39.9766954046 delta = 9.26315e-04
	396	14142 integrals
	397	iter 3 energy = -39.9766982811 delta = 2.55610e-04
	398	14163 integrals
	399	iter 4 energy = -39.9766985586 delta = 6.71533e-05
	400	14149 integrals
	401	iter 5 energy = -39.9766985988 delta = 3.46602e-05
	402	14120 integrals
	403	iter 6 energy = -39.9766985985 delta = 7.63854e-06
	404	14163 integrals
	405	iter 7 energy = -39.9766985999 delta = 2.20923e-07
	406
	407	HOMO is 5 A = -0.541838
	408	LUMO is 6 A = 0.294563
	409
	410	total scf energy = -39.9766985999
	411
	412	SCF::compute: gradient accuracy = 1.0000000e-05
	413
	414	Total Gradient:
	415	1 H 0.0034981283 -0.0029501614 -0.0000516965
	416	2 H 0.0002948524 0.0031481973 0.0040120922
	417	3 H 0.0001734869 0.0031941021 -0.0043023237
	418	4 H -0.0057075850 -0.0048512563 -0.0001753258
	419	5 C 0.0017411174 0.0014591183 0.0005172538
	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 = 13.4558981734
	428
	429	integral intermediate storage = 25746 bytes
	430	integral cache = 31971806 bytes
	431	Using symmetric orthogonalization.
	432	n(basis): 17
	433	Maximum orthogonalization residual = 4.0249601542
	434	Minimum orthogonalization residual = 0.0335361887
	435	Beginning iterations. Basis is 3-21G.
	436	14142 integrals
	437	iter 1 energy = -39.9767396925 delta = 2.05600e-01
	438	14163 integrals
	439	iter 2 energy = -39.9767735883 delta = 9.05096e-04
	440	14156 integrals
	441	iter 3 energy = -39.9767755066 delta = 2.31535e-04
	442	14163 integrals
	443	iter 4 energy = -39.9767757281 delta = 5.19395e-05
	444	14161 integrals
	445	iter 5 energy = -39.9767757482 delta = 2.68146e-05
	446	14133 integrals
	447	iter 6 energy = -39.9767757492 delta = 5.89328e-06
	448	14163 integrals
	449	iter 7 energy = -39.9767757490 delta = 2.10091e-07
	450
	451	HOMO is 5 A = -0.542231
	452	LUMO is 6 A = 0.295215
	453
	454	total scf energy = -39.9767757490
	455
	456	SCF::compute: gradient accuracy = 1.0000000e-05
	457
	458	Total Gradient:
	459	1 H 0.0005847482 -0.0006729769 0.0002510905
	460	2 H -0.0002084677 0.0026910965 0.0041241505
	461	3 H -0.0002813208 0.0026469515 -0.0036234043
	462	4 H -0.0044146595 -0.0030393356 0.0001829728
	463	5 C 0.0043196998 -0.0016257355 -0.0009348095
	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 = 13.4516547827
	472
	473	integral intermediate storage = 25746 bytes
	474	integral cache = 31971806 bytes
	475	Using symmetric orthogonalization.
	476	n(basis): 17
	477	Maximum orthogonalization residual = 4.0238054643
	478	Minimum orthogonalization residual = 0.0335720630
	479	Beginning iterations. Basis is 3-21G.
	480	14138 integrals
	481	iter 1 energy = -39.9767265609 delta = 2.05378e-01
	482	14163 integrals
	483	iter 2 energy = -39.9767681113 delta = 7.57787e-04
	484	14153 integrals
	485	iter 3 energy = -39.9767705791 delta = 2.23263e-04
	486	14135 integrals
	487	iter 4 energy = -39.9767708087 delta = 8.29282e-05
	488	14163 integrals
	489	iter 5 energy = -39.9767708151 delta = 1.34837e-05
	490	14149 integrals
	491	iter 6 energy = -39.9767708157 delta = 5.01297e-06
	492	14163 integrals
	493	iter 7 energy = -39.9767708157 delta = 1.73226e-07
	494
	495	HOMO is 5 A = -0.542617
	496	LUMO is 6 A = 0.295122
	497
	498	total scf energy = -39.9767708157
	499
	500	SCF::compute: gradient accuracy = 1.0000000e-05
	501
	502	Total Gradient:
	503	1 H 0.0043448857 -0.0030244222 -0.0001561705
	504	2 H 0.0001356501 0.0028216303 0.0037294024
	505	3 H -0.0000246094 0.0006953299 -0.0011901844
	506	4 H -0.0042951510 -0.0030678971 -0.0003165905
	507	5 C -0.0001607754 0.0025753591 -0.0020664569
	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 = 13.4342301281
	516
	517	integral intermediate storage = 25746 bytes
	518	integral cache = 31971806 bytes
	519	Using symmetric orthogonalization.
	520	n(basis): 17
	521	Maximum orthogonalization residual = 4.0190421452
	522	Minimum orthogonalization residual = 0.0337248304
	523	Beginning iterations. Basis is 3-21G.
	524	14134 integrals
	525	iter 1 energy = -39.9766658896 delta = 2.05289e-01
	526	14163 integrals
	527	iter 2 energy = -39.9767060623 delta = 8.65696e-04
	528	14152 integrals
	529	iter 3 energy = -39.9767088152 delta = 2.47010e-04
	530	14163 integrals
	531	iter 4 energy = -39.9767090694 delta = 7.22919e-05
	532	14145 integrals
	533	iter 5 energy = -39.9767091017 delta = 2.98480e-05
	534	14163 integrals
	535	iter 6 energy = -39.9767091027 delta = 7.05818e-06
	536	14163 integrals
	537	iter 7 energy = -39.9767091027 delta = 2.11121e-07
	538
	539	HOMO is 5 A = -0.541349
	540	LUMO is 6 A = 0.294740
	541
	542	total scf energy = -39.9767091027
	543
	544	SCF::compute: gradient accuracy = 1.0000000e-05
	545
	546	Total Gradient:
	547	1 H 0.0038371495 -0.0030829629 -0.0006550092
	548	2 H -0.0005354125 0.0013326485 0.0022160455
	549	3 H -0.0000311556 0.0028129203 -0.0051170070
	550	4 H -0.0059691807 -0.0041863307 -0.0001473785
	551	5 C 0.0026985993 0.0031237248 0.0037033492
	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 = 13.4359366394
	560
	561	integral intermediate storage = 25746 bytes
	562	integral cache = 31971806 bytes
	563	Using symmetric orthogonalization.
	564	n(basis): 17
	565	Maximum orthogonalization residual = 4.0195175524
	566	Minimum orthogonalization residual = 0.0337087406
	567	Beginning iterations. Basis is 3-21G.
	568	14134 integrals
	569	iter 1 energy = -39.9766868090 delta = 2.05413e-01
	570	14163 integrals
	571	iter 2 energy = -39.9767286294 delta = 8.04076e-04
	572	14153 integrals
	573	iter 3 energy = -39.9767315439 delta = 2.48014e-04
	574	14138 integrals
	575	iter 4 energy = -39.9767318209 delta = 9.65445e-05
	576	14163 integrals
	577	iter 5 energy = -39.9767318259 delta = 1.36224e-05
	578	14134 integrals
	579	iter 6 energy = -39.9767318262 delta = 2.95990e-06
	580	14163 integrals
	581	iter 7 energy = -39.9767318262 delta = 1.88020e-07
	582
	583	HOMO is 5 A = -0.542495
	584	LUMO is 6 A = 0.294780
	585
	586	total scf energy = -39.9767318262
	587
	588	SCF::compute: gradient accuracy = 1.0000000e-05
	589
	590	Total Gradient:
	591	1 H 0.0043278517 -0.0039341508 -0.0000647044
	592	2 H -0.0003322501 0.0037003484 0.0050552752
	593	3 H -0.0002731427 0.0026471737 -0.0036379950
	594	4 H -0.0027836750 -0.0024103124 -0.0000079254
	595	5 C -0.0009387839 -0.0000030589 -0.0013446505
	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 = 13.4314695916
	604
	605	integral intermediate storage = 25746 bytes
	606	integral cache = 31971806 bytes
	607	Using symmetric orthogonalization.
	608	n(basis): 17
	609	Maximum orthogonalization residual = 4.0182916175
	610	Minimum orthogonalization residual = 0.0337487135
	611	Beginning iterations. Basis is 3-21G.
	612	14138 integrals
	613	iter 1 energy = -39.9766851366 delta = 2.05369e-01
	614	14163 integrals
	615	iter 2 energy = -39.9767017515 delta = 5.46311e-04
	616	14157 integrals
	617	iter 3 energy = -39.9767028070 delta = 1.61184e-04
	618	14163 integrals
	619	iter 4 energy = -39.9767028942 delta = 5.41388e-05
	620	14138 integrals
	621	iter 5 energy = -39.9767028988 delta = 9.61342e-06
	622	14163 integrals
	623	iter 6 energy = -39.9767028986 delta = 3.54509e-06
	624	14163 integrals
	625	iter 7 energy = -39.9767028986 delta = 1.26360e-07
	626
	627	HOMO is 5 A = -0.541498
	628	LUMO is 6 A = 0.294681
	629
	630	total scf energy = -39.9767028986
	631
	632	SCF::compute: gradient accuracy = 1.0000000e-05
	633
	634	Total Gradient:
	635	1 H 0.0052630825 -0.0038266142 0.0003172329
	636	2 H 0.0001582431 0.0029933564 0.0056864580
	637	3 H 0.0002580962 0.0012163612 -0.0024239230
	638	4 H -0.0044340575 -0.0035360471 0.0004200760
	639	5 C -0.0012453643 0.0031529437 -0.0039998439
	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 = 13.4290798383
	648
	649	integral intermediate storage = 25746 bytes
	650	integral cache = 31971806 bytes
	651	Using symmetric orthogonalization.
	652	n(basis): 17
	653	Maximum orthogonalization residual = 4.0176280469
	654	Minimum orthogonalization residual = 0.0337684112
	655	Beginning iterations. Basis is 3-21G.
	656	14126 integrals
	657	iter 1 energy = -39.9766557094 delta = 2.05386e-01
	658	14163 integrals
	659	iter 2 energy = -39.9766924854 delta = 9.03413e-04
	660	14144 integrals
	661	iter 3 energy = -39.9766957894 delta = 2.84090e-04
	662	14122 integrals
	663	iter 4 energy = -39.9766960872 delta = 1.09630e-04
	664	14163 integrals
	665	iter 5 energy = -39.9766960918 delta = 1.19079e-05
	666	14122 integrals
	667	iter 6 energy = -39.9766960920 delta = 2.95860e-06
	668	14163 integrals
	669	iter 7 energy = -39.9766960921 delta = 2.25298e-07
	670
	671	HOMO is 5 A = -0.541365
	672	LUMO is 6 A = 0.294624
	673
	674	total scf energy = -39.9766960921
	675
	676	SCF::compute: gradient accuracy = 1.0000000e-05
	677
	678	Total Gradient:
	679	1 H 0.0029021434 -0.0016953402 -0.0004117011
	680	2 H -0.0002746038 0.0050075154 0.0067269375
	681	3 H 0.0003539306 0.0031524692 -0.0043125877
	682	4 H -0.0039711367 -0.0025062831 0.0002109958
	683	5 C 0.0009896665 -0.0039583612 -0.0022136444
	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 = 13.4341267756
	692
	693	integral intermediate storage = 25746 bytes
	694	integral cache = 31971806 bytes
	695	Using symmetric orthogonalization.
	696	n(basis): 17
	697	Maximum orthogonalization residual = 4.0190188892
	698	Minimum orthogonalization residual = 0.0337250353
	699	Beginning iterations. Basis is 3-21G.
	700	14130 integrals
	701	iter 1 energy = -39.9766865683 delta = 2.05433e-01
	702	14163 integrals
	703	iter 2 energy = -39.9767179978 delta = 7.46941e-04
	704	14150 integrals
	705	iter 3 energy = -39.9767203574 delta = 2.23364e-04
	706	14130 integrals
	707	iter 4 energy = -39.9767205697 delta = 8.05973e-05
	708	14163 integrals
	709	iter 5 energy = -39.9767205802 delta = 1.43090e-05
	710	14133 integrals
	711	iter 6 energy = -39.9767205808 delta = 5.28428e-06
	712	14163 integrals
	713	iter 7 energy = -39.9767205808 delta = 1.77679e-07
	714
	715	HOMO is 5 A = -0.541654
	716	LUMO is 6 A = 0.294740
	717
	718	total scf energy = -39.9767205808
	719
	720	SCF::compute: gradient accuracy = 1.0000000e-05
	721
	722	Total Gradient:
	723	1 H 0.0044508521 -0.0033607267 0.0001122220
	724	2 H -0.0004853649 0.0029021304 0.0039887602
	725	3 H 0.0000839946 0.0023314726 -0.0023966049
	726	4 H -0.0056055927 -0.0038915783 0.0006858856
	727	5 C 0.0015561109 0.0020187019 -0.0023902630
	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 = 13.4199476852
	736
	737	integral intermediate storage = 25746 bytes
	738	integral cache = 31971806 bytes
	739	Using symmetric orthogonalization.
	740	n(basis): 17
	741	Maximum orthogonalization residual = 4.0151338440
	742	Minimum orthogonalization residual = 0.0338488612
	743	Beginning iterations. Basis is 3-21G.
	744	14122 integrals
	745	iter 1 energy = -39.9766686861 delta = 2.05303e-01
	746	14163 integrals
	747	iter 2 energy = -39.9766680871 delta = 5.32963e-04
	748	14141 integrals
	749	iter 3 energy = -39.9766689098 delta = 1.40151e-04
	750	14163 integrals
	751	iter 4 energy = -39.9766689878 delta = 3.66124e-05
	752	14143 integrals
	753	iter 5 energy = -39.9766689978 delta = 1.67390e-05
	754	14116 integrals
	755	iter 6 energy = -39.9766689984 delta = 4.29296e-06
	756	14163 integrals
	757	iter 7 energy = -39.9766689981 delta = 1.81646e-07
	758
	759	HOMO is 5 A = -0.541232
	760	LUMO is 6 A = 0.294427
	761
	762	total scf energy = -39.9766689981
	763
	764	SCF::compute: gradient accuracy = 1.0000000e-05
	765
	766	Total Gradient:
	767	1 H 0.0035353482 -0.0026268758 0.0003309804
	768	2 H -0.0001793942 0.0038993166 0.0056891139
	769	3 H -0.0007271269 0.0027206766 -0.0039085743
	770	4 H -0.0066064501 -0.0041525375 -0.0002209377
	771	5 C 0.0039776231 0.0001594200 -0.0018905823
	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 = 13.4445820677
	780
	781	integral intermediate storage = 25746 bytes
	782	integral cache = 31971806 bytes
	783	Using symmetric orthogonalization.
	784	n(basis): 17
	785	Maximum orthogonalization residual = 4.0218771537
	786	Minimum orthogonalization residual = 0.0336341499
	787	Beginning iterations. Basis is 3-21G.
	788	14138 integrals
	789	iter 1 energy = -39.9767074348 delta = 2.05564e-01
	790	14163 integrals
	791	iter 2 energy = -39.9767530964 delta = 9.38938e-04
	792	14144 integrals
	793	iter 3 energy = -39.9767559711 delta = 2.58514e-04
	794	14163 integrals
	795	iter 4 energy = -39.9767562559 delta = 6.63745e-05
	796	14152 integrals
	797	iter 5 energy = -39.9767562958 delta = 3.46909e-05
	798	14121 integrals
	799	iter 6 energy = -39.9767562986 delta = 7.60661e-06
	800	14163 integrals
	801	iter 7 energy = -39.9767562972 delta = 2.18240e-07
	802
	803	HOMO is 5 A = -0.542381
	804	LUMO is 6 A = 0.294971
	805
	806	total scf energy = -39.9767562972
	807
	808	SCF::compute: gradient accuracy = 1.0000000e-05
	809
	810	Total Gradient:
	811	1 H 0.0048153227 -0.0029377476 0.0000517799
	812	2 H -0.0003000357 0.0027349175 0.0043194585
	813	3 H -0.0001766291 0.0026900540 -0.0040295815
	814	4 H -0.0025604115 -0.0010140380 0.0001728600
	815	5 C -0.0017782464 -0.0014731859 -0.0005145169
	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 = 13.4149228619
	824
	825	integral intermediate storage = 25746 bytes
	826	integral cache = 31971806 bytes
	827	Using symmetric orthogonalization.
	828	n(basis): 17
	829	Maximum orthogonalization residual = 4.0137535029
	830	Minimum orthogonalization residual = 0.0338918859
	831	Beginning iterations. Basis is 3-21G.
	832	14118 integrals
	833	iter 1 energy = -39.9766339497 delta = 2.05205e-01
	834	14163 integrals
	835	iter 2 energy = -39.9766462354 delta = 8.90620e-04
	836	14137 integrals
	837	iter 3 energy = -39.9766481457 delta = 2.25366e-04
	838	14163 integrals
	839	iter 4 energy = -39.9766483560 delta = 5.29140e-05
	840	14142 integrals
	841	iter 5 energy = -39.9766483764 delta = 2.62161e-05
	842	14120 integrals
	843	iter 6 energy = -39.9766483771 delta = 6.22429e-06
	844	14163 integrals
	845	iter 7 energy = -39.9766483769 delta = 2.63598e-07
	846
	847	HOMO is 5 A = -0.541023
	848	LUMO is 6 A = 0.294312
	849
	850	total scf energy = -39.9766483769
	851
	852	SCF::compute: gradient accuracy = 1.0000000e-05
	853
	854	Total Gradient:
	855	1 H 0.0076034363 -0.0051198592 -0.0002591238
	856	2 H 0.0002060760 0.0031956844 0.0042102089
	857	3 H 0.0002787058 0.0032396567 -0.0047096993
	858	4 H -0.0038964319 -0.0028451680 -0.0001820561
	859	5 C -0.0041917861 0.0015296860 0.0009406704
	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 = 13.4191606796
	868
	869	integral intermediate storage = 25746 bytes
	870	integral cache = 31971806 bytes
	871	Using symmetric orthogonalization.
	872	n(basis): 17
	873	Maximum orthogonalization residual = 4.0149186222
	874	Minimum orthogonalization residual = 0.0338541034
	875	Beginning iterations. Basis is 3-21G.
	876	14130 integrals
	877	iter 1 energy = -39.9766328570 delta = 2.05423e-01
	878	14163 integrals
	879	iter 2 energy = -39.9766668566 delta = 7.56768e-04
	880	14150 integrals
	881	iter 3 energy = -39.9766693226 delta = 2.24388e-04
	882	14131 integrals
	883	iter 4 energy = -39.9766695459 delta = 8.16347e-05
	884	14163 integrals
	885	iter 5 energy = -39.9766695556 delta = 1.39607e-05
	886	14131 integrals
	887	iter 6 energy = -39.9766695562 delta = 5.28273e-06
	888	14163 integrals
	889	iter 7 energy = -39.9766695563 delta = 1.76198e-07
	890
	891	HOMO is 5 A = -0.541789
	892	LUMO is 6 A = 0.294405
	893
	894	total scf energy = -39.9766695563
	895
	896	SCF::compute: gradient accuracy = 1.0000000e-05
	897
	898	Total Gradient:
	899	1 H 0.0039655264 -0.0028643995 0.0001557396
	900	2 H -0.0001387299 0.0030616677 0.0046020430
	901	3 H 0.0000216412 0.0051270176 -0.0070466520
	902	4 H -0.0040162093 -0.0028175747 0.0003159192
	903	5 C 0.0001677716 -0.0025067111 0.0019729502
	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 = 13.4364021169
	912
	913	integral intermediate storage = 25746 bytes
	914	integral cache = 31971806 bytes
	915	Using symmetric orthogonalization.
	916	n(basis): 17
	917	Maximum orthogonalization residual = 4.0196359338
	918	Minimum orthogonalization residual = 0.0337059623
	919	Beginning iterations. Basis is 3-21G.
	920	14134 integrals
	921	iter 1 energy = -39.9766731812 delta = 2.05512e-01
	922	14163 integrals
	923	iter 2 energy = -39.9767129431 delta = 8.64612e-04
	924	14156 integrals
	925	iter 3 energy = -39.9767157076 delta = 2.50130e-04
	926	14163 integrals
	927	iter 4 energy = -39.9767159623 delta = 7.11659e-05
	928	14149 integrals
	929	iter 5 energy = -39.9767159952 delta = 3.06366e-05
	930	14163 integrals
	931	iter 6 energy = -39.9767159964 delta = 6.99971e-06
	932	14163 integrals
	933	iter 7 energy = -39.9767159964 delta = 2.06028e-07
	934
	935	HOMO is 5 A = -0.540929
	936	LUMO is 6 A = 0.294788
	937
	938	total scf energy = -39.9767159964
	939
	940	SCF::compute: gradient accuracy = 1.0000000e-05
	941
	942	Total Gradient:
	943	1 H 0.0044852699 -0.0028132563 0.0006534135
	944	2 H 0.0005457802 0.0045175314 0.0060595519
	945	3 H 0.0000295824 0.0030705488 -0.0032243186
	946	4 H -0.0022986244 -0.0016705160 0.0001401124
	947	5 C -0.0027620081 -0.0031043078 -0.0036287593
	948	The external rank is 6
	949
	950	Frequencies (cm-1; negative is imaginary):
	951	A
	952	1 3211.48
	953	2 3211.39
	954	3 3211.31
	955	4 3124.02
	956	5 1742.41
	957	6 1742.39
	958	7 1531.00
	959	8 1530.98
	960	9 1530.95
	961
	962	THERMODYNAMIC ANALYSIS:
	963
	964	Contributions to the nonelectronic enthalpy at 298.15 K:
	965	kJ/mol kcal/mol
	966	E0vib = 124.6265 29.7864
	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) = 134.5857 32.1668
	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) = 63.0020 15.0578
	978	S_vib(T) = 0.1645 0.0393
	979	S_el = 0.0000 0.0000
	980	Total entropy:
	981	S_total(T,P) = 206.5166 49.3586
	982
	983	Various data used for thermodynamic analysis:
	984
	985	Nonlinear molecule
	986	Principal moments of inertia (amu*angstrom^2): 3.19303, 3.19307, 3.19315
	987	Point group: c1
	988	Order of point group: 1
	989	Rotational symmetry number: 1
	990	Rotational temperatures (K): 7.5960, 7.5959, 7.5957
	991	Electronic degeneracy: 1
	992
	993	Function Parameters:
	994	value_accuracy = 5.381993e-08 (1.000000e-07)
	995	gradient_accuracy = 5.381993e-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 [ 7.6699025500 5.6293338150 6.7800000000]
	1005	2 H [ 6.7799488870 6.8879846520 7.6700000000]
	1006	3 H [ 6.7799488870 6.8879846520 5.8900000000]
	1007	4 H [ 5.8899714750 5.6293673980 6.7800000000]
	1008	5 C [ 6.7799488870 6.2586846520 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: 7.01 7.17
	1032	calc: 0.39 0.39
	1033	compute gradient: 0.14 0.15
	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 0.13
	1038	contribution: 0.11 0.11
	1039	start thread: 0.11 0.11
	1040	stop thread: -0.00 0.00
	1041	setup: 0.01 0.01
	1042	vector: 0.24 0.24
	1043	density: 0.00 0.00
	1044	evals: 0.01 0.01
	1045	extrap: 0.00 0.01
	1046	fock: 0.18 0.17
	1047	accum: -0.00 0.00
	1048	ao_gmat: 0.17 0.16
	1049	start thread: 0.17 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: 6.52 6.68
	1057	compute gradient: 2.66 2.80
	1058	nuc rep: 0.00 0.00
	1059	one electron gradient: 0.34 0.38
	1060	overlap gradient: 0.09 0.10
	1061	two electron gradient: 2.23 2.33
	1062	contribution: 1.97 2.06
	1063	start thread: 1.96 2.05
	1064	stop thread: 0.00 0.00
	1065	setup: 0.26 0.27
	1066	vector: 3.82 3.81
	1067	density: 0.05 0.05
	1068	evals: 0.14 0.12
	1069	extrap: 0.14 0.14
	1070	fock: 2.76 2.76
	1071	accum: 0.00 0.00
	1072	ao_gmat: 2.62 2.63
	1073	start thread: 2.60 2.62
	1074	stop thread: 0.00 0.00
	1075	init pmax: 0.02 0.01
	1076	local data: 0.04 0.04
	1077	setup: 0.02 0.01
	1078	sum: 0.00 0.00
	1079	symm: 0.04 0.05
	1080	input: 0.09 0.09
	1081
	1082	End Time: Sat Apr 21 15:46:37 2012
	1083

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