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Last change on this file since 86fb69 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: 24.0 KB

Rev	Line
[398fcd]	1	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/atominfo.kv.
	2
	3	MPQC: Massively Parallel Quantum Chemistry
	4	Version 2.1.0-alpha-gcc3
	5
	6	Machine: i686-pc-linux-gnu
	7	User: cljanss@aros.ca.sandia.gov
	8	Start Time: Sat Apr 6 14:00:26 2002
	9
	10	Using ProcMessageGrp for message passing (number of nodes = 1).
	11	Using PthreadThreadGrp for threading (number of threads = 2).
	12	Using ProcMemoryGrp for distributed shared memory.
	13	Total number of processors = 2
	14	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/atominfo.kv.
	15	Molecule: setting point group to c2v
	16	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/6-31gS.kv.
	17	Reading file /usr/local/mpqc/2.1.0-alpha-gcc3/share/basis/sto-3g.kv.
	18
	19	CLSCF::init: total charge = 0
	20
	21	Starting from core Hamiltonian guess
	22
	23	Using symmetric orthogonalization.
	24	n(SO): 4 0 1 2
	25	Maximum orthogonalization residual = 1.94039
	26	Minimum orthogonalization residual = 0.335627
	27	docc = [ 3 0 1 1 ]
	28	nbasis = 7
	29
	30	CLSCF::init: total charge = 0
	31
	32	Projecting guess wavefunction into the present basis set
	33
	34	SCF::compute: energy accuracy = 1.0000000e-06
	35
	36	integral intermediate storage = 31876 bytes
	37	integral cache = 7967676 bytes
	38	nuclear repulsion energy = 9.2914265473
	39
	40	565 integrals
	41	iter 1 energy = -74.6442059283 delta = 7.46913e-01
	42	565 integrals
	43	iter 2 energy = -74.9411785471 delta = 2.32701e-01
	44	565 integrals
	45	iter 3 energy = -74.9598835707 delta = 6.74768e-02
	46	565 integrals
	47	iter 4 energy = -74.9608017389 delta = 1.82839e-02
	48	565 integrals
	49	iter 5 energy = -74.9608457808 delta = 4.27179e-03
	50	565 integrals
	51	iter 6 energy = -74.9608460189 delta = 2.87494e-04
	52	565 integrals
	53	iter 7 energy = -74.9608460194 delta = 1.50392e-05
	54
	55	HOMO is 1 B1 = -0.391179
	56	LUMO is 4 A1 = 0.614055
	57
	58	total scf energy = -74.9608460194
	59
	60	Projecting the guess density.
	61
	62	The number of electrons in the guess density = 10
	63	Using symmetric orthogonalization.
	64	n(SO): 10 1 3 5
	65	Maximum orthogonalization residual = 4.69613
	66	Minimum orthogonalization residual = 0.0219193
	67	The number of electrons in the projected density = 9.95801
	68
	69	docc = [ 3 0 1 1 ]
	70	nbasis = 19
	71
	72	Molecular formula H2O
	73
	74	MPQC options:
	75	matrixkit = <ReplSCMatrixKit>
	76	filename = input_hfh2ofreq
	77	restart_file = input_hfh2ofreq.ckpt
	78	restart = no
	79	checkpoint = no
	80	savestate = no
	81	do_energy = yes
	82	do_gradient = no
	83	optimize = no
	84	write_pdb = no
	85	print_mole = yes
	86	print_timings = yes
	87
	88	SCF::compute: energy accuracy = 1.0000000e-06
	89
	90	integral intermediate storage = 236328 bytes
	91	integral cache = 7760632 bytes
	92	nuclear repulsion energy = 9.2914265473
	93
	94	19108 integrals
	95	iter 1 energy = -75.8313984939 delta = 2.12979e-01
	96	19108 integrals
	97	iter 2 energy = -75.9893342668 delta = 5.77199e-02
	98	19108 integrals
	99	iter 3 energy = -76.0061172655 delta = 1.48537e-02
	100	19108 integrals
	101	iter 4 energy = -76.0104307742 delta = 6.83190e-03
	102	19108 integrals
	103	iter 5 energy = -76.0107349333 delta = 2.29768e-03
	104	19108 integrals
	105	iter 6 energy = -76.0107461220 delta = 5.11193e-04
	106	19108 integrals
	107	iter 7 energy = -76.0107462842 delta = 5.25319e-05
	108	19108 integrals
	109	iter 8 energy = -76.0107462976 delta = 1.68043e-05
	110	19108 integrals
	111	iter 9 energy = -76.0107462983 delta = 4.02927e-06
	112	19108 integrals
	113	iter 10 energy = -76.0107462984 delta = 1.15008e-06
	114
	115	HOMO is 1 B1 = -0.498217
	116	LUMO is 4 A1 = 0.213089
	117
	118	total scf energy = -76.0107462984
	119
	120	Value of the MolecularEnergy: -76.0107462984
	121
	122	The external rank is 6
	123	Computing molecular hessian from 6 displacements:
	124	Starting at displacement: 0
	125	Hessian options:
	126	displacement: 0.01 bohr
	127	gradient_accuracy: 1e-05 au
	128	eliminate_cubic_terms: yes
	129	only_totally_symmetric: no
	130
	131	Beginning displacement 0:
	132	Molecule: setting point group to c2v
	133	Displacement is A1 in c2v. Using point group c2v for displaced molecule.
	134
	135	SCF::compute: energy accuracy = 1.0000000e-07
	136
	137	integral intermediate storage = 236328 bytes
	138	integral cache = 7760632 bytes
	139	nuclear repulsion energy = 9.2914265473
	140
	141	Using symmetric orthogonalization.
	142	n(SO): 10 1 3 5
	143	Maximum orthogonalization residual = 4.69613
	144	Minimum orthogonalization residual = 0.0219193
	145	19108 integrals
	146	iter 1 energy = -76.0107462984 delta = 2.09895e-01
	147	19108 integrals
	148	iter 2 energy = -76.0107462984 delta = 1.86331e-08
	149
	150	HOMO is 1 B1 = -0.498218
	151	LUMO is 4 A1 = 0.213089
	152
	153	total scf energy = -76.0107462984
	154
	155	SCF::compute: gradient accuracy = 1.0000000e-05
	156
	157	Total Gradient:
	158	1 O 0.0004691490 0.0000000000 0.0000000000
	159	2 H -0.0002345745 -0.0000000000 -0.0002321324
	160	3 H -0.0002345745 -0.0000000000 0.0002321324
	161
	162	Beginning displacement 1:
	163	Molecule: setting point group to c2v
	164	Displacement is A1 in c2v. Using point group c2v for displaced molecule.
	165
	166	SCF::compute: energy accuracy = 1.0000000e-07
	167
	168	integral intermediate storage = 236328 bytes
	169	integral cache = 7760632 bytes
	170	nuclear repulsion energy = 9.2713628191
	171
	172	Using symmetric orthogonalization.
	173	n(SO): 10 1 3 5
	174	Maximum orthogonalization residual = 4.69009
	175	Minimum orthogonalization residual = 0.0219947
	176	19108 integrals
	177	iter 1 energy = -76.0107168738 delta = 2.09903e-01
	178	19108 integrals
	179	iter 2 energy = -76.0107327055 delta = 4.41842e-04
	180	19108 integrals
	181	iter 3 energy = -76.0107332524 delta = 9.95819e-05
	182	19108 integrals
	183	iter 4 energy = -76.0107333392 delta = 3.04180e-05
	184	19108 integrals
	185	iter 5 energy = -76.0107333482 delta = 1.06061e-05
	186	19108 integrals
	187	iter 6 energy = -76.0107333492 delta = 4.39723e-06
	188	19108 integrals
	189	iter 7 energy = -76.0107333492 delta = 8.82987e-07
	190	19108 integrals
	191	iter 8 energy = -76.0107333492 delta = 1.73915e-07
	192
	193	HOMO is 1 B1 = -0.497903
	194	LUMO is 4 A1 = 0.212736
	195
	196	total scf energy = -76.0107333492
	197
	198	SCF::compute: gradient accuracy = 1.0000000e-05
	199
	200	Total Gradient:
	201	1 O -0.0010405841 0.0000000000 -0.0000000000
	202	2 H 0.0005202920 -0.0000000000 0.0022405305
	203	3 H 0.0005202920 -0.0000000000 -0.0022405305
	204
	205	Beginning displacement 2:
	206	Molecule: setting point group to c2v
	207	Displacement is A1 in c2v. Using point group c2v for displaced molecule.
	208
	209	SCF::compute: energy accuracy = 1.0000000e-07
	210
	211	integral intermediate storage = 236328 bytes
	212	integral cache = 7760632 bytes
	213	nuclear repulsion energy = 9.2483981954
	214
	215	Using symmetric orthogonalization.
	216	n(SO): 10 1 3 5
	217	Maximum orthogonalization residual = 4.68748
	218	Minimum orthogonalization residual = 0.0220808
	219	19108 integrals
	220	iter 1 energy = -76.0106433186 delta = 2.09707e-01
	221	19108 integrals
	222	iter 2 energy = -76.0106998497 delta = 1.24263e-03
	223	19108 integrals
	224	iter 3 energy = -76.0107037606 delta = 2.93534e-04
	225	19108 integrals
	226	iter 4 energy = -76.0107045194 delta = 1.00100e-04
	227	19108 integrals
	228	iter 5 energy = -76.0107046612 delta = 4.91826e-05
	229	19108 integrals
	230	iter 6 energy = -76.0107046779 delta = 2.31661e-05
	231	19108 integrals
	232	iter 7 energy = -76.0107046780 delta = 1.57454e-06
	233	19108 integrals
	234	iter 8 energy = -76.0107046780 delta = 2.73161e-07
	235
	236	HOMO is 1 B1 = -0.498108
	237	LUMO is 4 A1 = 0.212038
	238
	239	total scf energy = -76.0107046780
	240
	241	SCF::compute: gradient accuracy = 1.0000000e-05
	242
	243	Total Gradient:
	244	1 O -0.0066012454 0.0000000000 0.0000000000
	245	2 H 0.0033006227 -0.0000000000 0.0031779831
	246	3 H 0.0033006227 -0.0000000000 -0.0031779831
	247
	248	Beginning displacement 3:
	249	Molecule: setting point group to c2v
	250	Displacement is A1 in c2v. Using point group c2v for displaced molecule.
	251
	252	SCF::compute: energy accuracy = 1.0000000e-07
	253
	254	integral intermediate storage = 236328 bytes
	255	integral cache = 7760632 bytes
	256	nuclear repulsion energy = 9.3114638385
	257
	258	Using symmetric orthogonalization.
	259	n(SO): 10 1 3 5
	260	Maximum orthogonalization residual = 4.70216
	261	Minimum orthogonalization residual = 0.0218448
	262	19108 integrals
	263	iter 1 energy = -76.0106307945 delta = 2.10102e-01
	264	19108 integrals
	265	iter 2 energy = -76.0107221272 delta = 1.46434e-03
	266	19108 integrals
	267	iter 3 energy = -76.0107280713 delta = 3.42812e-04
	268	19108 integrals
	269	iter 4 energy = -76.0107295333 delta = 1.36029e-04
	270	19108 integrals
	271	iter 5 energy = -76.0107296860 delta = 4.54298e-05
	272	19108 integrals
	273	iter 6 energy = -76.0107297039 delta = 2.30328e-05
	274	19108 integrals
	275	iter 7 energy = -76.0107297041 delta = 2.17592e-06
	276	19108 integrals
	277	iter 8 energy = -76.0107297041 delta = 4.74694e-07
	278
	279	HOMO is 1 B1 = -0.498531
	280	LUMO is 4 A1 = 0.213430
	281
	282	total scf energy = -76.0107297041
	283
	284	SCF::compute: gradient accuracy = 1.0000000e-05
	285
	286	Total Gradient:
	287	1 O 0.0020165841 0.0000000000 0.0000000000
	288	2 H -0.0010082920 -0.0000000000 -0.0027230783
	289	3 H -0.0010082920 -0.0000000000 0.0027230783
	290
	291	Beginning displacement 4:
	292	Molecule: setting point group to c2v
	293	Displacement is A1 in c2v. Using point group c2v for displaced molecule.
	294
	295	SCF::compute: energy accuracy = 1.0000000e-07
	296
	297	integral intermediate storage = 236328 bytes
	298	integral cache = 7760632 bytes
	299	nuclear repulsion energy = 9.3346656189
	300
	301	Using symmetric orthogonalization.
	302	n(SO): 10 1 3 5
	303	Maximum orthogonalization residual = 4.70475
	304	Minimum orthogonalization residual = 0.0217598
	305	19108 integrals
	306	iter 1 energy = -76.0106278992 delta = 2.10097e-01
	307	19108 integrals
	308	iter 2 energy = -76.0106864378 delta = 1.27390e-03
	309	19108 integrals
	310	iter 3 energy = -76.0106904174 delta = 2.99792e-04
	311	19108 integrals
	312	iter 4 energy = -76.0106911794 delta = 1.00691e-04
	313	19108 integrals
	314	iter 5 energy = -76.0106913183 delta = 4.92094e-05
	315	19108 integrals
	316	iter 6 energy = -76.0106913345 delta = 2.29549e-05
	317	19108 integrals
	318	iter 7 energy = -76.0106913346 delta = 1.58762e-06
	319	19108 integrals
	320	iter 8 energy = -76.0106913346 delta = 2.59742e-07
	321
	322	HOMO is 1 B1 = -0.498334
	323	LUMO is 4 A1 = 0.214132
	324
	325	total scf energy = -76.0106913346
	326
	327	SCF::compute: gradient accuracy = 1.0000000e-05
	328
	329	Total Gradient:
	330	1 O 0.0076545848 0.0000000000 0.0000000000
	331	2 H -0.0038272924 -0.0000000000 -0.0037750779
	332	3 H -0.0038272924 -0.0000000000 0.0037750779
	333
	334	Beginning displacement 5:
	335	Molecule: setting point group to cs
	336	Displacement is B2 in c2v. Using point group cs for displaced molecule.
	337
	338	SCF::compute: energy accuracy = 1.0000000e-07
	339
	340	integral intermediate storage = 236328 bytes
	341	integral cache = 7760632 bytes
	342	Projecting guess wavefunction into the present basis set
	343
	344	SCF::compute: energy accuracy = 1.0000000e-06
	345
	346	integral intermediate storage = 31876 bytes
	347	integral cache = 7967676 bytes
	348	Starting from core Hamiltonian guess
	349
	350	Using symmetric orthogonalization.
	351	n(SO): 6 1
	352	Maximum orthogonalization residual = 1.94042
	353	Minimum orthogonalization residual = 0.3354
	354	nuclear repulsion energy = 9.2917138257
	355
	356	733 integrals
	357	iter 1 energy = -74.6441111903 delta = 7.46789e-01
	358	733 integrals
	359	iter 2 energy = -74.9410849693 delta = 2.27702e-01
	360	733 integrals
	361	iter 3 energy = -74.9597742006 delta = 6.70496e-02
	362	733 integrals
	363	iter 4 energy = -74.9607071950 delta = 1.85604e-02
	364	733 integrals
	365	iter 5 energy = -74.9607494303 delta = 3.80143e-03
	366	733 integrals
	367	iter 6 energy = -74.9607496841 delta = 2.82464e-04
	368	733 integrals
	369	iter 7 energy = -74.9607496844 delta = 9.74967e-06
	370
	371	HOMO is 1 A" = -0.391187
	372	LUMO is 5 A' = 0.613805
	373
	374	total scf energy = -74.9607496844
	375
	376	Projecting the guess density.
	377
	378	The number of electrons in the guess density = 10
	379	Using symmetric orthogonalization.
	380	n(SO): 15 4
	381	Maximum orthogonalization residual = 4.69616
	382	Minimum orthogonalization residual = 0.0219165
	383	The number of electrons in the projected density = 9.95801
	384
	385	nuclear repulsion energy = 9.2917138257
	386
	387	25330 integrals
	388	iter 1 energy = -75.8313073803 delta = 2.12869e-01
	389	25330 integrals
	390	iter 2 energy = -75.9892651359 delta = 5.76207e-02
	391	25330 integrals
	392	iter 3 energy = -76.0060646997 delta = 1.47923e-02
	393	25330 integrals
	394	iter 4 energy = -76.0103608950 delta = 6.82584e-03
	395	25330 integrals
	396	iter 5 energy = -76.0106645434 delta = 2.29496e-03
	397	25330 integrals
	398	iter 6 energy = -76.0106757084 delta = 5.10629e-04
	399	25330 integrals
	400	iter 7 energy = -76.0106758705 delta = 5.24087e-05
	401	25330 integrals
	402	iter 8 energy = -76.0106758838 delta = 1.66862e-05
	403	25330 integrals
	404	iter 9 energy = -76.0106758846 delta = 3.98484e-06
	405	25330 integrals
	406	iter 10 energy = -76.0106758846 delta = 1.13646e-06
	407	25330 integrals
	408	iter 11 energy = -76.0106758846 delta = 1.45371e-07
	409
	410	HOMO is 1 A" = -0.498222
	411	LUMO is 5 A' = 0.213059
	412
	413	total scf energy = -76.0106758846
	414
	415	SCF::compute: gradient accuracy = 1.0000000e-05
	416
	417	Total Gradient:
	418	1 O 0.0006454807 0.0000000000 -0.0105297251
	419	2 H 0.0036801738 -0.0000000000 0.0049428248
	420	3 H -0.0043256545 -0.0000000000 0.0055869003
	421	Molecule: setting point group to c2v
	422	The external rank is 6
	423
	424	Frequencies (cm-1; negative is imaginary):
	425	A1
	426	1 4074.63
	427	2 1825.22
	428
	429	B2
	430	3 4193.34
	431
	432	THERMODYNAMIC ANALYSIS:
	433
	434	Contributions to the nonelectronic enthalpy at 298.15 K:
	435	kJ/mol kcal/mol
	436	E0vib = 60.3707 14.4289
	437	Evib(T) = 0.0033 0.0008
	438	Erot(T) = 3.7185 0.8887
	439	Etrans(T) = 3.7185 0.8887
	440	PV(T) = 2.4790 0.5925
	441	Total nonelectronic enthalpy:
	442	H_nonel(T) = 70.2899 16.7997
	443
	444	Contributions to the entropy at 298.15 K and 1.0 atm:
	445	J/(molK) cal/(molK)
	446	S_trans(T,P) = 144.8020 34.6085
	447	S_rot(T) = 43.4035 10.3737
	448	S_vib(T) = 0.0122 0.0029
	449	S_el = 0.0000 0.0000
	450	Total entropy:
	451	S_total(T,P) = 188.2176 44.9851
	452
	453	Various data used for thermodynamic analysis:
	454
	455	Nonlinear molecule
	456	Principal moments of inertia (amu*angstrom^2): 0.58773, 1.14593, 1.73366
	457	Point group: c2v
	458	Order of point group: 4
	459	Rotational symmetry number: 2
	460	Rotational temperatures (K): 41.2676, 21.1656, 13.9902
	461	Electronic degeneracy: 1
	462
	463	Function Parameters:
	464	value_accuracy = 2.772912e-08 (1.000000e-07)
	465	gradient_accuracy = 2.772912e-06 (1.000000e-06)
	466	hessian_accuracy = 0.000000e+00 (1.000000e-04)
	467
	468	Molecule:
	469	Molecular formula: H2O
	470	molecule<Molecule>: (
	471	symmetry = c2v
	472	symmetry_frame = [
	473	[ -0.0000000000000000 0.0000000000000000 1.0000000000000000]
	474	[ 1.0000000000000000 0.0000000000000000 -0.0000000000000000]
	475	[ -0.0000000000000000 1.0000000000000000 -0.0000000000000000]]
	476	unit = "angstrom"
	477	{ n atoms geometry }={
	478	1 O [ -0.0641272226 0.0000000000 0.0000000000]
	479	2 H [ 0.5088727774 -0.0000000000 0.7540000000]
	480	3 H [ 0.5088727774 -0.0000000000 -0.7540000000]
	481	}
	482	)
	483	Atomic Masses:
	484	15.99491 1.00783 1.00783
	485
	486	GaussianBasisSet:
	487	nbasis = 19
	488	nshell = 8
	489	nprim = 19
	490	name = "6-31G*"
	491
	492	SCF::compute: energy accuracy = 1.0000000e-07
	493
	494	integral intermediate storage = 236328 bytes
	495	integral cache = 7760632 bytes
	496	Projecting guess wavefunction into the present basis set
	497
	498	SCF::compute: energy accuracy = 1.0000000e-06
	499
	500	integral intermediate storage = 31876 bytes
	501	integral cache = 7967676 bytes
	502	Starting from core Hamiltonian guess
	503
	504	Using symmetric orthogonalization.
	505	n(SO): 4 0 1 2
	506	Maximum orthogonalization residual = 1.94039
	507	Minimum orthogonalization residual = 0.335627
	508	nuclear repulsion energy = 9.2914265473
	509
	510	565 integrals
	511	iter 1 energy = -74.6442059283 delta = 7.46913e-01
	512	565 integrals
	513	iter 2 energy = -74.9411785471 delta = 2.32701e-01
	514	565 integrals
	515	iter 3 energy = -74.9598835707 delta = 6.74768e-02
	516	565 integrals
	517	iter 4 energy = -74.9608017389 delta = 1.82839e-02
	518	565 integrals
	519	iter 5 energy = -74.9608457808 delta = 4.27179e-03
	520	565 integrals
	521	iter 6 energy = -74.9608460189 delta = 2.87494e-04
	522	565 integrals
	523	iter 7 energy = -74.9608460194 delta = 1.50392e-05
	524
	525	HOMO is 1 B1 = -0.391179
	526	LUMO is 4 A1 = 0.614055
	527
	528	total scf energy = -74.9608460194
	529
	530	Projecting the guess density.
	531
	532	The number of electrons in the guess density = 10
	533	Using symmetric orthogonalization.
	534	n(SO): 10 1 3 5
	535	Maximum orthogonalization residual = 4.69613
	536	Minimum orthogonalization residual = 0.0219193
	537	The number of electrons in the projected density = 9.95801
	538
	539	nuclear repulsion energy = 9.2914265473
	540
	541	19108 integrals
	542	iter 1 energy = -75.8313984939 delta = 2.12979e-01
	543	19108 integrals
	544	iter 2 energy = -75.9893342668 delta = 5.77199e-02
	545	19108 integrals
	546	iter 3 energy = -76.0061172655 delta = 1.48537e-02
	547	19108 integrals
	548	iter 4 energy = -76.0104307742 delta = 6.83190e-03
	549	19108 integrals
	550	iter 5 energy = -76.0107349333 delta = 2.29768e-03
	551	19108 integrals
	552	iter 6 energy = -76.0107461220 delta = 5.11193e-04
	553	19108 integrals
	554	iter 7 energy = -76.0107462842 delta = 5.25319e-05
	555	19108 integrals
	556	iter 8 energy = -76.0107462976 delta = 1.68043e-05
	557	19108 integrals
	558	iter 9 energy = -76.0107462983 delta = 4.02927e-06
	559	19108 integrals
	560	iter 10 energy = -76.0107462984 delta = 1.15008e-06
	561	19108 integrals
	562	iter 11 energy = -76.0107462984 delta = 1.44804e-07
	563
	564	HOMO is 1 B1 = -0.498218
	565	LUMO is 4 A1 = 0.213089
	566
	567	total scf energy = -76.0107462984
	568	Natural Population Analysis:
	569	n atom charge ne(S) ne(P) ne(D)
	570	1 O -0.954701 3.748465 5.194988 0.011248
	571	2 H 0.477351 0.522649
	572	3 H 0.477351 0.522649
	573
	574	SCF Parameters:
	575	maxiter = 40
	576	density_reset_frequency = 10
	577	level_shift = 0.000000
	578
	579	CLSCF Parameters:
	580	charge = 0
	581	ndocc = 5
	582	docc = [ 3 0 1 1 ]
	583
	584	CPU Wall
	585	mpqc: 1.87 1.99
	586	NAO: 0.21 0.22
	587	vector: 0.18 0.20
	588	density: 0.00 0.00
	589	evals: 0.04 0.01
	590	extrap: 0.02 0.01
	591	fock: 0.04 0.09
	592	accum: 0.00 0.00
	593	ao_gmat: 0.03 0.03
	594	start thread: 0.03 0.03
	595	stop thread: 0.00 0.00
	596	init pmax: 0.00 0.00
	597	local data: 0.00 0.00
	598	setup: 0.01 0.03
	599	sum: 0.00 0.00
	600	symm: 0.00 0.03
	601	vector: 0.05 0.05
	602	density: 0.00 0.00
	603	evals: 0.00 0.00
	604	extrap: 0.00 0.01
	605	fock: 0.03 0.02
	606	accum: 0.00 0.00
	607	ao_gmat: 0.01 0.01
	608	start thread: 0.01 0.00
	609	stop thread: 0.00 0.00
	610	init pmax: 0.00 0.00
	611	local data: 0.00 0.00
	612	setup: 0.01 0.01
	613	sum: 0.00 0.00
	614	symm: 0.01 0.01
	615	calc: 0.12 0.13
	616	vector: 0.11 0.13
	617	density: 0.00 0.00
	618	evals: 0.00 0.01
	619	extrap: 0.00 0.01
	620	fock: 0.09 0.09
	621	accum: 0.00 0.00
	622	ao_gmat: 0.04 0.03
	623	start thread: 0.03 0.03
	624	stop thread: 0.00 0.00
	625	init pmax: 0.00 0.00
	626	local data: 0.00 0.00
	627	setup: 0.04 0.02
	628	sum: 0.00 0.00
	629	symm: 0.01 0.03
	630	hessian: 1.35 1.42
	631	compute gradient: 0.62 0.68
	632	nuc rep: 0.00 0.00
	633	one electron gradient: 0.06 0.07
	634	overlap gradient: 0.05 0.03
	635	two electron gradient: 0.51 0.57
	636	contribution: 0.09 0.15
	637	start thread: 0.09 0.11
	638	stop thread: 0.00 0.03
	639	setup: 0.42 0.42
	640	vector: 0.69 0.71
	641	density: 0.01 0.01
	642	evals: 0.04 0.03
	643	extrap: 0.03 0.05
	644	fock: 0.42 0.40
	645	accum: 0.00 0.00
	646	ao_gmat: 0.16 0.17
	647	start thread: 0.15 0.15
	648	stop thread: 0.00 0.01
	649	init pmax: 0.00 0.00
	650	local data: 0.03 0.01
	651	setup: 0.06 0.09
	652	sum: 0.00 0.00
	653	symm: 0.16 0.12
	654	vector: 0.05 0.04
	655	density: 0.00 0.00
	656	evals: 0.00 0.00
	657	extrap: 0.03 0.00
	658	fock: 0.00 0.02
	659	accum: 0.00 0.00
	660	ao_gmat: 0.00 0.01
	661	start thread: 0.00 0.00
	662	stop thread: 0.00 0.00
	663	init pmax: 0.00 0.00
	664	local data: 0.00 0.00
	665	setup: 0.00 0.00
	666	sum: 0.00 0.00
	667	symm: 0.00 0.01
	668	input: 0.18 0.21
	669	vector: 0.03 0.04
	670	density: 0.00 0.00
	671	evals: 0.01 0.00
	672	extrap: 0.00 0.01
	673	fock: 0.02 0.02
	674	accum: 0.00 0.00
	675	ao_gmat: 0.00 0.01
	676	start thread: 0.00 0.00
	677	stop thread: 0.00 0.00
	678	init pmax: 0.00 0.00
	679	local data: 0.00 0.00
	680	setup: 0.01 0.01
	681	sum: 0.00 0.00
	682	symm: 0.00 0.01
	683
	684	End Time: Sat Apr 6 14:00:28 2002
	685

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