source: ThirdParty/mpqc_open/src/bin/mpqc/validate/ref/input_mp2r12ah2o.out

Candidate_v1.7.1 stable v1.7.1
Last change on this file was 860145, checked in by Frederik Heber <heber@…>, 9 years ago

Merge commit '0b990dfaa8c6007a996d030163a25f7f5fc8a7e7' as 'ThirdParty/mpqc_open'
  • Property mode set to 100644
File size: 14.6 KB
Line 
1 Reading file /home/cljanss/src/SC/lib/atominfo.kv.
2
3 MPQC: Massively Parallel Quantum Chemistry
4 Version 2.2.0-alpha
5
6 Machine: i686-pc-linux-gnu
7 User: cljanss@aros.ca.sandia.gov
8 Start Time: Tue Aug 5 15:49:00 2003
9
10 Using ProcMessageGrp for message passing (number of nodes = 1).
11 Using PthreadThreadGrp for threading (number of threads = 1).
12 Using ProcMemoryGrp for distributed shared memory.
13 Total number of processors = 1
14
15 Using IntegralV3 by default for molecular integrals evaluation
16
17 Reading file /home/cljanss/src/SC/lib/atominfo.kv.
18 Molecule: setting point group to c2v
19 Reading file /home/cljanss/src/SC/lib/basis/cc-pvdz.kv.
20 Reading file /home/cljanss/src/SC/lib/basis/dz_LdunningR.kv.
21
22 CLSCF::init: total charge = 0
23
24 Starting from core Hamiltonian guess
25
26 Using symmetric orthogonalization.
27 n(basis): 8 0 2 4
28 Maximum orthogonalization residual = 3.55837
29 Minimum orthogonalization residual = 0.0548457
30 docc = [ 3 0 1 1 ]
31 nbasis = 14
32
33 CLSCF::init: total charge = 0
34
35 Projecting guess wavefunction into the present basis set
36
37 SCF::compute: energy accuracy = 1.0000000e-06
38
39 integral intermediate storage = 519368 bytes
40 integral cache = 7478952 bytes
41 nuclear repulsion energy = 9.2914265473
42
43 4284 integrals
44 iter 1 energy = -75.6893255510 delta = 2.35794e-01
45 4284 integrals
46 iter 2 energy = -75.9959253056 delta = 5.94340e-02
47 4284 integrals
48 iter 3 energy = -76.0084774960 delta = 1.43169e-02
49 4284 integrals
50 iter 4 energy = -76.0094084571 delta = 5.74147e-03
51 4284 integrals
52 iter 5 energy = -76.0095448253 delta = 1.47363e-03
53 4284 integrals
54 iter 6 energy = -76.0095547336 delta = 5.71251e-04
55 4284 integrals
56 iter 7 energy = -76.0095555406 delta = 1.91052e-04
57 4284 integrals
58 iter 8 energy = -76.0095555569 delta = 3.02118e-05
59 4284 integrals
60 iter 9 energy = -76.0095555575 delta = 5.37654e-06
61 4284 integrals
62 iter 10 energy = -76.0095555576 delta = 1.52405e-06
63
64 HOMO is 1 B1 = -0.506579
65 LUMO is 4 A1 = 0.221661
66
67 total scf energy = -76.0095555576
68
69 Projecting the guess density.
70
71 The number of electrons in the guess density = 10
72 Using symmetric orthogonalization.
73 n(basis): 11 2 4 7
74 Maximum orthogonalization residual = 3.72313
75 Minimum orthogonalization residual = 0.0336016
76 The number of electrons in the projected density = 9.9926
77
78 docc = [ 3 0 1 1 ]
79 nbasis = 24
80 MBPT2: auto-freezing 1 core orbitals
81 Reading file /home/cljanss/src/SC/lib/basis/aug-cc-pvtz.kv.
82
83 Molecular formula H2O
84
85 MPQC options:
86 matrixkit = <ReplSCMatrixKit>
87 filename = input_mp2r12ah2o
88 restart_file = input_mp2r12ah2o.ckpt
89 restart = no
90 checkpoint = no
91 savestate = no
92 do_energy = yes
93 do_gradient = no
94 optimize = no
95 write_pdb = no
96 print_mole = yes
97 print_timings = yes
98
99
100 SCF::compute: energy accuracy = 1.0000000e-08
101
102 integral intermediate storage = 1604320 bytes
103 integral cache = 6390880 bytes
104 nuclear repulsion energy = 9.2914265473
105
106 31972 integrals
107 iter 1 energy = -75.9885781400 delta = 1.63544e-01
108 31972 integrals
109 iter 2 energy = -76.0262431855 delta = 1.19924e-02
110 31972 integrals
111 iter 3 energy = -76.0269970274 delta = 2.00747e-03
112 31972 integrals
113 iter 4 energy = -76.0270254917 delta = 4.21768e-04
114 31972 integrals
115 iter 5 energy = -76.0270274173 delta = 9.91434e-05
116 31972 integrals
117 iter 6 energy = -76.0270277067 delta = 4.44256e-05
118 31972 integrals
119 iter 7 energy = -76.0270277113 delta = 6.15181e-06
120 31972 integrals
121 iter 8 energy = -76.0270277116 delta = 1.77595e-06
122 31972 integrals
123 iter 9 energy = -76.0270277116 delta = 2.20851e-07
124 31972 integrals
125 iter 10 energy = -76.0270277116 delta = 3.68033e-08
126 31972 integrals
127 iter 11 energy = -76.0270277116 delta = 1.31965e-08
128
129 HOMO is 1 B1 = -0.493537
130 LUMO is 4 A1 = 0.187487
131
132 total scf energy = -76.0270277116
133
134 Entered SBS A intermediates evaluator
135 nproc = 1
136 Memory available per node: 8000000 Bytes
137 Static memory used per node: 1746496 Bytes
138 Total memory used per node: 2117440 Bytes
139 Memory required for one pass: 2117440 Bytes
140 Minimum memory required: 1839232 Bytes
141 Batch size: 4
142 npass rest nbasis nshell nfuncmax
143 1 0 24 11 5
144 nocc nvir nfzc nfzv
145 5 19 1 0
146 Memory used for integral storage: 1731520 Bytes
147 Size of global distributed array: 221184 Bytes
148 Will hold transformed integrals in memory
149 Beginning pass 1
150 Begin loop over shells (grt, 1.+2. q.t.)
151 working on shell pair ( 0 0), 1.5% complete
152 working on shell pair ( 3 0), 10.6% complete
153 working on shell pair ( 4 2), 19.7% complete
154 working on shell pair ( 5 3), 28.8% complete
155 working on shell pair ( 6 3), 37.9% complete
156 working on shell pair ( 7 2), 47.0% complete
157 working on shell pair ( 8 0), 56.1% complete
158 working on shell pair ( 8 6), 65.2% complete
159 working on shell pair ( 9 3), 74.2% complete
160 working on shell pair ( 9 9), 83.3% complete
161 working on shell pair ( 10 5), 92.4% complete
162 End of loop over shells
163 Begin third q.t.
164 End of third q.t.
165 Begin fourth q.t.
166 End of fourth q.t.
167
168 Entered ABS A intermediates evaluator
169 nproc = 1
170 Memory available per node: 8000000 Bytes
171 Static memory used per node: 2633840 Bytes
172 Total memory used per node: 3012200 Bytes
173 Memory required for one pass: 3012200 Bytes
174 Minimum memory required: 2731400 Bytes
175 Batch size: 4
176 npass rest nbasis nshell nfuncmax nbasis(ABS) nshell(ABS) nfuncmax(ABS)
177 1 0 24 11 5 92 31 7
178 nocc nvir nfzc nfzv
179 5 19 1 0
180 Using canonical orthogonalization.
181 n(basis): 35 12 18 27
182 Maximum orthogonalization residual = 6.85353
183 Minimum orthogonalization residual = 0.000373953
184 Memory used for integral storage: 2544240 Bytes
185 Size of global distributed array: 235520 Bytes
186 Will hold transformed integrals in memory
187 Beginning pass 1
188 Begin loop over shells (grt, 1.+2. q.t.)
189 working on shell pair ( 0 0), 0.3% complete
190 working on shell pair ( 1 3), 10.3% complete
191 working on shell pair ( 2 6), 20.2% complete
192 working on shell pair ( 3 9), 30.2% complete
193 working on shell pair ( 4 12), 40.2% complete
194 working on shell pair ( 5 15), 50.1% complete
195 working on shell pair ( 6 18), 60.1% complete
196 working on shell pair ( 7 21), 70.1% complete
197 working on shell pair ( 8 24), 80.1% complete
198 working on shell pair ( 9 27), 90.0% complete
199 working on shell pair ( 10 30), 100.0% complete
200 End of loop over shells
201 Begin fourth q.t.
202 End of fourth q.t.
203
204 Basis Set completeness diagnostics:
205 -Tr(V)/Tr(B) for alpha-alpha pairs: 0.082447
206 -Tr(V)/Tr(B) for alpha-beta pairs: 0.158348
207
208 Alpha-alpha MBPT2-R12/A pair energies:
209 i j mp2(ij) r12(ij) mp2-r12(ij)
210 ----- ----- ------------ ------------ ------------
211 2 1 -0.003944929 -0.000635330 -0.004580259
212 3 1 -0.003704675 -0.000811230 -0.004515905
213 3 2 -0.012560766 -0.001617760 -0.014178526
214 4 1 -0.003911019 -0.001185825 -0.005096844
215 4 2 -0.013246854 -0.001806721 -0.015053575
216 4 3 -0.013195512 -0.002255539 -0.015451052
217
218 Alpha-beta MBPT2-R12/A pair energies:
219 i j mp2(ij) r12(ij) mp2-r12(ij)
220 ----- ----- ------------ ------------ ------------
221 1 1 -0.008950914 -0.003276598 -0.012227512
222 1 2 -0.007119377 -0.003166928 -0.010286306
223 1 3 -0.005583738 -0.003137682 -0.008721420
224 1 4 -0.005471599 -0.003734644 -0.009206243
225 2 1 -0.007119377 -0.003166928 -0.010286306
226 2 2 -0.019568851 -0.003586703 -0.023155554
227 2 3 -0.009446518 -0.001479796 -0.010926314
228 2 4 -0.007801792 -0.002142239 -0.009944031
229 3 1 -0.005583738 -0.003137682 -0.008721420
230 3 2 -0.009446518 -0.001479796 -0.010926314
231 3 3 -0.017350797 -0.005523902 -0.022874699
232 3 4 -0.008302544 -0.002905660 -0.011208204
233 4 1 -0.005471599 -0.003734644 -0.009206243
234 4 2 -0.007801792 -0.002142239 -0.009944031
235 4 3 -0.008302544 -0.002905660 -0.011208204
236 4 4 -0.016919424 -0.006295581 -0.023215005
237
238 RHF energy [au]: -76.027027711611
239 MP2 correlation energy [au]: -0.200804879000
240 (MBPT2)-R12/ A correlation energy [au]: -0.060129088666
241 MBPT2-R12/ A correlation energy [au]: -0.260933967666
242 MBPT2-R12/ A energy [au]: -76.287961679277
243
244Value of the MolecularEnergy: -76.2879616793
245
246 MBPT2_R12:
247 Standard Approximation: A
248 Spin-adapted algorithm: false
249 Transformed Integrals file: /tmp/r12ints.dat
250
251 Auxiliary Basis:
252 GaussianBasisSet:
253 nbasis = 92
254 nshell = 31
255 nprim = 44
256 name = "aug-cc-pVTZ"
257
258 MBPT2:
259 Function Parameters:
260 value_accuracy = 1.694878e-07 (1.000000e-06) (computed)
261 gradient_accuracy = 0.000000e+00 (1.000000e-06)
262 hessian_accuracy = 0.000000e+00 (1.000000e-04)
263
264 Molecule:
265 Molecular formula: H2O
266 molecule<Molecule>: (
267 symmetry = c2v
268 symmetry_frame = [
269 [ -0.0000000000000000 0.0000000000000000 1.0000000000000000]
270 [ 1.0000000000000000 0.0000000000000000 -0.0000000000000000]
271 [ -0.0000000000000000 1.0000000000000000 -0.0000000000000000]]
272 unit = "angstrom"
273 { n atoms geometry }={
274 1 O [ -0.0641272226 0.0000000000 0.0000000000]
275 2 H [ 0.5088727774 -0.0000000000 0.7540000000]
276 3 H [ 0.5088727774 -0.0000000000 -0.7540000000]
277 }
278 )
279 Atomic Masses:
280 15.99491 1.00783 1.00783
281
282 GaussianBasisSet:
283 nbasis = 24
284 nshell = 11
285 nprim = 24
286 name = "cc-pVDZ"
287 Reference Wavefunction:
288 Function Parameters:
289 value_accuracy = 1.694878e-09 (1.000000e-08) (computed)
290 gradient_accuracy = 0.000000e+00 (1.000000e-06)
291 hessian_accuracy = 0.000000e+00 (1.000000e-04)
292
293 Molecule:
294 Molecular formula: H2O
295 molecule<Molecule>: (
296 symmetry = c2v
297 symmetry_frame = [
298 [ -0.0000000000000000 0.0000000000000000 1.0000000000000000]
299 [ 1.0000000000000000 0.0000000000000000 -0.0000000000000000]
300 [ -0.0000000000000000 1.0000000000000000 -0.0000000000000000]]
301 unit = "angstrom"
302 { n atoms geometry }={
303 1 O [ -0.0641272226 0.0000000000 0.0000000000]
304 2 H [ 0.5088727774 -0.0000000000 0.7540000000]
305 3 H [ 0.5088727774 -0.0000000000 -0.7540000000]
306 }
307 )
308 Atomic Masses:
309 15.99491 1.00783 1.00783
310
311 GaussianBasisSet:
312 nbasis = 24
313 nshell = 11
314 nprim = 24
315 name = "cc-pVDZ"
316 SCF Parameters:
317 maxiter = 40
318 density_reset_frequency = 10
319 savestate_iter = 0
320 savestate_frequency = 1
321 level_shift = 0.000000
322
323 CLSCF Parameters:
324 charge = 0
325 ndocc = 5
326 docc = [ 3 0 1 1 ]
327
328
329 The following keywords in "input_mp2r12ah2o.in" were ignored:
330 mpqc:mole:total_charge
331
332 CPU Wall
333mpqc: 3.18 3.35
334 calc: 2.92 3.07
335 mp2-r12/a energy: 2.92 3.07
336 mp2-r12/a pair energies: 0.00 0.00
337 r12a-abs-mem: 1.49 1.52
338 mp2-r12/a passes: 1.45 1.48
339 4. q.t.: 0.02 0.02
340 MO ints store: 0.00 0.00
341 grt+1.qt+2.qt: 1.43 1.45
342 mp2-r12a intermeds: 0.00 0.00
343 MO ints contraction: 0.00 0.00
344 MO ints retrieve: 0.00 0.00
345 r12a-sbs-mem: 0.38 0.39
346 mp2-r12/a passes: 0.37 0.38
347 3. q.t.: 0.00 0.00
348 4. q.t.: 0.00 0.00
349 MO ints store: 0.00 0.00
350 compute emp2: 0.00 0.00
351 grt+1.qt+2.qt: 0.37 0.37
352 mp2-r12a intermeds: 0.00 0.00
353 MO ints contraction: 0.00 0.00
354 MO ints retrieve: 0.00 0.00
355 vector: 1.05 1.16
356 density: 0.00 0.00
357 evals: 0.00 0.00
358 extrap: 0.01 0.01
359 fock: 1.03 1.14
360 accum: 0.00 0.00
361 ao_gmat: 0.99 1.00
362 start thread: 0.99 1.00
363 stop thread: 0.00 0.00
364 init pmax: 0.00 0.00
365 local data: 0.00 0.00
366 setup: 0.02 0.02
367 sum: 0.00 0.00
368 symm: 0.02 0.12
369 input: 0.26 0.27
370 vector: 0.16 0.17
371 density: 0.00 0.00
372 evals: 0.00 0.00
373 extrap: 0.01 0.02
374 fock: 0.14 0.15
375 accum: 0.00 0.00
376 ao_gmat: 0.13 0.12
377 start thread: 0.13 0.12
378 stop thread: 0.00 0.00
379 init pmax: 0.00 0.00
380 local data: 0.00 0.00
381 setup: 0.00 0.01
382 sum: 0.00 0.00
383 symm: 0.01 0.01
384
385 End Time: Tue Aug 5 15:49:03 2003
386
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