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mirror of https://github.com/QuantumPackage/qp2.git synced 2024-12-22 20:34:58 +01:00
This commit is contained in:
Anthony Scemama 2020-05-13 11:48:20 +02:00
commit eb91084ee9
33 changed files with 31858 additions and 5115 deletions

View File

@ -1,519 +1,195 @@
HYDROGEN
S 8
1 23.843185 0.00411490
2 10.212443 0.01046440
3 4.374164 0.02801110
4 1.873529 0.07588620
5 0.802465 0.18210620
6 0.343709 0.34852140
7 0.147217 0.37823130
8 0.063055 0.11642410
S 1
1 0.040680 1.00000000
S 1
1 0.139013 1.00000000
P 1
1 0.166430 1.00000000
P 1
1 0.740212 1.00000000
! Obtained from
! https://pseudopotentiallibrary.org
SODIUM
S 12
1 50.364926 -0.00144900
2 24.480199 -0.00059000
3 11.898760 -0.11881800
4 5.783470 -0.01085600
5 2.811093 0.25078300
6 1.366350 0.44727600
7 0.664123 0.34725400
8 0.322801 0.08065200
9 0.156900 0.00120800
10 0.076262 0.00040900
11 0.037068 0.00011200
12 0.018017 0.00007200
S 12
1 50.364926 0.00021200
2 24.480199 0.00037900
3 11.898760 0.01958200
4 5.783470 0.00062300
5 2.811093 -0.04578100
6 1.366350 -0.08872800
7 0.664123 -0.11295200
8 0.322801 -0.10839600
9 0.156900 0.00990100
10 0.076262 0.35541800
11 0.037068 0.56145100
12 0.018017 0.19899800
S 1
1 0.073591 1.00000000
S 1
1 0.036796 1.00000000
P 12
1 77.769943 0.00005400
2 42.060816 -0.00001600
3 22.748020 0.01257100
4 12.302957 0.07960100
5 6.653887 0.14044200
6 3.598664 0.21214100
7 1.946289 0.26179900
8 1.052624 0.25582000
9 0.569297 0.18035900
10 0.307897 0.07216500
11 0.166522 0.01066300
12 0.090061 0.00153800
P 12
1 77.769943 -0.00065600
2 42.060816 0.00313700
3 22.748020 -0.01100400
4 12.302957 0.00937600
5 6.653887 -0.06647900
6 3.598664 0.05895900
7 1.946289 -0.22105000
8 1.052624 0.30349100
9 0.569297 -0.67170500
10 0.307897 1.06436000
11 0.166522 -1.53048900
12 0.090061 1.84316700
P 1
1 0.063647 1.00000000
P 1
1 0.031823 1.00000000
D 1
1 0.093145 1.00000000
D 1
1 0.046573 1.00000000
$DATA
MAGNESIUM
S 12
1 63.931893 -0.00079400
2 31.602596 0.00747900
3 15.621687 -0.13624600
4 7.722059 -0.03203300
5 3.817142 0.21682300
6 1.886877 0.45136400
7 0.932714 0.37759900
8 0.461056 0.09431900
9 0.227908 0.00170300
10 0.112659 0.00048500
11 0.055689 -0.00015100
12 0.027528 0.00003100
S 12
1 63.931893 0.00010600
2 31.602596 -0.00108600
3 15.621687 0.02867600
4 7.722059 0.00578100
5 3.817142 -0.05065300
6 1.886877 -0.11687700
7 0.932714 -0.16512100
8 0.461056 -0.11801600
9 0.227908 0.10836500
10 0.112659 0.41475500
11 0.055689 0.47763300
12 0.027528 0.17347600
S 1
1 0.041150 1.00000000
S 1
1 0.020575 1.00000000
POTASSIUM
S 13
1 33.190598 0.00093460
2 17.266513 -0.01746080
3 8.982438 0.15299840
4 4.672871 -0.34050680
5 2.430935 -0.22863440
6 1.264628 0.22672980
7 0.657889 0.54910420
8 0.342249 0.42310450
9 0.178046 0.09104080
10 0.092623 0.00345520
11 0.048185 -0.00028370
12 0.025067 0.00055460
13 0.013040 0.00000310
S 13
1 33.190598 -0.00013550
2 17.266513 0.00327580
3 8.982438 -0.03127550
4 4.672871 0.07304500
5 2.430935 0.04905170
6 1.264628 -0.05320270
7 0.657889 -0.13678160
8 0.342249 -0.16629980
9 0.178046 -0.15469740
10 0.092623 0.00178980
11 0.048185 0.40887000
12 0.025067 0.56715150
13 0.013040 0.18420760
P 12
1 28.231094 0.01131700
2 14.891993 0.08703900
3 7.855575 0.16268300
4 4.143841 0.24138600
5 2.185889 0.29006400
6 1.153064 0.25299100
7 0.608245 0.13309700
8 0.320851 0.02894100
9 0.169250 0.00320900
10 0.089280 0.00026800
11 0.047095 0.00025700
12 0.024843 -0.00003700
1 25.955983 0.00005310
2 12.863527 0.00359740
3 6.375036 -0.04058580
4 3.159405 -0.04220760
5 1.565770 0.20965770
6 0.775980 0.39509450
7 0.384568 0.37504360
8 0.190588 0.15682480
9 0.094453 0.01966940
10 0.046810 0.00125380
11 0.023199 0.00029050
12 0.011497 -0.00000980
P 12
1 28.231094 -0.00182200
2 14.891993 -0.01360300
3 7.855575 -0.02570000
4 4.143841 -0.03907600
5 2.185889 -0.04877900
6 1.153064 -0.04599000
7 0.608245 -0.03165800
8 0.320851 0.04917800
9 0.169250 0.18690900
10 0.089280 0.37939600
11 0.047095 0.33543100
12 0.024843 0.18405800
1 25.955983 -0.00001130
2 12.863527 -0.00050130
3 6.375036 0.00601080
4 3.159405 0.00570550
5 1.565770 -0.03288980
6 0.775980 -0.05912520
7 0.384568 -0.06798030
8 0.190588 -0.04852530
9 0.094453 0.02182800
10 0.046810 0.27827650
11 0.023199 0.48640440
12 0.011497 0.31832720
D 11
1 25.002828 0.00002860
2 10.959775 -0.00030190
3 4.804124 0.00482980
4 2.105846 0.01402200
5 0.923080 0.02589140
6 0.404624 0.03605440
7 0.177364 0.04862730
8 0.077746 0.10242950
9 0.034079 0.28114010
10 0.014938 0.51238900
11 0.006548 0.25265610
S 1
1 0.910504 1.00000000
S 1
1 0.538624 1.00000000
S 1
1 0.051786 1.00000000
S 1
1 0.019252 1.00000000
S 1
1 0.009626 1.00000000
P 1
1 0.038365 1.00000000
1 0.479550 1.00000000
P 1
1 0.019183 1.00000000
1 0.234482 1.00000000
P 1
1 0.027763 1.00000000
P 1
1 0.012100 1.00000000
P 1
1 0.006050 1.00000000
D 1
1 0.196017 1.00000000
1 1.034207 1.00000000
D 1
1 0.098008 1.00000000
1 0.013386 1.00000000
D 1
1 0.006693 1.00000000
ALUMINUM
S 12
1 78.990577 -0.00048100
2 39.484884 0.01309500
3 19.737241 -0.14615300
4 9.866021 -0.04520600
5 4.931711 0.19070800
6 2.465206 0.45320700
7 1.232278 0.39882400
8 0.615977 0.10364800
9 0.307907 0.00224700
10 0.153913 0.00079000
11 0.076936 -0.00014000
12 0.038458 0.00006400
S 12
1 78.990577 0.00002400
2 39.484884 -0.00262700
3 19.737241 0.03694800
4 9.866021 0.01070500
5 4.931711 -0.05334200
6 2.465206 -0.14418800
7 1.232278 -0.21396900
8 0.615977 -0.12558500
9 0.307907 0.19397000
10 0.153913 0.48467400
11 0.076936 0.41941400
12 0.038458 0.11043000
S 1
1 0.062950 1.00000000
S 1
1 0.030399 1.00000000
CALCIUM
S 13
1 38.909972 0.00094450
2 20.573489 -0.01770900
3 10.878148 0.14349340
4 5.751777 -0.28035140
5 3.041228 -0.28847700
6 1.608037 0.17248640
7 0.850243 0.55290080
8 0.449563 0.46769880
9 0.237704 0.09929150
10 0.125685 0.00665130
11 0.066456 -0.00192570
12 0.035138 0.00096120
13 0.018579 -0.00024390
S 13
1 38.909972 -0.00018310
2 20.573489 0.00425520
3 10.878148 -0.03727720
4 5.751777 0.07704740
5 3.041228 0.07822310
6 1.608037 -0.05175260
7 0.850243 -0.17462310
8 0.449563 -0.25326320
9 0.237704 -0.16061050
10 0.125685 0.12654760
11 0.066456 0.46487670
12 0.035138 0.47840060
13 0.018579 0.15642960
P 12
1 33.993368 0.01190800
2 17.617051 0.09748500
3 9.130030 0.18047400
4 4.731635 0.26552200
5 2.452168 0.30797700
6 1.270835 0.23506100
7 0.658610 0.08963100
8 0.341324 0.01108300
9 0.176891 0.00157700
10 0.091674 0.00000700
11 0.047510 0.00021500
12 0.024622 -0.00002200
1 31.519451 -0.00013110
2 15.831494 0.00581110
3 7.951795 -0.04461000
4 3.994003 -0.04239180
5 2.006096 0.18028850
6 1.007616 0.40747440
7 0.506102 0.38646720
8 0.254203 0.15452190
9 0.127681 0.01706770
10 0.064131 0.00315970
11 0.032211 -0.00022470
12 0.016179 0.00016830
P 12
1 33.993368 -0.00218300
2 17.617051 -0.01736200
3 9.130030 -0.03229200
4 4.731635 -0.04981000
5 2.452168 -0.05992600
6 1.270835 -0.05255300
7 0.658610 0.00198900
8 0.341324 0.13005200
9 0.176891 0.28008900
10 0.091674 0.37433900
11 0.047510 0.27285700
12 0.024622 0.08514500
P 1
1 0.053015 1.00000000
P 1
1 0.014456 1.00000000
D 1
1 0.189387 1.00000000
D 1
1 0.053602 1.00000000
SILICON
S 12
1 96.651837 -0.00044000
2 48.652547 0.01867100
3 24.490692 -0.15435300
4 12.328111 -0.05773800
5 6.205717 0.16808700
6 3.123831 0.45342800
7 1.572472 0.41767500
8 0.791550 0.11190100
9 0.398450 0.00333700
10 0.200572 0.00099500
11 0.100964 -0.00003800
12 0.050823 0.00006900
S 12
1 96.651837 -0.00000400
2 48.652547 -0.00442100
3 24.490692 0.04336200
4 12.328111 0.01585300
5 6.205717 -0.05170600
6 3.123831 -0.16289500
7 1.572472 -0.25021800
8 0.791550 -0.12421600
9 0.398450 0.24632500
10 0.200572 0.50589900
11 0.100964 0.38631400
12 0.050823 0.08770100
1 31.519451 0.00002060
2 15.831494 -0.00124550
3 7.951795 0.01011140
4 3.994003 0.00894270
5 2.006096 -0.04458680
6 1.007616 -0.09627520
7 0.506102 -0.11300730
8 0.254203 -0.06533320
9 0.127681 0.14680910
10 0.064131 0.44119800
11 0.032211 0.42763180
12 0.016179 0.12519670
D 11
1 28.997930 0.00227830
2 13.712713 0.01197270
3 6.484549 0.02273230
4 3.066452 0.06997740
5 1.450082 0.12588700
6 0.685723 0.17597110
7 0.324269 0.20962750
8 0.153342 0.25661550
9 0.072513 0.28874140
10 0.034291 0.22477940
11 0.016216 0.08294810
S 1
1 0.086279 1.00000000
1 1.383790 1.00000000
S 1
1 0.052598 1.00000000
P 12
1 40.315996 0.01293800
2 21.171265 0.09812900
3 11.117733 0.17932400
4 5.838290 0.26388600
5 3.065879 0.30927200
6 1.609995 0.23274800
7 0.845462 0.08590000
8 0.443980 0.01026000
9 0.233149 0.00156000
10 0.122434 -0.00000300
11 0.064294 0.00023200
12 0.033763 -0.00002300
P 12
1 40.315996 0.00283300
2 21.171265 0.02086900
3 11.117733 0.03823600
4 5.838290 0.05967900
5 3.065879 0.07277600
6 1.609995 0.06112900
7 0.845462 -0.01677600
8 0.443980 -0.17225900
9 0.233149 -0.32119600
10 0.122434 -0.36282800
11 0.064294 -0.22078900
12 0.033763 -0.05515200
P 1
1 0.079370 1.00000000
P 1
1 0.025699 1.00000000
D 1
1 0.274454 1.00000000
D 1
1 0.082112 1.00000000
PHOSPHORUS
S 12
1 269.443884 0.00005500
2 127.601401 -0.00062400
3 60.428603 0.01940000
4 28.617367 -0.16550900
5 13.552418 -0.05426500
6 6.418062 0.25444000
7 3.039422 0.54966100
8 1.439389 0.32228500
9 0.681656 0.02663200
10 0.322814 0.00420300
11 0.152876 -0.00123300
12 0.072398 0.00049700
S 12
1 269.443884 0.00001800
2 127.601401 -0.00002600
3 60.428603 -0.00493300
4 28.617367 0.05012000
5 13.552418 0.01580100
6 6.418062 -0.08446300
7 3.039422 -0.24674200
8 1.439389 -0.27632600
9 0.681656 0.10027400
10 0.322814 0.51720100
11 0.152876 0.47975800
12 0.072398 0.12409900
1 0.701508 1.00000000
S 1
1 0.111116 1.00000000
1 0.066369 1.00000000
S 1
1 0.070425 1.00000000
P 12
1 48.154282 0.01288400
2 25.406431 0.09709500
3 13.404555 0.17821500
4 7.072308 0.26596400
5 3.731384 0.31293300
6 1.968696 0.23068600
7 1.038693 0.08048900
8 0.548020 0.00908500
9 0.289138 0.00124800
10 0.152550 -0.00006600
11 0.080486 0.00012900
12 0.042465 -0.00002900
P 12
1 48.154282 -0.00315200
2 25.406431 -0.02300600
3 13.404555 -0.04239800
4 7.072308 -0.06747700
5 3.731384 -0.08295200
6 1.968696 -0.06602600
7 1.038693 0.03446800
8 0.548020 0.20901800
9 0.289138 0.34717900
10 0.152550 0.34480600
11 0.080486 0.18173100
12 0.042465 0.03664900
P 1
1 0.110006 1.00000000
P 1
1 0.032651 1.00000000
D 1
1 0.373518 1.00000000
D 1
1 0.111363 1.00000000
SULFUR
S 12
1 306.317903 0.00006400
2 146.602801 -0.00078500
3 70.163647 0.02247100
4 33.580104 -0.16987100
5 16.071334 -0.06189700
6 7.691691 0.24003900
7 3.681219 0.55164900
8 1.761820 0.33438600
9 0.843202 0.03132300
10 0.403554 0.00443600
11 0.193140 -0.00101500
12 0.092436 0.00050700
S 12
1 306.317903 0.00002100
2 146.602801 -0.00000400
3 70.163647 -0.00611900
4 33.580104 0.05447100
5 16.071334 0.01934400
6 7.691691 -0.08383900
7 3.681219 -0.26532200
8 1.761820 -0.29306500
9 0.843202 0.11373000
10 0.403554 0.52928200
11 0.193140 0.46625400
12 0.092436 0.12580000
1 0.026432 1.00000000
S 1
1 0.138193 1.00000000
S 1
1 0.091639 1.00000000
P 12
1 55.148271 0.01344700
2 29.056588 0.10167000
3 15.309371 0.18519200
4 8.066220 0.27583600
5 4.249940 0.31707300
6 2.239213 0.21706600
7 1.179799 0.06576500
8 0.621614 0.00651700
9 0.327517 0.00111100
10 0.172562 0.00022200
11 0.090920 0.00018100
12 0.047904 0.00000800
P 12
1 55.148271 0.00354200
2 29.056588 0.02579700
3 15.309371 0.04726000
4 8.066220 0.07559400
5 4.249940 0.09198000
6 2.239213 0.06206700
7 1.179799 -0.07125300
8 0.621614 -0.25020600
9 0.327517 -0.34929500
10 0.172562 -0.31270000
11 0.090920 -0.15589800
12 0.047904 -0.03041800
1 0.006700 1.00000000
P 1
1 0.132347 1.00000000
1 0.563426 1.00000000
P 1
1 0.043576 1.00000000
D 1
1 0.480399 1.00000000
D 1
1 0.145431 1.00000000
CHLORINE
S 10
1 15.583847 0.002501
2 8.858485 -0.010046
3 5.035519 0.085810
4 2.862391 -0.290136
5 1.627098 -0.140314
6 0.924908 0.146839
7 0.525755 0.392484
8 0.298860 0.425061
9 0.169884 0.227195
10 0.096569 0.059828
S 1
1 0.648040 1.000000
S 1
1 0.151979 1.000000
P 10
1 7.682894 -0.004609
2 4.507558 -0.001798
3 2.644587 -0.068614
4 1.551581 0.062352
5 0.910313 0.166337
6 0.534081 0.282292
7 0.313346 0.275967
8 0.183840 0.241328
9 0.107859 0.110223
10 0.063281 0.040289
1 0.261483 1.00000000
P 1
1 0.633351 1.000000
1 0.076223 1.00000000
P 1
1 0.405005 1.000000
D 1
1 0.633222 1.000000
D 1
1 0.211734 1.000000
ARGON
S 12
1 400.805381 0.00009200
2 194.251428 -0.00125400
3 94.144487 0.02887900
4 45.627384 -0.17710600
5 22.113437 -0.07716500
6 10.717338 0.21018700
7 5.194187 0.55436900
8 2.517377 0.35907000
9 1.220054 0.04076900
10 0.591302 0.00508700
11 0.286576 -0.00064400
12 0.138890 0.00053300
S 12
1 400.805381 0.00001900
2 194.251428 0.00011400
3 94.144487 -0.00869300
4 45.627384 0.06117500
5 22.113437 0.02679200
6 10.717338 -0.07778000
7 5.194187 -0.29074700
8 2.517377 -0.32003600
9 1.220054 0.12393300
10 0.591302 0.53916300
11 0.286576 0.45626000
12 0.138890 0.13189200
S 1
1 0.200844 1.00000000
S 1
1 0.100422 1.00000000
P 12
1 71.845693 0.01423900
2 38.318786 0.10317800
3 20.437263 0.18518400
4 10.900182 0.27635700
5 5.813595 0.31813000
6 3.100671 0.21149400
7 1.653738 0.06192600
8 0.882019 0.00582100
9 0.470423 0.00083800
10 0.250899 -0.00004700
11 0.133817 0.00007700
12 0.071371 -0.00001800
P 12
1 71.845693 0.00414500
2 38.318786 0.02880000
3 20.437263 0.05191600
4 10.900182 0.08435600
5 5.813595 0.10330300
6 3.100671 0.05976300
7 1.653738 -0.09852400
8 0.882019 -0.27287100
9 0.470423 -0.34211200
10 0.250899 -0.28931700
11 0.133817 -0.14332900
12 0.071371 -0.03249500
1 0.027633 1.00000000
P 1
1 0.205249 1.00000000
P 1
1 0.102624 1.00000000
1 0.005400 1.00000000
D 1
1 0.745011 1.00000000
1 1.493098 1.00000000
D 1
1 0.372505 1.00000000
1 0.050522 1.00000000
D 1
1 0.008800 1.00000000
SCANDIUM
S 13
@ -640,6 +316,20 @@ F 1
1 0.083742 1.00000000
F 1
1 0.280673 1.00000000
S 1
1 0.531583 1.00000000
S 1
1 2.006315 1.00000000
P 1
1 0.608728 1.00000000
P 1
1 2.759507 1.00000000
D 1
1 1.412796 1.00000000
D 1
1 4.010741 1.00000000
F 1
1 1.670187 1.00000000
TITANIUM
S 13
@ -766,6 +456,20 @@ F 1
1 0.146931 1.00000000
F 1
1 0.499717 1.00000000
S 1
1 0.591537 1.00000000
S 1
1 2.205011 1.00000000
P 1
1 0.675360 1.00000000
P 1
1 3.138882 1.00000000
D 1
1 1.759833 1.00000000
D 1
1 5.086016 1.00000000
F 1
1 2.117563 1.00000000
VANADIUM
S 13
@ -892,6 +596,20 @@ F 1
1 0.308388 1.00000000
F 1
1 1.138450 1.00000000
S 1
1 0.736615 1.00000000
S 1
1 2.619861 1.00000000
P 1
1 0.973954 1.00000000
P 1
1 4.004062 1.00000000
D 1
1 0.749306 1.00000000
D 1
1 1.799378 1.00000000
F 1
1 3.352552 1.00000000
CHROMIUM
S 13
@ -1018,6 +736,20 @@ F 1
1 0.311720 1.00000000
F 1
1 1.112997 1.00000000
S 1
1 0.734112 1.00000000
S 1
1 2.811823 1.00000000
P 1
1 0.851456 1.00000000
P 1
1 3.937167 1.00000000
D 1
1 0.845872 1.00000000
D 1
1 2.147155 1.00000000
F 1
1 3.530639 1.00000000
MANGANESE
S 13
@ -1144,6 +876,20 @@ F 1
1 0.373591 1.00000000
F 1
1 1.357898 1.00000000
S 1
1 0.832852 1.00000000
S 1
1 3.133156 1.00000000
P 1
1 1.020743 1.00000000
P 1
1 4.582593 1.00000000
D 1
1 0.985022 1.00000000
D 1
1 2.435684 1.00000000
F 1
1 4.198704 1.00000000
IRON
S 13
@ -1270,6 +1016,20 @@ F 1
1 0.463696 1.00000000
F 1
1 1.696126 1.00000000
S 1
1 0.909741 1.00000000
S 1
1 3.519995 1.00000000
P 1
1 1.151345 1.00000000
P 1
1 5.187368 1.00000000
D 1
1 1.172100 1.00000000
D 1
1 2.828034 1.00000000
F 1
1 5.078925 1.00000000
COBALT
S 13
@ -1396,6 +1156,20 @@ F 1
1 0.557444 1.00000000
F 1
1 2.012568 1.00000000
S 1
1 1.010269 1.00000000
S 1
1 3.893671 1.00000000
P 1
1 1.270490 1.00000000
P 1
1 5.677091 1.00000000
D 1
1 1.291245 1.00000000
D 1
1 3.118104 1.00000000
F 1
1 5.891548 1.00000000
NICKEL
S 13
@ -1522,6 +1296,20 @@ F 1
1 0.650562 1.00000000
F 1
1 2.317543 1.00000000
S 1
1 1.099912 1.00000000
S 1
1 4.266474 1.00000000
P 1
1 1.398024 1.00000000
P 1
1 6.294441 1.00000000
D 1
1 1.406397 1.00000000
D 1
1 3.410393 1.00000000
F 1
1 6.722827 1.00000000
COPPER
S 13
@ -1648,6 +1436,20 @@ F 1
1 0.771675 1.00000000
F 1
1 2.739578 1.00000000
S 1
1 1.218913 1.00000000
S 1
1 4.750059 1.00000000
P 1
1 1.551117 1.00000000
P 1
1 6.973554 1.00000000
D 1
1 1.873424 1.00000000
D 1
1 4.248371 1.00000000
F 1
1 6.750816 1.00000000
ZINC
S 13
@ -1774,4 +1576,19 @@ F 1
1 0.893402 1.00000000
F 1
1 3.171936 1.00000000
S 1
1 1.375940 1.00000000
S 1
1 5.098898 1.00000000
P 1
1 1.706665 1.00000000
P 1
1 7.892989 1.00000000
D 1
1 2.029918 1.00000000
D 1
1 4.655140 1.00000000
F 1
1 8.867564 1.00000000
$END

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data/basis/cc-pv5z_ecp_ccecp Normal file

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data/basis/cc-pvqz_ecp_ccecp Normal file

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data/basis/cc-pvtz_ecp_ccecp Normal file

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@ -0,0 +1,433 @@
H GEN 0 1
3
1.00000000000000 1 21.24359508259891
21.24359508259891 3 21.24359508259891
-10.85192405303825 2 21.77696655044365
1
0.00000000000000 2 1.000000000000000
He GEN 0 1
3
2.000000 1 32.000000
64.00000 3 32.000000
-27.70084 2 33.713355
1
0.000000 2 1.0000000
Li GEN 2 1
3
1.000 1 15.0000000000000
15.0000000000000 3 15.0479971422127
-1.24272969818004 2 1.80605426846072
1
6.75286789026804 2 1.33024777689591
Be GEN 2 1
4
2 1 17.94900205362972
35.89800410725944 3 24.13200289331664
-12.77499846818315 2 20.13800265282147
-2.96001382478467 2 4.333170937885760
1
12.66391859014478 2 2.487403700772570
B GEN 2 1
3
3.00000 1 31.49298
94.47895 3 22.56509
-9.74800 2 8.64669
1
20.74800 2 4.06246
C GEN 2 1
3
4.00000 1 14.43502
57.74008 3 8.39889
-25.81955 2 7.38188
1
52.13345 2 7.76079
N GEN 2 1
6
3.25000 1 12.91881
1.75000 1 9.22825
41.98612 3 12.96581
16.14945 3 8.05477
-26.09522 2 12.54876
-10.32626 2 7.53360
2
34.77692 2 9.41609
15.20330 2 8.16694
O GEN 2 1
3
6.000000 1 12.30997
73.85984 3 14.76962
-47.87600 2 13.71419
1
85.86406 2 13.65512
F GEN 2 1
3
7.0 1 12.08758490486192
84.61309433403344 3 12.83806306400466
-53.02751706539332 2 12.31234562699041
1
78.90177172847011 2 14.78076492090162
Ne GEN 2 1
3
8.000 1 14.79351199705315
118.34809597642520 3 16.58203947626090
-70.27885884380557 2 16.08073529218220
1
81.62205749824426 2 16.55441468334002
Na GEN 10 2
3
1.000000 1 4.311678
4.311678 3 1.925689
-2.083137 2 1.549498
2
6.234064 2 5.377666
9.075931 2 1.408414
2
3.232724 2 1.379949
2.494079 2 0.862453
Mg GEN 10 2
3
2.000000 1 6.048538
12.097075 3 2.796989
-17.108313 2 2.547408
2
6.428631 2 5.936017
14.195491 2 1.592891
2
3.315069 2 1.583969
4.403025 2 1.077297
Al GEN 10 2
3
3.000000 1 5.073893
15.221680 3 8.607001
-11.165685 2 3.027490
2
14.879513 2 7.863954
20.746863 2 2.061358
2
7.786227 2 3.125175
7.109015 2 1.414930
Si GEN 10 2
3
4.000000 1 5.168316
20.673264 3 8.861690
-14.818174 2 3.933474
2
14.832760 2 9.447023
26.349664 2 2.553812
2
7.621400 2 3.660001
10.331583 2 1.903653
P GEN 10 2
3
5.000000 1 5.872694
29.363469 3 9.891298
-17.011136 2 4.692469
2
15.259383 2 12.091334
31.707918 2 3.044535
2
7.747190 2 4.310884
13.932528 2 2.426903
S GEN 10 2
3
6.000000 1 6.151144
36.906864 3 11.561575
-19.819533 2 5.390961
2
15.925748 2 16.117687
38.515895 2 3.608629
2
8.062221 2 6.228956
18.737525 2 2.978074
Cl GEN 10 2
3
7.000000 1 7.944352
55.610463 3 12.801261
-22.860784 2 6.296744
2
15.839234 2 17.908432
44.469504 2 4.159880
2
8.321946 2 7.931763
24.044745 2 3.610412
Ar GEN 10 2
3
8.000000 1 8.317181
66.537451 3 13.124648
-24.100393 2 6.503132
2
18.910152 2 27.068139
53.040012 2 4.801263
2
8.015534 2 11.135735
28.220208 2 4.126631
K GEN 10 2
4
9.000 1 7.27386331637373
65.46476984736357 3 11.1729834540799
-10.84433558416271 2 7.70617523948938
-15.96316084113368 2 5.62491694962345
2
11.86687269408012 2 11.4425076498453
90.07677060151201 2 6.53712447768095
2
11.53420167311457 2 9.63121897030662
27.72023517356577 2 4.50881062128081
Ca GEN 10 2
4
10.000 1 7.041331745291820
70.41331745291820 3 14.01444871170631
-92.87298019372959 2 13.76936244330539
-5.753568238854550 2 4.717259669813990
2
149.3026232361631 2 11.24016734279034
23.75932943609596 2 5.353611600469730
2
99.20411436357747 2 13.06654848325639
13.45216129084917 2 4.027484971490170
Sc GEN 10 2
4
11.00000000 1 16.02394388
176.26338271 3 14.08647403
-83.68149599 2 11.93985121
0.43282764 2 3.69440111
2
153.96530175 2 11.49466541
14.93675657 2 5.01031394
2
97.21725690 2 11.45126730
10.81704018 2 4.76798446
Ti GEN 10 2
4
12.00000000 1 18.41366202
220.96394426 3 15.92292414
-94.29025824 2 13.65000623
0.09791142 2 5.09555210
2
173.94657235 2 12.70580613
18.83768333 2 6.11178551
2
111.45672882 2 12.64091929
11.17702682 2 5.35437415
V GEN 10 2
4
13.00000000 1 20.32168914
264.18195885 3 19.59698040
-115.29293208 2 17.33147348
-0.66288726 2 5.12320657
2
195.56713891 2 15.12502150
22.88642834 2 6.29898914
2
126.42119500 2 15.93855113
16.03597127 2 5.74006266
Cr GEN 10 2
4
14.00000000 1 18.28091074
255.93275041 3 17.09800655
-132.01826317 2 16.72267276
-0.77388761 2 5.02865105
2
219.48146209 2 16.90078760
28.07933176 2 7.33662150
2
139.98396871 2 17.31974516
19.54835786 2 6.92409757
Mn GEN 10 2
4
15.00000000 1 21.91937433
328.79061500 3 21.35527127
-162.05172805 2 21.27162653
-1.82694272 2 7.93913962
2
244.66870492 2 18.92044965
33.54162717 2 8.32764757
2
162.35033685 2 20.17347020
24.17956695 2 7.80047874
Fe GEN 10 2
4
16.00000000 1 23.22091713
371.53467417 3 23.54714679
-181.22603445 2 23.47256344
-2.37305236 2 9.85238815
2
277.50032547 2 22.21062697
46.20495585 2 9.51515800
2
194.99875056 2 24.57000871
31.67945132 2 8.86648776
Co GEN 10 2
4
17.00000000 1 25.00124115
425.02109971 3 22.83490096
-195.48211282 2 23.47468155
-2.81572866 2 10.33794825
2
271.77708486 2 23.41427030
54.26461121 2 10.76931694
2
201.53430745 2 25.47446316
38.99231927 2 10.68404901
Ni GEN 10 2
4
18.000 1 2.82630001015327e+01
508.7340018275886 3 2.69360254587070e+01
-2.20099999296390e+02 2 2.70860075292970e+01
-2.13493270999809e+00 2 1.22130001295874e+01
2
3.21240002430625e+02 2 2.64320193944270e+01
6.03470084610628e+01 2 1.17489696842121e+01
2
2.36539998999428e+02 2 2.94929998193907e+01
4.43969887908906e+01 2 1.15569831458722e+01
Cu GEN 10 2
4
19.00000000 1 31.53811263
599.22413997 3 31.06925531
-244.68915484 2 30.59035868
-1.29349525 2 14.05141063
2
370.71371824 2 29.35562242
66.27560813 2 12.77235919
2
271.66281028 2 33.51694543
49.76265057 2 12.52471484
Zn GEN 10 2
4
20.00000000 1 35.80797616
716.15952323 3 34.53646083
-204.68393323 2 28.62830178
0.76026614 2 7.96239682
2
431.70804302 2 35.02141356
95.87640437 2 14.63498691
2
313.57770563 2 42.22979234
74.01270048 2 14.57429304
Ga GEN 28 3
4
3.0 1 17.00473938158134
51.01421814474402 3 14.99961796477555
-39.00062591247301 2 11.99279249750992
35.44659356093000 2 14.99282276192415
2
21.78930966695012 2 1.85781132082231
-2.86685089713932 2 0.91950586478827
2
18.63985979160424 2 1.92030166263971
-1.63369679761927 2 1.00895888918239
2
2.03523714898590 2 0.62750876923831
-0.08532375682035 2 0.32619029984635
Ge GEN 28 3
4
4.0 1 1.478962662442
5.9158506497680 3 3.188905647765
-12.033712959815 2 1.927438978253
1.283543489065 2 1.545539235916
2
43.265429324814 2 2.894473589836
-1.909339873965 2 1.550339816290
2
35.263014141211 2 2.986528872039
0.963439928853 2 1.283381203893
2
2.339019442484 2 1.043001142249
0.541380654081 2 0.554562729807
As GEN 28 3
4
5.0 1 1.28593131534589
6.429656576729450 3 9.93487432688877
-15.01243900647766 2 1.89568153750512
2.89881363078702 2 1.72825641453405
2
75.65519437230579 2 3.47938697518409
-3.31145348709338 2 1.63747973017064
2
67.96186740640852 2 3.22936389274538
-3.09455795155570 2 1.66636575135787
2
24.30473448724631 2 2.06816256325470
0.93945624468575 2 1.54699940726544
Se GEN 28 3
4
6.0 1 2.97705189898323
17.862311393899380 3 7.01667360591764
-20.00913150638712 2 3.96066255032528
10.00573531473560 2 5.02826321004214
2
71.37928031464314 2 4.17536331935161
0.42619859321245 2 2.14491059745542
2
50.94828961394475 2 4.28772186507645
5.54288117697892 2 2.09538253707367
2
6.20469719059516 2 1.39403720595047
0.53395702862692 2 1.69659923150419
Br GEN 28 3
4
7.00000000000000 1 3.665770450000000
25.6603931500000 3 5.293022720000000
13.0402619252684 2 3.176376149835153
-21.908838668870 2 2.897543523376016
2
85.8843473075379 2 4.971806723636273
4.62125463404037 2 2.042687217782981
2
55.3617154916148 2 4.711839367430644
11.0314096124871 2 2.384292508891309
2
26.4104098578207 2 3.412863477885576
5.46873883641966 2 1.530284946887900
Kr GEN 28 3
4
8.0 1 10.79423805030976
86.353904402478080 3 13.32338941541937
-11.11453291523170 2 9.292050205053670
10.22951903851239 2 20.14895793077237
2
92.88955174083402 2 5.49072858263344
12.92947788650997 2 3.86301190150576
2
43.09952401633328 2 4.03857692489950
9.50975957670500 2 3.30678898758958
2
17.80494496367218 2 4.21348003421066
4.58911494794530 2 1.54989721316990

View File

@ -1,263 +0,0 @@
H GEN 0 1
3
1.00000000000000 1 21.24359508259891
21.24359508259891 3 21.24359508259891
-10.85192405303825 2 21.77696655044365
1
0.00000000000000 2 1.000000000000000
B GEN 2 1
3
3.00000 1 31.49298
94.47895 3 22.56509
-9.74800 2 8.64669
1
20.74800 2 4.06246
C GEN 2 1
3
4.00000 1 14.43502
57.74008 3 8.39889
-25.81955 2 7.38188
1
52.13345 2 7.76079
N GEN 2 1
6
3.25000 1 12.91881
1.75000 1 9.22825
41.98612 3 12.96581
16.14945 3 8.05477
-26.09522 2 12.54876
-10.32626 2 7.53360
2
34.77692 2 9.41609
15.20330 2 8.16694
O GEN 2 1
3
6.000000 1 12.30997
73.85984 3 14.76962
-47.87600 2 13.71419
1
85.86406 2 13.65512
F GEN 2 1
3
7.0 1 11.3954401213
79.7680808491 3 10.49201883
-49.4990068225 2 10.2868054098
1
51.3934743997 2 11.3903478843
Na GEN 10 2
3
1.000000 1 4.311678
4.311678 3 1.925689
-2.083137 2 1.549498
2
6.234064 2 5.377666
9.075931 2 1.408414
2
3.232724 2 1.379949
2.494079 2 0.862453
Mg GEN 10 2
3
2.000000 1 6.048538
12.097075 3 2.796989
-17.108313 2 2.547408
2
6.428631 2 5.936017
14.195491 2 1.592891
2
3.315069 2 1.583969
4.403025 2 1.077297
Al GEN 2 1
3
11.000000 1 11.062056
121.682619 3 12.369778
-82.624567 2 11.965444
2
25.157259 2 81.815564
113.067525 2 24.522883
Si GEN 10 2
3
4.000000 1 5.168316
20.673264 3 8.861690
-14.818174 2 3.933474
2
14.832760 2 9.447023
26.349664 2 2.553812
2
7.621400 2 3.660001
10.331583 2 1.903653
P GEN 2 1
3
13.000000 1 15.073300
195.952906 3 18.113176
-117.611086 2 17.371539
2
25.197230 2 101.982019
189.426261 2 37.485881
S GEN 2 1
3
14.000000 1 17.977612
251.686565 3 20.435964
-135.538891 2 19.796579
2
25.243283 2 111.936344
227.060768 2 43.941844
Cl GEN 2 1
3
15.000000 1 22.196266
332.943994 3 26.145117
-161.999982 2 25.015118
2
26.837357 2 124.640433
277.296696 2 52.205433
Ar GEN 2 1
3
16.000000 1 23.431337
374.901386 3 26.735872
-178.039517 2 26.003325
2
25.069215 2 135.620522
332.151842 2 60.471053
Sc GEN 10 2
4
11.00000000 1 16.02394388
176.26338271 3 14.08647403
-83.68149599 2 11.93985121
0.43282764 2 3.69440111
2
153.96530175 2 11.49466541
14.93675657 2 5.01031394
2
97.21725690 2 11.45126730
10.81704018 2 4.76798446
Ti GEN 10 2
4
12.00000000 1 18.41366202
220.96394426 3 15.92292414
-94.29025824 2 13.65000623
0.09791142 2 5.09555210
2
173.94657235 2 12.70580613
18.83768333 2 6.11178551
2
111.45672882 2 12.64091929
11.17702682 2 5.35437415
V GEN 10 2
4
13.00000000 1 20.32168914
264.18195885 3 19.59698040
-115.29293208 2 17.33147348
-0.66288726 2 5.12320657
2
195.56713891 2 15.12502150
22.88642834 2 6.29898914
2
126.42119500 2 15.93855113
16.03597127 2 5.74006266
Cr GEN 10 2
4
14.00000000 1 18.28091074
255.93275041 3 17.09800655
-132.01826317 2 16.72267276
-0.77388761 2 5.02865105
2
219.48146209 2 16.90078760
28.07933176 2 7.33662150
2
139.98396871 2 17.31974516
19.54835786 2 6.92409757
Mn GEN 10 2
4
15.00000000 1 21.91937433
328.79061500 3 21.35527127
-162.05172805 2 21.27162653
-1.82694272 2 7.93913962
2
244.66870492 2 18.92044965
33.54162717 2 8.32764757
2
162.35033685 2 20.17347020
24.17956695 2 7.80047874
Fe GEN 10 2
4
16.00000000 1 23.22091713
371.53467417 3 23.54714679
-181.22603445 2 23.47256344
-2.37305236 2 9.85238815
2
277.50032547 2 22.21062697
46.20495585 2 9.51515800
2
194.99875056 2 24.57000871
31.67945132 2 8.86648776
Co GEN 10 2
4
17.00000000 1 25.00124115
425.02109971 3 22.83490096
-195.48211282 2 23.47468155
-2.81572866 2 10.33794825
2
271.77708486 2 23.41427030
54.26461121 2 10.76931694
2
201.53430745 2 25.47446316
38.99231927 2 10.68404901
Ni GEN 10 2
4
18.000 1 2.82630001015327e+01
508.7340018275886 3 2.69360254587070e+01
-2.20099999296390e+02 2 2.70860075292970e+01
-2.13493270999809e+00 2 1.22130001295874e+01
2
3.21240002430625e+02 2 2.64320193944270e+01
6.03470084610628e+01 2 1.17489696842121e+01
2
2.36539998999428e+02 2 2.94929998193907e+01
4.43969887908906e+01 2 1.15569831458722e+01
Cu GEN 10 2
4
19.00000000 1 31.53811263
599.22413997 3 31.06925531
-244.68915484 2 30.59035868
-1.29349525 2 14.05141063
2
370.71371824 2 29.35562242
66.27560813 2 12.77235919
2
271.66281028 2 33.51694543
49.76265057 2 12.52471484
Zn GEN 10 2
4
20.00000000 1 35.80797616
716.15952323 3 34.53646083
-204.68393323 2 28.62830178
0.76026614 2 7.96239682
2
431.70804302 2 35.02141356
95.87640437 2 14.63498691
2
313.57770563 2 42.22979234
74.01270048 2 14.57429304

View File

@ -13,6 +13,8 @@ module Ao_basis : sig
ao_coef : AO_coef.t array;
ao_expo : AO_expo.t array;
ao_cartesian : bool;
ao_normalized : bool;
primitives_normalized : bool;
} [@@deriving sexp]
;;
val read : unit -> t option
@ -34,6 +36,8 @@ end = struct
ao_coef : AO_coef.t array;
ao_expo : AO_expo.t array;
ao_cartesian : bool;
ao_normalized : bool;
primitives_normalized : bool;
} [@@deriving sexp]
;;
@ -107,6 +111,24 @@ end = struct
Ezfio.get_ao_basis_ao_cartesian ()
;;
let read_ao_normalized () =
if not (Ezfio.has_ao_basis_ao_normalized()) then
get_default "ao_normalized"
|> bool_of_string
|> Ezfio.set_ao_basis_ao_normalized
;
Ezfio.get_ao_basis_ao_normalized ()
;;
let read_primitives_normalized () =
if not (Ezfio.has_ao_basis_primitives_normalized()) then
get_default "primitives_normalized"
|> bool_of_string
|> Ezfio.set_ao_basis_primitives_normalized
;
Ezfio.get_ao_basis_primitives_normalized ()
;;
let to_long_basis b =
let ao_num = AO_number.to_int b.ao_num in
let gto_array = Array.init (AO_number.to_int b.ao_num)
@ -169,6 +191,8 @@ end = struct
ao_coef ;
ao_expo ;
ao_cartesian ;
ao_normalized ;
primitives_normalized ;
} = b
in
write_md5 b ;
@ -201,6 +225,8 @@ end = struct
~rank:2 ~dim:[| ao_num ; 3 |] ~data:ao_power) ;
Ezfio.set_ao_basis_ao_cartesian(ao_cartesian);
Ezfio.set_ao_basis_ao_normalized(ao_normalized);
Ezfio.set_ao_basis_primitives_normalized(primitives_normalized);
let ao_coef =
Array.to_list ao_coef
@ -233,6 +259,8 @@ end = struct
ao_coef = read_ao_coef () ;
ao_expo = read_ao_expo () ;
ao_cartesian = read_ao_cartesian () ;
ao_normalized = read_ao_normalized () ;
primitives_normalized = read_primitives_normalized () ;
}
in
to_md5 result
@ -340,7 +368,10 @@ end = struct
in
{ ao_basis = name ;
ao_num ; ao_prim_num ; ao_prim_num_max ; ao_nucl ;
ao_power ; ao_coef ; ao_expo ; ao_cartesian }
ao_power ; ao_coef ; ao_expo ; ao_cartesian ;
ao_normalized = bool_of_string @@ get_default "ao_normalized";
primitives_normalized = bool_of_string @@ get_default "primitives_normalized";
}
;;
let reorder b =
@ -394,6 +425,14 @@ Cartesian coordinates (6d,10f,...) ::
ao_cartesian = %s
Use normalized primitive functions ::
primitives_normalized = %s
Use normalized basis functions ::
ao_normalized = %s
Basis set (read-only) ::
%s
@ -407,6 +446,8 @@ Basis set (read-only) ::
" (AO_basis_name.to_string b.ao_basis)
(string_of_bool b.ao_cartesian)
(string_of_bool b.primitives_normalized)
(string_of_bool b.ao_normalized)
(Basis.to_string short_basis
|> String_ext.split ~on:'\n'
|> List.map (fun x-> " "^x)
@ -443,6 +484,8 @@ ao_power = %s
ao_coef = %s
ao_expo = %s
ao_cartesian = %s
ao_normalized = %s
primitives_normalized = %s
md5 = %s
"
(AO_basis_name.to_string b.ao_basis)
@ -459,6 +502,8 @@ md5 = %s
(b.ao_expo |> Array.to_list |> List.map AO_expo.to_string
|> String.concat ", ")
(b.ao_cartesian |> string_of_bool)
(b.ao_normalized |> string_of_bool)
(b.primitives_normalized |> string_of_bool)
(to_md5 b |> MD5.to_string )
;;

View File

@ -55,3 +55,15 @@ doc: If |true|, use |AOs| in Cartesian coordinates (6d,10f,...)
interface: ezfio, provider
default: false
[ao_normalized]
type: logical
doc: Use normalized basis functions
interface: ezfio, provider
default: true
[primitives_normalized]
type: logical
doc: Use normalized primitive functions
interface: ezfio, provider
default: true

View File

@ -20,17 +20,27 @@ END_PROVIDER
C_A(2) = 0.d0
C_A(3) = 0.d0
ao_coef_normalized = 0.d0
do i=1,ao_num
powA(1) = ao_power(i,1)
powA(2) = ao_power(i,2)
powA(3) = ao_power(i,3)
! Normalization of the primitives
if (primitives_normalized) then
do j=1,ao_prim_num(i)
call overlap_gaussian_xyz(C_A,C_A,ao_expo(i,j),ao_expo(i,j),powA,powA,overlap_x,overlap_y,overlap_z,norm,nz)
ao_coef_normalized(i,j) = ao_coef(i,j)/sqrt(norm)
enddo
else
do j=1,ao_prim_num(i)
ao_coef_normalized(i,j) = ao_coef(i,j)
enddo
endif
! Normalization of the contracted basis functions
if (ao_normalized) then
norm = 0.d0
do j=1,ao_prim_num(i)
do k=1,ao_prim_num(i)
@ -39,6 +49,9 @@ END_PROVIDER
enddo
enddo
ao_coef_normalization_factor(i) = 1.d0/sqrt(norm)
else
ao_coef_normalization_factor(i) = 1.d0
endif
enddo
END_PROVIDER

View File

@ -3,6 +3,8 @@ BEGIN_PROVIDER [ double precision, ao_integrals_n_e, (ao_num,ao_num)]
! Nucleus-electron interaction, in the |AO| basis set.
!
! :math:`\langle \chi_i | -\sum_A \frac{1}{|r-R_A|} | \chi_j \rangle`
!
! These integrals also contain the pseudopotential integrals.
END_DOC
implicit none
double precision :: alpha, beta, gama, delta
@ -75,12 +77,12 @@ BEGIN_PROVIDER [ double precision, ao_integrals_n_e, (ao_num,ao_num)]
!$OMP END DO
!$OMP END PARALLEL
endif
IF (DO_PSEUDO) THEN
ao_integrals_n_e += ao_pseudo_integrals
ENDIF
endif
if (write_ao_integrals_n_e) then
call ezfio_set_ao_one_e_ints_ao_integrals_n_e(ao_integrals_n_e)

View File

@ -0,0 +1,13 @@
logical function ao_one_e_integral_zero(i,k)
implicit none
integer, intent(in) :: i,k
ao_one_e_integral_zero = .False.
if (.not.((io_ao_integrals_overlap/='None').or.is_periodic)) then
if (ao_overlap_abs(i,k) < ao_integrals_threshold) then
ao_one_e_integral_zero = .True.
return
endif
endif
end

View File

@ -85,9 +85,10 @@ double precision function get_ao_two_e_integral_erf(i,j,k,l,map) result(result)
type(map_type), intent(inout) :: map
integer :: ii
real(integral_kind) :: tmp
logical, external :: ao_two_e_integral_zero
PROVIDE ao_two_e_integrals_erf_in_map ao_integrals_erf_cache ao_integrals_erf_cache_min
!DIR$ FORCEINLINE
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < ao_integrals_threshold ) then
if (ao_two_e_integral_zero(i,j,k,l)) then
tmp = 0.d0
else if (ao_two_e_integral_erf_schwartz(i,k)*ao_two_e_integral_erf_schwartz(j,l) < ao_integrals_threshold) then
tmp = 0.d0
@ -127,10 +128,11 @@ subroutine get_ao_two_e_integrals_erf(j,k,l,sze,out_val)
integer :: i
integer(key_kind) :: hash
double precision :: thresh
logical, external :: ao_one_e_integral_zero
PROVIDE ao_two_e_integrals_erf_in_map ao_integrals_erf_map
thresh = ao_integrals_threshold
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -156,11 +158,12 @@ subroutine get_ao_two_e_integrals_erf_non_zero(j,k,l,sze,out_val,out_val_index,n
integer :: i
integer(key_kind) :: hash
double precision :: thresh,tmp
logical, external :: ao_one_e_integral_zero
PROVIDE ao_two_e_integrals_erf_in_map
thresh = ao_integrals_threshold
non_zero_int = 0
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif

View File

@ -291,8 +291,10 @@ subroutine compute_ao_two_e_integrals_erf(j,k,l,sze,buffer_value)
double precision :: ao_two_e_integral_erf
integer :: i
logical, external :: ao_one_e_integral_zero
logical, external :: ao_two_e_integral_zero
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
buffer_value = 0._integral_kind
return
endif
@ -302,7 +304,7 @@ subroutine compute_ao_two_e_integrals_erf(j,k,l,sze,buffer_value)
endif
do i = 1, ao_num
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < thresh) then
if (ao_two_e_integral_zero(i,j,k,l)) then
buffer_value(i) = 0._integral_kind
cycle
endif
@ -618,6 +620,7 @@ subroutine compute_ao_integrals_erf_jl(j,l,n_integrals,buffer_i,buffer_value)
double precision :: integral, wall_0
double precision :: thr
integer :: kk, m, j1, i1
logical, external :: ao_two_e_integral_zero
thr = ao_integrals_threshold
@ -634,7 +637,7 @@ subroutine compute_ao_integrals_erf_jl(j,l,n_integrals,buffer_i,buffer_value)
if (i1 > j1) then
exit
endif
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < thr) then
if (ao_two_e_integral_zero(i,j,k,l)) then
cycle
endif
if (ao_two_e_integral_erf_schwartz(i,k)*ao_two_e_integral_erf_schwartz(j,l) < thr ) then

View File

@ -333,11 +333,10 @@ double precision function get_ao_two_e_integral(i,j,k,l,map) result(result)
type(map_type), intent(inout) :: map
integer :: ii
real(integral_kind) :: tmp
logical, external :: ao_two_e_integral_zero
PROVIDE ao_two_e_integrals_in_map ao_integrals_cache ao_integrals_cache_min
!DIR$ FORCEINLINE
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < ao_integrals_threshold ) then
tmp = 0.d0
else if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < ao_integrals_threshold) then
if (ao_two_e_integral_zero(i,j,k,l)) then
tmp = 0.d0
else
ii = l-ao_integrals_cache_min
@ -427,9 +426,8 @@ complex*16 function get_ao_two_e_integral_periodic(i,j,k,l,map) result(result)
complex(integral_kind) :: tmp
PROVIDE ao_two_e_integrals_in_map ao_integrals_cache_periodic ao_integrals_cache_min
!DIR$ FORCEINLINE
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < ao_integrals_threshold ) then
tmp = (0.d0,0.d0)
else if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < ao_integrals_threshold) then
logical, external :: ao_two_e_integral_zero
if (ao_two_e_integral_zero(i,j,k,l)) then
tmp = (0.d0,0.d0)
else
ii = l-ao_integrals_cache_min
@ -481,11 +479,10 @@ subroutine get_ao_two_e_integrals(j,k,l,sze,out_val)
integer :: i
integer(key_kind) :: hash
double precision :: thresh
logical, external :: ao_one_e_integral_zero
PROVIDE ao_two_e_integrals_in_map ao_integrals_map
thresh = ao_integrals_threshold
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -511,11 +508,10 @@ subroutine get_ao_two_e_integrals_periodic(j,k,l,sze,out_val)
integer :: i
integer(key_kind) :: hash
double precision :: thresh
logical, external :: ao_one_e_integral_zero
PROVIDE ao_two_e_integrals_in_map ao_integrals_map
thresh = ao_integrals_threshold
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -540,12 +536,13 @@ subroutine get_ao_two_e_integrals_non_zero(j,k,l,sze,out_val,out_val_index,non_z
integer :: i
integer(key_kind) :: hash
double precision :: thresh,tmp
double precision :: tmp
logical, external :: ao_one_e_integral_zero
logical, external :: ao_two_e_integral_zero
PROVIDE ao_two_e_integrals_in_map
thresh = ao_integrals_threshold
non_zero_int = 0
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -555,12 +552,12 @@ subroutine get_ao_two_e_integrals_non_zero(j,k,l,sze,out_val,out_val_index,non_z
integer, external :: ao_l4
double precision, external :: ao_two_e_integral
!DIR$ FORCEINLINE
if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < thresh) then
if (ao_two_e_integral_zero(i,j,k,l)) then
cycle
endif
call two_e_integrals_index(i,j,k,l,hash)
call map_get(ao_integrals_map, hash,tmp)
if (dabs(tmp) < thresh ) cycle
if (dabs(tmp) < ao_integrals_threshold) cycle
non_zero_int = non_zero_int+1
out_val_index(non_zero_int) = i
out_val(non_zero_int) = tmp
@ -584,10 +581,12 @@ subroutine get_ao_two_e_integrals_non_zero_jl(j,l,thresh,sze_max,sze,out_val,out
integer :: i,k
integer(key_kind) :: hash
double precision :: tmp
logical, external :: ao_one_e_integral_zero
logical, external :: ao_two_e_integral_zero
PROVIDE ao_two_e_integrals_in_map
non_zero_int = 0
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -598,7 +597,7 @@ subroutine get_ao_two_e_integrals_non_zero_jl(j,l,thresh,sze_max,sze,out_val,out
integer, external :: ao_l4
double precision, external :: ao_two_e_integral
!DIR$ FORCEINLINE
if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < thresh) then
if (ao_two_e_integral_zero(i,j,k,l)) then
cycle
endif
call two_e_integrals_index(i,j,k,l,hash)
@ -630,10 +629,12 @@ subroutine get_ao_two_e_integrals_non_zero_jl_from_list(j,l,thresh,list,n_list,s
integer :: i,k
integer(key_kind) :: hash
double precision :: tmp
logical, external :: ao_one_e_integral_zero
logical, external :: ao_two_e_integral_zero
PROVIDE ao_two_e_integrals_in_map
non_zero_int = 0
if (ao_overlap_abs(j,l) < thresh) then
if (ao_one_e_integral_zero(j,l)) then
out_val = 0.d0
return
endif
@ -646,7 +647,7 @@ subroutine get_ao_two_e_integrals_non_zero_jl_from_list(j,l,thresh,list,n_list,s
integer, external :: ao_l4
double precision, external :: ao_two_e_integral
!DIR$ FORCEINLINE
if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < thresh) then
if (ao_two_e_integral_zero(i,j,k,l)) then
cycle
endif
call two_e_integrals_index(i,j,k,l,hash)

View File

@ -0,0 +1,15 @@
logical function ao_two_e_integral_zero(i,j,k,l)
implicit none
integer, intent(in) :: i,j,k,l
ao_two_e_integral_zero = .False.
if (.not.(read_ao_two_e_integrals.or.is_periodic)) then
if (ao_overlap_abs(j,l)*ao_overlap_abs(i,k) < ao_integrals_threshold) then
ao_two_e_integral_zero = .True.
return
endif
if (ao_two_e_integral_schwartz(j,l)*ao_two_e_integral_schwartz(i,k) < ao_integrals_threshold) then
ao_two_e_integral_zero = .True.
endif
endif
end

View File

@ -18,8 +18,7 @@ double precision function ao_two_e_integral(i,j,k,l)
if (ao_prim_num(i) * ao_prim_num(j) * ao_prim_num(k) * ao_prim_num(l) > 1024 ) then
ao_two_e_integral = ao_two_e_integral_schwartz_accel(i,j,k,l)
return
endif
else
dim1 = n_pt_max_integrals
@ -101,6 +100,7 @@ double precision function ao_two_e_integral(i,j,k,l)
endif
endif
end
double precision function ao_two_e_integral_schwartz_accel(i,j,k,l)
@ -300,22 +300,17 @@ subroutine compute_ao_two_e_integrals(j,k,l,sze,buffer_value)
double precision :: ao_two_e_integral
integer :: i
logical, external :: ao_one_e_integral_zero
logical, external :: ao_two_e_integral_zero
if (ao_overlap_abs(j,l) < thresh) then
buffer_value = 0._integral_kind
return
endif
if (ao_two_e_integral_schwartz(j,l) < thresh ) then
if (ao_one_e_integral_zero(j,l)) then
buffer_value = 0._integral_kind
return
endif
do i = 1, ao_num
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < thresh) then
buffer_value(i) = 0._integral_kind
cycle
endif
if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < thresh ) then
if (ao_two_e_integral_zero(i,j,k,l)) then
buffer_value(i) = 0._integral_kind
cycle
endif
@ -348,8 +343,6 @@ BEGIN_PROVIDER [ logical, ao_two_e_integrals_in_map ]
integer :: kk, m, j1, i1, lmax
character*(64) :: fmt
integral = ao_two_e_integral(1,1,1,1)
double precision :: map_mb
PROVIDE read_ao_two_e_integrals io_ao_two_e_integrals
if (read_ao_two_e_integrals) then
@ -357,14 +350,18 @@ BEGIN_PROVIDER [ logical, ao_two_e_integrals_in_map ]
call map_load_from_disk(trim(ezfio_filename)//'/work/ao_ints',ao_integrals_map)
print*, 'AO integrals provided'
ao_two_e_integrals_in_map = .True.
return
endif
else
print*, 'Providing the AO integrals'
call wall_time(wall_0)
call wall_time(wall_1)
call cpu_time(cpu_1)
if (.True.) then
! Avoid openMP
integral = ao_two_e_integral(1,1,1,1)
endif
integer(ZMQ_PTR) :: zmq_to_qp_run_socket, zmq_socket_pull
call new_parallel_job(zmq_to_qp_run_socket,zmq_socket_pull,'ao_integrals')
@ -419,6 +416,8 @@ BEGIN_PROVIDER [ logical, ao_two_e_integrals_in_map ]
call ezfio_set_ao_two_e_ints_io_ao_two_e_integrals('Read')
endif
endif
END_PROVIDER
BEGIN_PROVIDER [ double precision, ao_two_e_integral_schwartz,(ao_num,ao_num) ]
@ -1173,6 +1172,7 @@ subroutine compute_ao_integrals_jl(j,l,n_integrals,buffer_i,buffer_value)
double precision :: integral, wall_0
double precision :: thr
integer :: kk, m, j1, i1
logical, external :: ao_two_e_integral_zero
thr = ao_integrals_threshold
@ -1189,10 +1189,7 @@ subroutine compute_ao_integrals_jl(j,l,n_integrals,buffer_i,buffer_value)
if (i1 > j1) then
exit
endif
if (ao_overlap_abs(i,k)*ao_overlap_abs(j,l) < thr) then
cycle
endif
if (ao_two_e_integral_schwartz(i,k)*ao_two_e_integral_schwartz(j,l) < thr ) then
if (ao_two_e_integral_zero(i,j,k,l)) then
cycle
endif
!DIR$ FORCEINLINE

View File

@ -22,14 +22,14 @@ END_PROVIDER
subroutine update_pt2_and_variance_weights(pt2, variance, norm, N_st)
implicit none
BEGIN_DOC
! Updates the rPT2- and Variance- matching weights.
! Updates the PT2- and Variance- matching weights.
END_DOC
integer, intent(in) :: N_st
double precision, intent(in) :: pt2(N_st)
double precision, intent(in) :: variance(N_st)
double precision, intent(in) :: norm(N_st)
double precision :: avg, rpt2(N_st), element, dt, x
double precision :: avg, pt2_rpt2(N_st), element, dt, x
integer :: k
integer, save :: i_iter=0
integer, parameter :: i_itermax = 1
@ -46,16 +46,17 @@ subroutine update_pt2_and_variance_weights(pt2, variance, norm, N_st)
i_iter = 1
endif
dt = 0.5d0
dt = 1.0d0
do k=1,N_st
rpt2(k) = pt2(k)/(1.d0 + norm(k))
! PT2 + rPT2
pt2_rpt2(k) = pt2(k)* (1.d0 + 1.d0/(1.d0 + norm(k)))
enddo
avg = sum(rpt2(1:N_st)) / dble(N_st) - 1.d-32 ! Avoid future division by zero
avg = sum(pt2_rpt2(1:N_st)) / dble(N_st) - 1.d-32 ! Avoid future division by zero
do k=1,N_st
element = exp(dt*(rpt2(k)/avg -1.d0))
element = min(1.5d0 , element)
element = exp(dt*(pt2_rpt2(k)/avg -1.d0))
element = min(2.0d0 , element)
element = max(0.5d0 , element)
memo_pt2(k,i_iter) = element
pt2_match_weight(k) *= product(memo_pt2(k,:))
@ -64,14 +65,14 @@ subroutine update_pt2_and_variance_weights(pt2, variance, norm, N_st)
avg = sum(variance(1:N_st)) / dble(N_st) + 1.d-32 ! Avoid future division by zero
do k=1,N_st
element = exp(dt*(variance(k)/avg -1.d0))
element = min(1.5d0 , element)
element = min(2.0d0 , element)
element = max(0.5d0 , element)
memo_variance(k,i_iter) = element
variance_match_weight(k) *= product(memo_variance(k,:))
enddo
threshold_davidson_pt2 = min(1.d-6, &
max(threshold_davidson, 1.e-1 * PT2_relative_error * minval(abs(rpt2(1:N_states)))) )
max(threshold_davidson, 1.e-1 * PT2_relative_error * minval(abs(pt2(1:N_states)))) )
SOFT_TOUCH pt2_match_weight variance_match_weight threshold_davidson_pt2
end

View File

@ -25,7 +25,7 @@
!$OMP local_threshold)&
!$OMP SHARED(ao_num,SCF_density_matrix_ao_alpha,SCF_density_matrix_ao_beta,&
!$OMP ao_integrals_map,ao_integrals_threshold, ao_two_e_integral_schwartz, &
!$OMP ao_overlap_abs, ao_two_e_integral_alpha, ao_two_e_integral_beta)
!$OMP ao_two_e_integral_alpha, ao_two_e_integral_beta)
allocate(keys(1), values(1))
allocate(ao_two_e_integral_alpha_tmp(ao_num,ao_num), &
@ -48,8 +48,8 @@
l = ll(1)
j = jj(1)
if (ao_overlap_abs(k,l)*ao_overlap_abs(i,j) &
< ao_integrals_threshold) then
logical, external :: ao_two_e_integral_zero
if (ao_two_e_integral_zero(i,k,j,l)) then
cycle
endif
local_threshold = ao_two_e_integral_schwartz(k,l)*ao_two_e_integral_schwartz(i,j)

View File

@ -28,7 +28,7 @@
!$OMP local_threshold)&
!$OMP SHARED(ao_num,SCF_density_matrix_ao_alpha,SCF_density_matrix_ao_beta,&
!$OMP ao_integrals_map,ao_integrals_threshold, ao_two_e_integral_schwartz, &
!$OMP ao_overlap_abs, ao_two_e_integral_alpha, ao_two_e_integral_beta)
!$OMP ao_two_e_integral_alpha, ao_two_e_integral_beta)
allocate(keys(1), values(1))
allocate(ao_two_e_integral_alpha_tmp(ao_num,ao_num), &
@ -51,8 +51,8 @@
l = ll(1)
j = jj(1)
if (ao_overlap_abs(k,l)*ao_overlap_abs(i,j) &
< ao_integrals_threshold) then
logical, external :: ao_two_e_integral_zero
if (ao_two_e_integral_zero(i,k,j,l)) then
cycle
endif
local_threshold = ao_two_e_integral_schwartz(k,l)*ao_two_e_integral_schwartz(i,j)

View File

@ -26,7 +26,7 @@
!$OMP local_threshold)&
!$OMP SHARED(ao_num,SCF_density_matrix_ao_alpha,SCF_density_matrix_ao_beta,&
!$OMP ao_integrals_map,ao_integrals_threshold, ao_two_e_integral_schwartz, &
!$OMP ao_overlap_abs, ao_two_e_integral_alpha, ao_two_e_integral_beta)
!$OMP ao_two_e_integral_alpha, ao_two_e_integral_beta)
allocate(keys(1), values(1))
allocate(ao_two_e_integral_alpha_tmp(ao_num,ao_num), &
@ -49,8 +49,8 @@
l = ll(1)
j = jj(1)
if (ao_overlap_abs(k,l)*ao_overlap_abs(i,j) &
< ao_integrals_threshold) then
logical, external :: ao_two_e_integral_zero
if (ao_two_e_integral_zero(i,k,j,l)) then
cycle
endif
local_threshold = ao_two_e_integral_schwartz(k,l)*ao_two_e_integral_schwartz(i,j)

View File

@ -189,7 +189,6 @@ subroutine add_integrals_to_map(mask_ijkl)
two_e_tmp_2 = 0.d0
do j1 = 1,ao_num
call get_ao_two_e_integrals(j1,k1,l1,ao_num,two_e_tmp_0(1,j1))
! call compute_ao_two_e_integrals(j1,k1,l1,ao_num,two_e_tmp_0(1,j1))
enddo
do j1 = 1,ao_num
kmax = 0
@ -747,7 +746,6 @@ subroutine add_integrals_to_map_no_exit_34(mask_ijkl)
two_e_tmp_2 = 0.d0
do j1 = 1,ao_num
call get_ao_two_e_integrals(j1,k1,l1,ao_num,two_e_tmp_0(1,j1))
! call compute_ao_two_e_integrals(j1,k1,l1,ao_num,two_e_tmp_0(1,j1))
enddo
do j1 = 1,ao_num
kmax = 0