|
|
各位老师好,我使用castep进行结构优化对Ag(111)面进行优化时,(6层结构,最下两层固定,提交任务时选择no,即选择非对称优化)结构如图:
请问为什么我的只优化了一部就结束了呢?能量值上面显示只有一步,
而且各层之间也没有发生变化,下面是输出的castep结果。提示是说优化成功了。麻烦老师帮我看一下,我出错在哪里?应该如何修改,谢谢谢谢 Job started on host node01
at Thu Sep 10 18:26:00 2015
+-------------------------------------------------+
| |
| CCC AA SSS TTTTT EEEEE PPPP |
| C A A S T E P P |
| C AAAA SS T EEE PPPP |
| C A A S T E P |
| CCC A A SSS T EEEEE P |
| |
+-------------------------------------------------+
| |
| Welcome to Materials Studio CASTEP version 8.0 |
| Ab Initio Total Energy Program |
| |
| Authors: |
| M. Segall, M. Probert, C. Pickard, P. Hasnip, |
| S. Clark, K. Refson, J. R. Yates, M. Payne |
| |
| Contributors: |
| P. Lindan, P. Haynes, J. White, V. Milman, |
| N. Govind, M. Gibson, P. Tulip, V. Cocula, |
| B. Montanari, D. Quigley, M. Glover, |
| L. Bernasconi, A. Perlov, M. Plummer, |
| E. McNellis, J. Meyer, J. Gale, D. Jochym |
| J. Aarons, B. Walker, R. Gillen, D. Jones |
| T. Green |
| |
| Copyright (c) 2000 - 2014 |
| |
| Please cite |
| |
| "First principles methods using CASTEP" |
| |
| Zeitschrift fuer Kristallographie |
| 220(5-6) pp. 567-570 (2005) |
| |
| S. J. Clark, M. D. Segall, C. J. Pickard, |
| P. J. Hasnip, M. J. Probert, K. Refson, |
| M. C. Payne |
| |
| in all publications arising from |
| your use of CASTEP |
| |
+-------------------------------------------------+
This version was compiled for x86_64-rhel5-intel14.0 on Dec 04 2014
Code version: 6546
Intel(R) Math Kernel Library Version 11.1.2
Fundamental constants values: CODATA 2010
License checkout of MS_castep successful
Pseudo atomic calculation performed for Ag 4d10 5s1
Converged in 32 iterations to a total energy of -1024.8999 eV
Calculation parallelised over 12 processes.
Data is distributed by k-point(12-way)
************************************ Title ************************************
CASTEP calculation from Materials Studio
***************************** General Parameters ******************************
output verbosity : normal (1)
write checkpoint data to : AgGGA__1_1_1___2_.check
type of calculation : geometry optimization
stress calculation : off
density difference calculation : off
electron localisation func (ELF) calculation : off
Hirshfeld analysis : off
unlimited duration calculation
timing information : on
memory usage estimate : on
write final potential to formatted file : off
write final density to formatted file : off
write BibTeX reference list : on
checkpoint writing : both castep_bin and check files
output length unit : A
output mass unit : amu
output time unit : ps
output charge unit : e
output spin unit : hbar/2
output energy unit : eV
output force unit : eV/A
output velocity unit : A/ps
output pressure unit : GPa
output inv_length unit : 1/A
output frequency unit : cm-1
output force constant unit : eV/A**2
output volume unit : A**3
output IR intensity unit : (D/A)**2/amu
output dipole unit : D
output efield unit : eV/A/e
output entropy unit : J/mol/K
wavefunctions paging : none
random number generator seed : randomised (182600939)
data distribution : optimal for this architecture
optimization strategy : balance speed and memory
*********************** Exchange-Correlation Parameters ***********************
using functional : Perdew Wang (1991)
Divergence correction : off
relativistic treatment : Koelling-Harmon
DFT+D: Semi-empirical dispersion correction : off
************************* Pseudopotential Parameters **************************
pseudopotential representation : reciprocal space
<beta|phi> representation : reciprocal space
**************************** Basis Set Parameters *****************************
plane wave basis set cut-off : 380.0000 eV
size of standard grid : 1.5000
size of fine gmax : 14.9803 1/A
largest prime factor in FFT : 5
finite basis set correction : none
**************************** Electronic Parameters ****************************
number of electrons : 594.0
net charge of system : 0.000
net spin of system : 0.000
number of up spins : 297.0
number of down spins : 297.0
treating system as non-spin-polarized
number of bands : 357
********************* Electronic Minimization Parameters **********************
Method: Treating system as metallic with density mixing treatment of electrons,
and number of SD steps : 1
and number of CG steps : 4
total energy / atom convergence tol. : 0.1000E-05 eV
eigen-energy convergence tolerance : 0.1513E-06 eV
max force / atom convergence tol. : ignored
convergence tolerance window : 3 cycles
max. number of SCF cycles : 100
number of fixed-spin iterations : 10
smearing scheme : Gaussian
smearing width : 0.1000 eV
Fermi energy convergence tolerance : 0.2721E-13 eV
periodic dipole correction : NONE
************************** Density Mixing Parameters **************************
density-mixing scheme : Pulay
max. length of mixing history : 20
charge density mixing amplitude : 0.5000
cut-off energy for mixing : 380.0 eV
charge density mixing g-vector : 1.500 1/A
********************** Geometry Optimization Parameters ***********************
optimization method : BFGS
variable cell method : fixed basis quality
max. number of steps : 200
estimated bulk modulus : 500.0 GPa
estimated <frequency> : 1668. cm-1
geom line minimiser : on
with line minimiser tolerance : 0.4000
total energy convergence tolerance : 0.1000E-04 eV/atom
max ionic |force| tolerance : 0.3000E-01 eV/A
max ionic |displacement| tolerance : 0.1000E-02 A
max |stress component| tolerance : 0.5000E-01 GPa
convergence tolerance window : 2 steps
backup results every : 5 steps
*******************************************************************************
-------------------------------
Unit Cell
-------------------------------
Real Lattice(A) Reciprocal Lattice(1/A)
7.6127983 -4.3952512 0.0000000 0.8253450 -0.0000000 -0.0000000
0.0000000 8.7905023 -0.0000000 0.4126725 0.7147698 -0.0000000
0.0000000 0.0000000 26.1153584 -0.0000000 0.0000000 0.2405935
Lattice parameters(A) Cell Angles
a = 8.790502 alpha = 90.000000
b = 8.790502 beta = 90.000000
c = 26.115358 gamma = 120.000000
Current cell volume = 1747.648181 A**3
-------------------------------
Cell Contents
-------------------------------
Total number of ions in cell = 54
Total number of species in cell = 1
Max number of any one species = 54
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
x Element Atom Fractional coordinates of atoms x
x Number u v w x
x----------------------------------------------------------x
x Ag 1 0.222222 0.111111 0.000000 x
x Ag 2 0.111111 0.222222 0.091612 x
x Ag 3 -0.000000 -0.000000 0.183223 x
x Ag 4 0.222222 0.111111 0.274835 x
x Ag 5 0.111111 0.222222 0.366447 x
x Ag 6 0.000000 0.000000 0.458058 x
x Ag 7 0.555556 0.111111 0.000000 x
x Ag 8 0.444444 0.222222 0.091612 x
x Ag 9 0.333333 -0.000000 0.183223 x
x Ag 10 0.555556 0.111111 0.274835 x
x Ag 11 0.444444 0.222222 0.366447 x
x Ag 12 0.333333 0.000000 0.458058 x
x Ag 13 0.888889 0.111111 0.000000 x
x Ag 14 0.777778 0.222222 0.091612 x
x Ag 15 0.666667 0.000000 0.183223 x
x Ag 16 0.888889 0.111111 0.274835 x
x Ag 17 0.777778 0.222222 0.366447 x
x Ag 18 0.666667 0.000000 0.458058 x
x Ag 19 0.222222 0.444444 0.000000 x
x Ag 20 0.111111 0.555556 0.091612 x
x Ag 21 -0.000000 0.333333 0.183223 x
x Ag 22 0.222222 0.444444 0.274835 x
x Ag 23 0.111111 0.555556 0.366447 x
x Ag 24 0.000000 0.333333 0.458058 x
x Ag 25 0.555556 0.444444 0.000000 x
x Ag 26 0.444444 0.555556 0.091612 x
x Ag 27 0.333333 0.333333 0.183223 x
x Ag 28 0.555556 0.444444 0.274835 x
x Ag 29 0.444444 0.555556 0.366447 x
x Ag 30 0.333333 0.333333 0.458058 x
x Ag 31 0.888889 0.444444 0.000000 x
x Ag 32 0.777778 0.555556 0.091612 x
x Ag 33 0.666667 0.333333 0.183223 x
x Ag 34 0.888889 0.444444 0.274835 x
x Ag 35 0.777778 0.555556 0.366447 x
x Ag 36 0.666667 0.333333 0.458058 x
x Ag 37 0.222222 0.777778 0.000000 x
x Ag 38 0.111111 0.888889 0.091612 x
x Ag 39 -0.000000 0.666667 0.183223 x
x Ag 40 0.222222 0.777778 0.274835 x
x Ag 41 0.111111 0.888889 0.366447 x
x Ag 42 0.000000 0.666667 0.458058 x
x Ag 43 0.555556 0.777778 0.000000 x
x Ag 44 0.444444 0.888889 0.091612 x
x Ag 45 0.333333 0.666667 0.183223 x
x Ag 46 0.555556 0.777778 0.274835 x
x Ag 47 0.444444 0.888889 0.366447 x
x Ag 48 0.333333 0.666667 0.458058 x
x Ag 49 0.888889 0.777778 0.000000 x
x Ag 50 0.777778 0.888889 0.091612 x
x Ag 51 0.666667 0.666667 0.183223 x
x Ag 52 0.888889 0.777778 0.274835 x
x Ag 53 0.777778 0.888889 0.366447 x
x Ag 54 0.666667 0.666667 0.458058 x
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
No user defined ionic velocities
-------------------------------
Details of Species
-------------------------------
Mass of species in AMU
Ag 107.8679962
Electric Quadrupole Moment (Barn)
Ag 1.0000000 No Isotope Defined
Files used for pseudopotentials:
Ag Ag_00PBE.usp
-------------------------------
k-Points For BZ Sampling
-------------------------------
MP grid size for SCF calculation is 6 6 2
with an offset of 0.000 0.000 0.000
Number of kpoints used = 36
-------------------------------
Symmetry and Constraints
-------------------------------
Cell is a supercell containing 9 primitive cells
Maximum deviation from symmetry = 0.00000 ANG
There are no symmetry operations specified or generated for this cell
Number of ionic constraints = 54
Point group of crystal = 1: C1, 1, 1
Space group of crystal = 164: P-3m1, -P 3 2"
Centre of mass is NOT constrained
Set iprint > 1 for details of linear ionic constraints
Number of cell constraints= 6
Cell constraints are: 0 0 0 0 0 0
External pressure/stress (GPa)
0.00000 0.00000 0.00000
0.00000 0.00000
0.00000
+---------------- MEMORY AND SCRATCH DISK ESTIMATES PER PROCESS --------------+
| Memory Disk |
| Model and support data 867.6 MB 150.7 MB |
| Electronic energy minimisation requirements 1173.7 MB 0.0 MB |
| ----------------------------- |
| Approx. total storage required per process 2041.3 MB 150.7 MB |
| |
| Requirements will fluctuate during execution and may exceed these estimates |
+-----------------------------------------------------------------------------+
------------------------------------------------------------------------ <-- SCF
SCF loop Energy Fermi Energy gain Timer <-- SCF
energy per atom (sec) <-- SCF
------------------------------------------------------------------------ <-- SCF
Initial -1.05486933E+004 0.00000000E+000 19.51 <-- SCF
1 -5.24873051E+004 -1.90733536E+000 7.76640959E+002 372.75 <-- SCF
2 -5.53050034E+004 -7.53699450E+000 5.21795983E+001 674.71 <-- SCF
3 -5.55423071E+004 -6.65380676E+000 4.39451316E+000 930.81 <-- SCF
4 -5.55455166E+004 -6.64236598E+000 5.94352070E-002 1176.35 <-- SCF
5 -5.55330970E+004 -7.01058113E+000 -2.29993888E-001 1437.44 <-- SCF
6 -5.55329972E+004 -6.99465611E+000 -1.84687932E-003 1736.83 <-- SCF
7 -5.55330167E+004 -6.99198927E+000 3.61612640E-004 1993.65 <-- SCF
8 -5.55330080E+004 -6.98358368E+000 -1.61795532E-004 2254.83 <-- SCF
9 -5.55329997E+004 -6.97057082E+000 -1.54679370E-004 2482.19 <-- SCF
10 -5.55329761E+004 -6.91745678E+000 -4.36070562E-004 2736.23 <-- SCF
11 -5.55329810E+004 -6.91034215E+000 8.97093823E-005 2967.24 <-- SCF
12 -5.55329753E+004 -6.88023009E+000 -1.05269193E-004 3201.62 <-- SCF
13 -5.55329702E+004 -6.85392965E+000 -9.44344457E-005 3427.39 <-- SCF
14 -5.55329693E+004 -6.82216103E+000 -1.53214510E-005 3648.00 <-- SCF
15 -5.55329836E+004 -6.81061576E+000 2.63948796E-004 3875.94 <-- SCF
16 -5.55329901E+004 -6.79344966E+000 1.19950234E-004 4078.55 <-- SCF
17 -5.55329936E+004 -6.78816752E+000 6.45324590E-005 4276.89 <-- SCF
18 -5.55329938E+004 -6.79033674E+000 4.68553161E-006 4465.78 <-- SCF
19 -5.55329938E+004 -6.78925382E+000 2.92318672E-007 4645.07 <-- SCF
20 -5.55329938E+004 -6.78898424E+000 5.55688803E-008 4822.06 <-- SCF
------------------------------------------------------------------------ <-- SCF
Final energy, E = -55532.87693541 eV
Final free energy (E-TS) = -55532.99382952 eV
(energies not corrected for finite basis set)
NB est. 0K energy (E-0.5TS) = -55532.93538246 eV
Writing analysis data to AgGGA__1_1_1___2_.castep_bin
Writing model to AgGGA__1_1_1___2_.check
+---------------- MEMORY AND SCRATCH DISK ESTIMATES PER PROCESS --------------+
| Memory Disk |
| Model and support data 867.6 MB 150.7 MB |
| Electronic energy minimisation requirements 1173.7 MB 0.0 MB |
| Geometry minimisation requirements 1667.7 MB 0.0 MB |
| ----------------------------- |
| Approx. total storage required per process 3709.0 MB 150.7 MB |
| |
| Requirements will fluctuate during execution and may exceed these estimates |
+-----------------------------------------------------------------------------+
*********************************** Forces ***********************************
* *
* Cartesian components (eV/A) *
* -------------------------------------------------------------------------- *
* x y z *
* *
* Ag 1 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 2 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 3 -0.00005 0.00008 -0.01818 *
* Ag 4 0.00005 -0.00009 0.02067 *
* Ag 5 0.00060 -0.00103 -0.00233 *
* Ag 6 0.00023 -0.00040 -0.01616 *
* Ag 7 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 8 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 9 -0.00005 0.00008 -0.01818 *
* Ag 10 0.00005 -0.00008 0.02067 *
* Ag 11 0.00060 -0.00103 -0.00233 *
* Ag 12 0.00023 -0.00040 -0.01616 *
* Ag 13 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 14 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 15 -0.00005 0.00008 -0.01818 *
* Ag 16 0.00005 -0.00008 0.02067 *
* Ag 17 0.00060 -0.00103 -0.00233 *
* Ag 18 0.00023 -0.00040 -0.01616 *
* Ag 19 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 20 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 21 -0.00005 0.00008 -0.01818 *
* Ag 22 0.00005 -0.00008 0.02067 *
* Ag 23 0.00060 -0.00103 -0.00233 *
* Ag 24 0.00023 -0.00040 -0.01616 *
* Ag 25 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 26 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 27 -0.00005 0.00008 -0.01818 *
* Ag 28 0.00005 -0.00008 0.02067 *
* Ag 29 0.00060 -0.00103 -0.00233 *
* Ag 30 0.00023 -0.00040 -0.01616 *
* Ag 31 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 32 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 33 -0.00005 0.00008 -0.01818 *
* Ag 34 0.00005 -0.00008 0.02067 *
* Ag 35 0.00060 -0.00103 -0.00233 *
* Ag 36 0.00023 -0.00040 -0.01616 *
* Ag 37 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 38 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 39 -0.00005 0.00008 -0.01818 *
* Ag 40 0.00005 -0.00008 0.02067 *
* Ag 41 0.00060 -0.00103 -0.00233 *
* Ag 42 0.00023 -0.00040 -0.01616 *
* Ag 43 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 44 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 45 -0.00004 0.00008 -0.01818 *
* Ag 46 0.00005 -0.00008 0.02067 *
* Ag 47 0.00060 -0.00103 -0.00233 *
* Ag 48 0.00023 -0.00040 -0.01616 *
* Ag 49 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 50 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 51 -0.00004 0.00008 -0.01818 *
* Ag 52 0.00005 -0.00008 0.02067 *
* Ag 53 0.00060 -0.00104 -0.00233 *
* Ag 54 0.00023 -0.00040 -0.01616 *
* *
******************************************************************************
BFGS: finished iteration 0 with enthalpy= -5.55329938E+004 eV
+-----------+-----------------+-----------------+------------+-----+ <-- BFGS
| Parameter | value | tolerance | units | OK? | <-- BFGS
+-----------+-----------------+-----------------+------------+-----+ <-- BFGS
| dE/ion | 0.000000E+000 | 1.000000E-005 | eV | Yes | <-- BFGS
| |F|max | 2.067222E-002 | 3.000000E-002 | eV/A | Yes | <-- BFGS
| |dR|max | 0.000000E+000 | 1.000000E-003 | A | Yes | <-- BFGS
+-----------+-----------------+-----------------+------------+-----+ <-- BFGS
BFGS: Geometry optimization completed successfully.
================================================================================
BFGS: Final Configuration:
================================================================================
-------------------------------
Cell Contents
-------------------------------
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
x Element Atom Fractional coordinates of atoms x
x Number u v w x
x----------------------------------------------------------x
x Ag 1 0.222222 0.111111 0.000000 x
x Ag 2 0.111111 0.222222 0.091612 x
x Ag 3 -0.000000 -0.000000 0.183223 x
x Ag 4 0.222222 0.111111 0.274835 x
x Ag 5 0.111111 0.222222 0.366447 x
x Ag 6 0.000000 0.000000 0.458058 x
x Ag 7 0.555556 0.111111 0.000000 x
x Ag 8 0.444444 0.222222 0.091612 x
x Ag 9 0.333333 -0.000000 0.183223 x
x Ag 10 0.555556 0.111111 0.274835 x
x Ag 11 0.444444 0.222222 0.366447 x
x Ag 12 0.333333 0.000000 0.458058 x
x Ag 13 0.888889 0.111111 0.000000 x
x Ag 14 0.777778 0.222222 0.091612 x
x Ag 15 0.666667 0.000000 0.183223 x
x Ag 16 0.888889 0.111111 0.274835 x
x Ag 17 0.777778 0.222222 0.366447 x
x Ag 18 0.666667 0.000000 0.458058 x
x Ag 19 0.222222 0.444444 0.000000 x
x Ag 20 0.111111 0.555556 0.091612 x
x Ag 21 -0.000000 0.333333 0.183223 x
x Ag 22 0.222222 0.444444 0.274835 x
x Ag 23 0.111111 0.555556 0.366447 x
x Ag 24 0.000000 0.333333 0.458058 x
x Ag 25 0.555556 0.444444 0.000000 x
x Ag 26 0.444444 0.555556 0.091612 x
x Ag 27 0.333333 0.333333 0.183223 x
x Ag 28 0.555556 0.444444 0.274835 x
x Ag 29 0.444444 0.555556 0.366447 x
x Ag 30 0.333333 0.333333 0.458058 x
x Ag 31 0.888889 0.444444 0.000000 x
x Ag 32 0.777778 0.555556 0.091612 x
x Ag 33 0.666667 0.333333 0.183223 x
x Ag 34 0.888889 0.444444 0.274835 x
x Ag 35 0.777778 0.555556 0.366447 x
x Ag 36 0.666667 0.333333 0.458058 x
x Ag 37 0.222222 0.777778 0.000000 x
x Ag 38 0.111111 0.888889 0.091612 x
x Ag 39 -0.000000 0.666667 0.183223 x
x Ag 40 0.222222 0.777778 0.274835 x
x Ag 41 0.111111 0.888889 0.366447 x
x Ag 42 0.000000 0.666667 0.458058 x
x Ag 43 0.555556 0.777778 0.000000 x
x Ag 44 0.444444 0.888889 0.091612 x
x Ag 45 0.333333 0.666667 0.183223 x
x Ag 46 0.555556 0.777778 0.274835 x
x Ag 47 0.444444 0.888889 0.366447 x
x Ag 48 0.333333 0.666667 0.458058 x
x Ag 49 0.888889 0.777778 0.000000 x
x Ag 50 0.777778 0.888889 0.091612 x
x Ag 51 0.666667 0.666667 0.183223 x
x Ag 52 0.888889 0.777778 0.274835 x
x Ag 53 0.777778 0.888889 0.366447 x
x Ag 54 0.666667 0.666667 0.458058 x
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
BFGS: Final Enthalpy = -5.55329938E+004 eV
BFGS: Final <frequency> unchanged from initial value
*********************************** Forces ***********************************
* *
* Cartesian components (eV/A) *
* -------------------------------------------------------------------------- *
* x y z *
* *
* Ag 1 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 2 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 3 -0.00005 0.00008 -0.01818 *
* Ag 4 0.00005 -0.00009 0.02067 *
* Ag 5 0.00060 -0.00103 -0.00233 *
* Ag 6 0.00023 -0.00040 -0.01616 *
* Ag 7 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 8 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 9 -0.00005 0.00008 -0.01818 *
* Ag 10 0.00005 -0.00008 0.02067 *
* Ag 11 0.00060 -0.00103 -0.00233 *
* Ag 12 0.00023 -0.00040 -0.01616 *
* Ag 13 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 14 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 15 -0.00005 0.00008 -0.01818 *
* Ag 16 0.00005 -0.00008 0.02067 *
* Ag 17 0.00060 -0.00103 -0.00233 *
* Ag 18 0.00023 -0.00040 -0.01616 *
* Ag 19 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 20 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 21 -0.00005 0.00008 -0.01818 *
* Ag 22 0.00005 -0.00008 0.02067 *
* Ag 23 0.00060 -0.00103 -0.00233 *
* Ag 24 0.00023 -0.00040 -0.01616 *
* Ag 25 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 26 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 27 -0.00005 0.00008 -0.01818 *
* Ag 28 0.00005 -0.00008 0.02067 *
* Ag 29 0.00060 -0.00103 -0.00233 *
* Ag 30 0.00023 -0.00040 -0.01616 *
* Ag 31 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 32 -0.00060(cons'd) 0.00104(cons'd) -0.01494(cons'd) *
* Ag 33 -0.00005 0.00008 -0.01818 *
* Ag 34 0.00005 -0.00008 0.02067 *
* Ag 35 0.00060 -0.00103 -0.00233 *
* Ag 36 0.00023 -0.00040 -0.01616 *
* Ag 37 -0.00023(cons'd) 0.00041(cons'd) 0.03095(cons'd) *
* Ag 38 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 39 -0.00005 0.00008 -0.01818 *
* Ag 40 0.00005 -0.00008 0.02067 *
* Ag 41 0.00060 -0.00103 -0.00233 *
* Ag 42 0.00023 -0.00040 -0.01616 *
* Ag 43 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 44 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 45 -0.00004 0.00008 -0.01818 *
* Ag 46 0.00005 -0.00008 0.02067 *
* Ag 47 0.00060 -0.00103 -0.00233 *
* Ag 48 0.00023 -0.00040 -0.01616 *
* Ag 49 -0.00023(cons'd) 0.00040(cons'd) 0.03095(cons'd) *
* Ag 50 -0.00060(cons'd) 0.00103(cons'd) -0.01494(cons'd) *
* Ag 51 -0.00004 0.00008 -0.01818 *
* Ag 52 0.00005 -0.00008 0.02067 *
* Ag 53 0.00060 -0.00104 -0.00233 *
* Ag 54 0.00023 -0.00040 -0.01616 *
* *
******************************************************************************
Writing analysis data to AgGGA__1_1_1___2_.castep_bin
Writing model to AgGGA__1_1_1___2_.check
A BibTeX formatted list of references used in this run has been written to
AgGGA__1_1_1___2_.bib
Initialisation time = 14.35 s
Calculation time = 5422.77 s
Finalisation time = 9.03 s
Total time = 5446.15 s
Peak Memory Use = 2546412 kB
Overall parallel efficiency rating: Excellent (97%)
Data was distributed by:-
k-point (12-way); efficiency rating: Excellent (97%)
|
|
发表于 Post on 2015-9-12 16:23:28
|
只看该作者 Only view this author
|只看大图 View big picture
|倒序浏览 Reverse view
|阅读模式 Reading model
收藏 Add to favorites
楼主 Author