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[[計算コードの使い方/STATE]]
*STATE Tutorial [#mea40d5a]
**Exercise 1. H2 [#k086731f]
&ref(計算コードの使い方/STATE/資料のダウンロード/nfinp_L10.0_G7.5_GP20.00);
--Super-cell size=10.0 x 10.0 x 10.0
--Cut-off for wave functions=7.5Ry
--Cut-off for density=20.0Ry
1.1 Run STATE code
Make a script file and run STATE code with input file downloaded.
Attention: Use potential files "H_lda1/#vnew.data" or "pot.H_lda1"
(1) Prepare STATE executable code. (STATE)
Get fortran program and Makefile and compile the program. Then, executable code "STATE" will be generated.)
Programs are usually placed in a directory of STATE/src/STATE_(version number)/ .
(2) Prepare PSEUDOPOTENTIAL data (For example, "H_lda1/#vnew.data" or "pot.H_lda1" for hydrogen)
Potential data are usually placed in a directory of STATE/gncpp.
(3) Prepare INPUT FILE (nfinp)
Refer "CO calculation" page to understand how to make an input file.
Input file is usually placed in the Project directory.
Project directory is usually placed in a directory of STATE/outs
(4) Prepare JOB SCRIPT.
Job script is usually placed in the Project directory.
(5) Execute the SCRIPT. (By interactive or submitting.)
-Success or fail?
Checkout total energy convergence and the number of self-consistent iterations to obtain convergenced result
grep ETOT: nfout~
(1) Confirm nfout generated.
(2) Check total energy convergence and the number of self-consistent iterations to obtain convergenced result
Command-> grep ETOT: nfout~
1.2 Confirm/garantee calculation accuracy
--Cut-off of basis function (for wave functions and for electrnic densities)
Calculate models with changing calculation conditions and find an appropriate condition.
--Cut-off energy of basis set (for wave functions and for electrnic densities)
--Super-cell size
--(Number of division of Boullilen zone)
Calculate models with different cut-off energy conditions and supercell sizes and find an appropriate condition.
1.3 Equilibrium atomic distance
Calculate models with different lattice constants and find the equilibrium atomic distance.
Calculate models with several inter-atomic distances and find the equilibrium atomic distance.
**Si Bulk [#l43967e9]
--Cell structure (dia)
--Lattice Symmetry (Space group=227)
-Energy (Convergence)
--Cut-off of basis function(for wave functions and for electrnic densities)
-Equilibrium cell constant
-Visualization of electron density distribution
**Al Bulk [#r6bcd8e0]
-Cell structure (fcc)
-Lattice Symmetry (Space group=225)
-DOS
-Equilibrium cell constant
**Ni Bulk [#ie9fa5b3]
-spin polarization
-DOS
-Equilibrium cell constant
**C2H4 [#dc18f150]
-Quenched MD
-Finite temperature MD
-Visualization of atomic motion &ref(計算コードの使い方/STATE/資料のダウンロード/state2axyz_dup_thin_primitive_3d_.pl);
-Vibration analysis
**Cl on Au surface [#b321199b]
-Stable adsorption site (on top, bridge, hollow)
-NEB including CINEB
??? Band structure
+Structure and Space group
http://cst-www.nrl.navy.mil/lattice/index.html
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