Back to the main page of this manual | Input reference of CP2K version 2023.2 |
CP2K_INPUT /
FORCE_EVAL /
DFT /
POISSON /
IMPLICIT
BOUNDARY_CONDITIONS {Keyword} |
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Specifies the type of boundary conditions. Dirichlet=fixed value, Neumann=zero normal deriv. Mixed and Neumann boundaries essentially requires FFTW3 so that all grid sizes are FFT-able. | |
This keyword cannot be repeated and it expects precisely one keyword. | |
Default value:
PERIODIC |
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List of valid keywords:
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MAX_ITER {Integer} |
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Maximum number of iterations. | |
This keyword cannot be repeated and it expects precisely one integer. | |
Default value:
30 |
NEUMANN_DIRECTIONS {Keyword} |
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Directions in which homogeneous Neumann conditions are imposed. In the remaining directions periodic conditions will be enforced. Having specified MIXED or NEUMANN as BOUNDARY_CONDITIONS, the keyword is meant to be used to combine periodic and homogeneous Neumann conditions at the boundaries of the simulation cell. | |
This keyword cannot be repeated and it expects precisely one keyword. | |
Default value:
XYZ |
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List of valid keywords:
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OR_PARAMETER {Real} |
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Over-relaxation parameter (large epsilon requires smaller omega ~0.1). | |
This keyword cannot be repeated and it expects precisely one real. | |
Default value:
1.00000000E+000 |
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Alias names for this keyword: OMEGA |
TOL {Real} |
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Stopping tolerance. | |
This keyword cannot be repeated and it expects precisely one real. | |
Default value:
1.00000000E-008 |
ZERO_INITIAL_GUESS {Logical} |
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Whether or not to use zero potential as initial guess. | |
This keyword cannot be repeated and it expects precisely one logical. | |
The lone keyword behaves as a switch to
.TRUE. |
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Default value:
.FALSE. |
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