KERNEL TRUNCATION/IPAD
KERNEL_TRUNCATION/IPAD = integer
| Default: KERNEL_TRUNCATION/IPAD | = 3 | if KERNEL_TRUNCATION/IDIMENSIONALITY = 0
|
| = 2 | if KERNEL_TRUNCATION/IDIMENSIONALITY = 2
|
Description: KERNEL_TRUNCATION/IPAD controls the padding strategy used for the Coulomb kernel truncation in reciprocal space. Padding defines how much additional empty space is introduced around the charge density before applying truncation.[1] This affects both the accuracy of the truncated Coulomb potential and the computational cost.
Setting KERNEL_TRUNCATION/IPAD allows fine control over how much zero-padding is applied along each reciprocal-space direction. Padding ensures that the truncated Coulomb kernel does not artificially interact with its periodic replicas in non-periodic directions.
Typically, increasing KERNEL_TRUNCATION/IPAD improves accuracy at the expense of computational cost.
Mind: KERNEL_TRUNCATION/LTRUNCATE must be set to .TRUE. for KERNEL_TRUNCATION/IPAD to have any effect.
|
Example
KERNEL_TRUNCATION {
LTRUNCATE = T
IDIMENSIONALITY = 2
ISURFACE = 3
IPAD = 2
FACTOR = 1
}
In this case an additional empty cell is added along the z direciton as padding. The coulomb interaction is truncated beyond a z length. This ensures maximum usage of the simulation box.
KERNEL_TRUNCATION {
LTRUNCATE = T
IDIMENSIONALITY = 2
ISURFACE = 3
IPAD = 1
FACTOR = 0.5
}
This corresponds to truncation along the surface normal (z-direction) for a 2D material with no padding and z/2 length for the coulomb truncation. This setting corresponds to using coulomb truncation without padding. In this case half of the simulation box is in a sense wasted but the algorithm is simpler. This combination can be useful for debug.
Related tags and articles
KERNEL_TRUNCATION/LTRUNCATE, KERNEL_TRUNCATION/IDIMENSIONALITY, KERNEL_TRUNCATION/LCOARSEN, KERNEL_TRUNCATION/ISURFACE