ML MRB2: Difference between revisions

Latest revision as of 11:56, 31 March 2023

ML_MRB2 = [integer]
Default: ML_MRB2 = 8

Description: This tag sets the number $N_{\text{R}}^{l}$ (for all $l$ ) of radial basis functions used to expand the angular descriptor within the machine learning force field method.

The angular descriptor is constructed from

$\rho _{i}^{(3)}\left(r,s,\theta \right)=\iint d{\hat {\mathbf {r} }}d{\hat {\mathbf {s} }}\delta \left({\hat {\mathbf {r} }}\cdot {\hat {\mathbf {s} }}-\mathrm {cos} \theta \right)\sum \limits _{j=1}^{N_{a}}\sum \limits _{k\neq j}^{N_{a}}\rho _{ik}\left(r{\hat {\mathbf {r} }}\right)\rho _{ij}\left(s{\hat {\mathbf {s} }}\right),\quad {\text{where}}\quad \rho _{ij}\left(\mathbf {r} \right)=f_{\mathrm {cut} }\left(r_{ij}\right)g\left(\mathbf {r} -\mathbf {r} _{ij}\right)$

and $g\left(\mathbf {r} \right)$ is an approximation of the delta function. In practice, the continuous function above is transformed into a discrete set of numbers $p_{n\nu l}^{i}$ by expanding it into a set of radial basis functions $\chi _{nl}(r)$ and Legendre polynomials $P_{l}\left(\mathrm {cos} \theta \right)$ (see this section for more details):

$\rho _{i}^{(3)}\left(r,s,\theta \right)=\sum \limits _{l=1}^{L_{\mathrm {max} }}\sum \limits _{n=1}^{N_{\mathrm {R} }^{l}}\sum \limits _{\nu =1}^{N_{\mathrm {R} }^{l}}{\sqrt {\frac {2l+1}{2}}}p_{n\nu l}^{i}\chi _{nl}\left(r\right)\chi _{\nu l}\left(s\right)P_{l}\left(\mathrm {cos} \theta \right).$

The tag ML_MRB2 sets the number $N_{\text{R}}^{l}$ of radial basis functions to use in this expansion. The same number is used for all $l$ .

Mind: The number of angular descriptor expansion coefficients

p_{n\nu l}^{i}

scales quadratically with

N_{\text{R}}^{l}

set by this tag. It also depends on ML_LMAX2 and the number of elements.

@@ Line 1: / Line 1: @@
-{{TAGDEF|ML_MRB2|[integer]|{{TAG|ML_MRB1}}}}
+{{DISPLAYTITLE:ML_MRB2}}
+{{TAGDEF|ML_MRB2|[integer]|8}}
 Description: This tag sets the number <math>N_\text{R}^l</math> (for all <math>l</math>) of radial basis functions used to expand the angular descriptor within the machine learning force field method.
@@ Line 10: / Line 11: @@
 </math>
-and <math>g\left(\mathbf{r}\right)</math> is an approximation of the delta function. In practice, the continuous function above is transformed into a discrete set of numbers <math>p_{n\nu l}^{i}</math> by expanding it into a set of radial basis functions <math>\chi_{nl}(r)</math> and Legendre polynomials <math>P_{l}</math> (see [[Machine learning force field: Theory#Basis set expansion|this section]] for more details):
+and <math>g\left(\mathbf{r}\right)</math> is an approximation of the delta function. In practice, the continuous function above is transformed into a discrete set of numbers <math>p_{n\nu l}^{i}</math> by expanding it into a set of radial basis functions <math>\chi_{nl}(r)</math> and Legendre polynomials <math>P_{l}\left(\mathrm{cos}\theta\right)</math> (see [[Machine learning force field: Theory#Basis set expansion|this section]] for more details):
 <math>
@@ Line 17: / Line 18: @@
 The tag {{TAG|ML_MRB2}} sets the number <math>N_\text{R}^l</math> of radial basis functions to use in this expansion. The same number is used for all <math>l</math>.
+{{NB|mind|The number of angular descriptor expansion coefficients <math>p_{n\nu l}^{i}</math> scales '''quadratically''' with <math>N_\text{R}^l</math> set by this tag. It also depends on {{TAG|ML_LMAX2}} and the number of elements.}}
-== Related Tags and Sections ==
+== Related tags and articles ==
 {{TAG|ML_LMLFF}}, {{TAG|ML_LMAX2}}, {{TAG|ML_MRB1}}, {{TAG|ML_W1}}, {{TAG|ML_RCUT2}}, {{TAG|ML_SION2}}
@@ Line 24: / Line 26: @@
 ----
-[[Category:INCAR]][[Category:Machine Learning]][[Category:Machine Learned Force Fields]][[Category: Alpha]]
+[[Category:INCAR tag]][[Category:Machine-learned force fields]]