ML SIGW0: Difference between revisions

Latest revision as of 16:05, 3 July 2023

ML_SIGW0 = [real]
Default: none

Default: ML_SIGW0	= 1E-7	for ML_MODE = REFIT
	= 1.0	else

Description: This flag sets the precision parameter $s_{\mathrm {w} }$ (see here for definition) for the fitting in the machine learning force field method.

The default value for ML_MODE=REFIT works reliable in most calculations.

However, if the regularization needs to be controlled manually, like e.g. in the fitting via singular value decomposition (ML_MODE=REFIT or ML_IALGO_LINREG=4), the best is to control the regularization via this parameter and keep the noise paramter $s_{\mathrm {v} }$ (see ML_SIGV0) constant at 1.

For the theory of this regularization parameter see this section.

@@ Line 3: / Line 3: @@
 {{DEF|ML_SIGW0|1E-7|for {{TAG|ML_MODE}} {{=}} REFIT|1.0|else}}
-Description: This flag sets the precision parameter <math>s_{\mathrm{w}}</math> for the fitting in the machine learning force field method.
+Description: This flag sets the precision parameter <math>s_{\mathrm{w}}</math> (see [[Machine learning force field: Theory#Bayesian linear regression|here]] for definition) for the fitting in the machine learning force field method.
 ----
-The default value works empirically very good in most calculations
+The default value for {{TAG|ML_MODE}}=''REFIT'' works reliable in most calculations.
 However, if the regularization needs to be controlled manually, like e.g. in the fitting via singular value decomposition ({{TAG|ML_MODE}}=''REFIT'' or {{TAG|ML_IALGO_LINREG}}=4), the best is to control the regularization via this parameter and keep the noise paramter <math>s_{\mathrm{v}}</math> (see {{TAG|ML_SIGV0}}) constant at 1.

Latest revision as of 16:05, 3 July 2023

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