Ocs package: Difference between revisions

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Notice that the number of internal variables of each element is not included in the IFF files. This is because elements with a number of internal variables that is huge, that depends on the value of some parameter, or even that changes in time (for example distributed elements treated with a FEM with adaptive meshing, a large linear sub- circuit that is reduce via MOR...) and therefore it is more convenient to compute the number of internal variables when initializing the system.
Notice that the number of internal variables of each element is not included in the IFF files. This is because elements with a number of internal variables that is huge, that depends on the value of some parameter, or even that changes in time (for example distributed elements treated with a FEM with adaptive meshing, a large linear sub- circuit that is reduce via MOR...) and therefore it is more convenient to compute the number of internal variables when initializing the system.
==== SBN files ====
SBN files are Octave functions, implemented as M-scripts or as DLD functions,
with the following signature
{{Code|Model evaluator file for simple MOSFET models |<syntaxhighlight lang="octave" style="font-size:13px">
function [a,b,c ,] =...
func (string , m(i ,:) , extvar , intvar , t)
</syntaxhighlight>}}
i.e. it should get as inputs:
* the string entry of the "block_header"
* one row of the "pv_matrix" entry of the "block"
* the current values of all internal and external variables
* the current time
and it should produce as outputs three matrices:
* <math>a, b \in \mathbb{R}^{(n_extvar + n_intvar)×(n_extvar + n_intvar)}</math>
* <math>c \in \mathbb{R}^{(n_extvar + n_intvar)}</math>
where "n_intvar" is the number of internal variables that can be assembled in the complete system matrices.


=== SPICE netlists ===
=== SPICE netlists ===
349

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