It depends on what the gates do. At best you will get an AC analysis for the circuit with the gates in one state.
An AC analysis finds a static DC operating point first and assumes that doesn't change. It then calculates the small signal transfer function at that DC operating point only.
I have a switching circuit controlling the current sink of an Op-Amp. Of course during the time when the gates are turing on and Off Op-Amp doesn't work once everything is steady Op-Amp operates.
I have a switching circuit controlling the current sink of an Op-Amp. Of course during the time when the gates are turing on and Off Op-Amp doesn't work once everything is steady Op-Amp operates.
Suggestion: Perhaps two succeeding ac simulations (for both switch positions) can give you some information.
In both cases, the restrictions as mentioned by Keith apply (small signal behaviour for a fixed dc operating point).
I have to do monte carlo simulations to check the intra-die variations! So every time I run the monte Carlo it generates a new set of variable which makes my life more miserable!
I have to do monte carlo simulations
to check the intra-die variations!
So every time I run the monte Carlo it generates a new set of variable
which makes my life more miserable!
At least, you deserve a price for being the first individuum in this forum who has put his question in form of a poem.
Congratulation!
Monte carlo uses the same variations for each iteration of different runs.
That is, if you run the same circuit twice, each iteration of both runs will give you the same result.