NOTE: Both methods require users to load the xxxxxx.sch file into the main Qucs-S GUI window before undertaking circuit simulation and output data post-processing. We will be using the Automatic method below to post-process our simulation results and automatically create our plots. Qucs-S allows this to be done in two ways firstly manually controlled by users and secondly automatically controlled by Qucs-S. Once the xxxxxx.sch and xxxxxx.m files are entered they can be run by Qucs-S to generate circuit simulation output and undertake output processing with Octave. By using the same name, Qucs-S assumes that script file xxxxxx.m is to be used to control the post-simulation processing of the output data generated by the simulation of file xxxxxx.sch. To use Octave with Qucs-S for output data processing two Qucs-S files are required firstly a Qucs-S schematic file called xxxxxx.sch, and secondly an Octave script file called xxxxxx.m, where name “xxxxxx” must be identical for both files. m file to successfully process Qucs-S simulation output data to be listed before presenting the more complex features of individual Octave numerical analysis and plotting functions, to hopefully help all users understand the background and requirements for writing functioning Octave post-processing. This allows a number of the basic features required for an Octave. Using GNU Octave – Scientific Programming Language with Qucs-S GUIīefore introducing the structure and function of the Octave xxxxxx.m file, the simulation post-processing results for the knowm_mr_pulse.sch example are introduced and briefly explained.
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