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| Some uses are known to work with unmodified Gnucap. | Some uses are known to work with unmodified Gnucap. | ||
| - | * Discrete physics models are conservative systems and as such representable in verilog-a | + | - Discrete physics models are conservative systems and as such representable in verilog-a. Gnucap supports a subset of verilog-adms, which is conceptionally verilog-a. |
| - | Gnucap supports a subset of verilog-adms, which is conceptionally verilog-a. | + | |
| - | * Ageing effects, such as material properties and breakdown model, simulation. | + | - Ageing effects, such as material properties and breakdown model, simulation. |
| - | * Real time audio processing and/or wavetable generation. | + | |
| - | * Neurobiology, "brain cells" in combination with body mechanics, simulation engine extensions. | + | - Real time audio processing and/or wavetable generation. |
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| + | - Neurobiology, "brain cells" in combination with body mechanics, simulation engine extensions. | ||
| Other uses may be less known. Generally with the domain specific plugins, Gnucap + Python (or Octave) is suitable as a replacement for most of the commercial "multidomain dynamical systems" modelling and analysis tools. | Other uses may be less known. Generally with the domain specific plugins, Gnucap + Python (or Octave) is suitable as a replacement for most of the commercial "multidomain dynamical systems" modelling and analysis tools. | ||