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The information provided also indicates any known limitations and, if available, provides details of any work-arounds. The primary purpose of these notes is to provide Qucs users with a source of reference for the operation and capabilities of the software. Qucs is equally easy to use by absolute beginners, like school children learning the physics of electrical circuits consisting of a battery and one or more resistors, as it is by cutting edge engineers working on the modelling of sub-nano sized RF MOS transistors with hundreds of physical parameters. Eventually, a stage will be reached which allows Qucs to be used productively to model devices and to investigate the performance of circuits. Once these have been mastered users can move on with confidence to next level of understanding.
#Qucs examples download how to
In particular, one of the best ways to become familiar with Qucs is to learn a few basic user rules and how to apply them.
#Qucs examples download software
New users must realise that to get the best from the software some effort is required on their part. Incidentally, this statement is also true for other GPL circuit simulators. Qucs is a large software package which takes time to learn.
![qucs examples download qucs examples download](https://image2.owler.com/9080523-1487024500169.png)
In the future, as the Qucs project evolves, the software will also provide circuit designers with a choice of simulation engine selected from the Qucs built-in code, ngspice and Xyce ©. Recent extensions to the software aim to diversify the Qucs modelling facilities by running the Berkeley “Model and Algorithm Prototyping Platform” (MAPP) in parallel with Qucs, using Octave launched from the Qucs GUI.
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As well as extensive circuit simulation capabilities Qucs supports a full range of device modelling features, including non-linear and RF equation-defined device modelling and the use of the VerilogA hardware description language (HDL) for compact device modelling and macromodelling. Between 2003, and January 2015, the sourceforge Qucs download statistics show that over one million downloads of the software have been recorded. Similarly, circuit performance optimisation is possible using the A SPICE Circuit Optimizer (ASCO) package or Python code linked to Qucs. Qucs also allows users to process post-simulation data with the popular Octave numerical data analysis package. Qucs includes built-in code for processing and visualising simulation output data.
![qucs examples download qucs examples download](https://everfc438.weebly.com/uploads/1/2/5/0/125028256/655559525.jpg)
In the period since Qucs was first released it has evolved into an advanced circuit simulation and device modelling tool with a user friendly “graphical user interface” (GUI) for circuit schematic capture, for investigating circuit and device properties from DC to RF and beyond, and for launching other circuit simulation software, including the FreeHDL (VHDL) and Icarus Verilog digital simulators.
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Versions are available for Linux (Ubuntu and other distributions), Mac OS X © and the Windows © 32 bit operating system. Qucs numbered releases and day-to-day development code snapshots can be downloaded from ().
![qucs examples download qucs examples download](http://qucs.sourceforge.net/images/logos/mediumubuntulogo.png)
Both binary and source code releases take place at regular intervals. Since its initial public release in 2003 around twenty contributors, from all regions of the world, have invested their expertise and time to support the development of the software. Qucs is the brainchild of German Engineers Michael Margraf and Stefan Jahn. The ‘Quite universal circuit simulator’ Qucs (pronounced: kju:ks) is an open source circuit simulator developed by a group of engineers, scientists and mathematicians under the GNU General Public License (GPL). Kurze Beschreibung der mathematischen Funktionenġ3 Subcircuit and Verilog-A RF Circuit Models for Axial and Surface Mounted Resistors Getting Started with Qucs Analogue Circuit Simulation