I suggest to do what other developers do. While everyone is natuarally entitled to create their ownīinaries and share them with whoever, the sucess and impact is usually Usually, binary packages are distributed by the various GNU/Linuxĭistributions. > different Qucs binaries compilation and testing. I am not sure how create a test environment for all the > just last week I have asked Guilherme a similar question about Qucs On Thu, at 02:48:00PM +0100, Wladek Grabinski wrote: > The 'qucs-0.0.20-rc1' version is merged and tagged on the 'master' Would be a right place to address all these questions? I am not sure how create a test environment for all theĭifferent Qucs binaries compilation and testing. Just last week I have asked Guilherme a similar question about Qucsīinaries for Linux. > The configured tarball is available at: > The 'qucs-0.0.20-rc1' version is merged and tagged on the 'master' branch. > On 12:37, Guilherme Brondani Torri wrote: > setup there but would happily test a binary version. > installer built for Windows? I don't have the development environment > the RC and they're working well on Ubuntu. > Congrats on reaching this milestone! I've tried a few of my projects on > Il 17 gennaio 2019 alle 11.36 Derek Kozel ha scritto: So they currently contain the binaries for the 0.0.20 release candidate. A copy of the license is included in the section entitled “GNU Free Documentation License”.These links point to the latest Qucs binary packages for Windows, automatically built by AppVeyor from the master branch: Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.1 or any later version published by the Free Software Foundation. Item Type:Īuthors Mike Brinson and Vadim Kusnetsov 2015, 2016, 2017, 2018 Both documents present a large number of typical circuit simulation and compact device modelling examples. The second Qucs document, called “Spice4qucs-Help”, introduces more advanced simulation and modelling topics. The first of these, simply called “Qucs-Help”, provides introductory information for beginners and indeed any other users, who require help in starting to use Qucs. In future Qucs releases will be accompanied by two or more basic Qucs documents. Hence, however much documentation is written describing its functionality there are always likely be simulation and modelling examples that are missing from the Qucs documentation. Qucs is a large and complex package which is very flexible in the way that it can be used as a circuit design aid. One of the most often requested new Qucs features is “better documentation”, especially documentation outlining the use and limitations of the simulation and the modelling features built into Qucs. The recent versions of the software include code for algebraic equation manipulation, Equation-Defined Device (EDD) modelling, Radio Frequency Equation-Defined Device (RFEDD) simulation and Verilog-A synthesised model development plus a range of compact and behavioural device modelling and post simulation data analysis tools that have become central features in an open source software package of surprising power and utility. Considerable effort has also been made to improve the device modelling tools distributed with Qucs. In the years following 2003 the Qucs Development team added a number of additional simulation facilities, including for example, transient simulation, device parameter sweep capabilities and single tone Harmonic Balance simulation, making Qucs functionality comparable to SPICE at low frequencies and significantly extended at high frequencies. Since it was first release under the General Public License (GPL) in 2003 Qucs has provided users with a relatively stable, flexible and reasonably functional circuit simulation package which is particularly suited to high frequency circuit simulation. Qucs was originally written as an RF and microwave engineering design tool which provided features not found in SPICE, like S parameter simulation, two and multiport small signal AC circuit analysis and RF network synthesis. The project also aims to add additional model development tools to those currently available in Qucs-0.0.18. It addresses a number of problems observed with the current version of Qucs while attempting to combine some of the best features of other GPL circuit simulation packages. Available under License Creative Commons Attribution No Derivatives.įollowing the release of Qucs-0.0.18 in August 2014 the Qucs Development Team considered in detail a number of possible directions that future versions of the software could take.
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