Difference between revisions of "GEDA Resources"

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* Standard method 2: Use [http://www.finkproject.org/ Fink], and install the "geda-bundle."    You may also want to use the [http://finkcommander.sourceforge.net/ Fink Commander] GUI to make that process easier. More about this process [http://www.ghz.cc/charles/fink/ here].   
 
* Standard method 2: Use [http://www.finkproject.org/ Fink], and install the "geda-bundle."    You may also want to use the [http://finkcommander.sourceforge.net/ Fink Commander] GUI to make that process easier. More about this process [http://www.ghz.cc/charles/fink/ here].   
 
* Virtual machine method: Download [http://www.virtualbox.org/ Virtualbox] and download [http://www.ubuntu.com Ubuntu], so that you can run Ubuntu in a virtual machine on your computer. (It's fast and easy!) Then, install gEDA (gschem and PCB) from the Ubuntu software center.  Note: this is ''faster'' than the Fink method-- under 1 hour, if you have a reasonably fast internet connection.
 
* Virtual machine method: Download [http://www.virtualbox.org/ Virtualbox] and download [http://www.ubuntu.com Ubuntu], so that you can run Ubuntu in a virtual machine on your computer. (It's fast and easy!) Then, install gEDA (gschem and PCB) from the Ubuntu software center.  Note: this is ''faster'' than the Fink method-- under 1 hour, if you have a reasonably fast internet connection.
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=== Installing gEDA on Linux ===
 
=== Installing gEDA on Linux ===

Revision as of 00:40, 3 September 2011

Useful resources for working with gEDA, the GPL'd suite and toolkit of Electronic Design Automation software.


Note 1: This page is a continuing work in progress.
Note 2: This wiki is publicly editable; topical contributions are welcome.


Basics


Introductory Tutorials


Symbols and Footprints

Symbols: Schematic symbols for use in gschem


Footprints: component footprints for use in PCB


Footprint-generating utilities

  • Footgen, Darryl Harmon's python-based footprint generator for geda/pcb
  • Ruby-based footprint generator by Stefan Salewski
  • browser-based footprint generator
  • Browser-based rectangular footprint generator by chlazza.net


gEDA Utilities

  • Wedana: Cross-platform browser-based tools to view and edit data from gEDA applications.


Simulating circuits with gEDA and friends


Installing gEDA

Installing gEDA on Windows

  • gEDA can be run on Windows natively, as a cygwin application, or in a virtual machine.
  • Easy "native" way: Use this unofficial installer by Peter Clifton.
  • Another set of unofficial installers.
  • Virtual machine method: Download Virtualbox and download Ubuntu, so that you can run Ubuntu in a virtual machine on your computer. (It's fast and easy!) Then, install gEDA (gschem and PCB) from the Ubuntu software center.


Installing gEDA on Mac

  • gEDA can be run on the Mac as an X11 application or in a virtual machine.
  • Standard method 1: Use MacPorts, and install both "geda-gaf" and "pcb." You may also want to use the Porticus GUI to make that process easier.
  • Standard method 2: Use Fink, and install the "geda-bundle." You may also want to use the Fink Commander GUI to make that process easier. More about this process here.
  • Virtual machine method: Download Virtualbox and download Ubuntu, so that you can run Ubuntu in a virtual machine on your computer. (It's fast and easy!) Then, install gEDA (gschem and PCB) from the Ubuntu software center. Note: this is faster than the Fink method-- under 1 hour, if you have a reasonably fast internet connection.


Installing gEDA on Linux

  • In Ubuntu, install gEDA (gschem and PCB) from the Ubuntu software center.
  • Similar packages are available for other Linux flavors, for example as Debian Packages.


Platform-specific tips and resources

For Mac users