The distributions for Mac and Windows do not come with setuptools, which is required to install gFlex. Setuptools and ez_setup (Windows and Mac with distributions) As a result, it should be more successful to keep the Python packages managed better by something like homebrew with pip. Recent efforts to download Python distributions (both Anaconda and Enthought) have not met with success with both gFlex and GRASS, though Anaconda has been tested successfully with Windows. See the Linux instructions for the list of packages that you will need after installing pip, these commands can be substituted as follows, e.g., # Homebrew A good introduction to this can be found here. With this you can install Python, and then move on to using pip (or homebrew) to install the Python modules. The current recommendation is to use a package manager like homebrew. Python(x,y) and several others also contain the required packages (including the numerical libraries), the iPython console, and the Spyder IDE Spyder is a nice IDE that will provide a familiar-looking interface for users accustomed to Matlab. # Sypder IDE (I don't personally use it but many others like it: optional)ĭownload python(x,y) or another full-featured distribution such as Anaconda both of these distributions have been tested successfully with gFlex. # iPython console - very useful (optional) # pip (recommended for automatic installs via setuptools) For Debian/Ubuntu, it will be something like: # Basic packages Use your package manager to download and install the required Python packages. In order to run properly, gFlex requires the following Python dependencies:įor users who are new to Python, follow these directions to install the Python interpreters onto your computer. GFlex has been tested on Python 2.7, and should work (with a few possible changes) on future versions of Python 2.X. (2016), Open-source modular solutions for flexural isostasy: gFlex v1.0, Geosci. Please leave a message if you have trouble working with gFlex your comments could assist both you and the more general improvement of this documentation. The Python scripting part towards the end should be pretty straightforward as well, insofar as information is provided on how to get and set the chosen values inside gFlex. These instructions are meant to take an user familiar with computers but new to (or a beginner with) Python through the basics of how to get gFlex to work. An electromechanical device runs at the same rate regardless of changes in its drive force, so it maintains a constant frequency ( hz).Multiple methods to solve elastic plate flexure, designed for applications to Earth's lithosphere. In dynamical system theory an oscillator is called isochronous if the frequency is independent of its amplitude. The electromechanical oscillator was originally designed as a source of isochronous (that is to say, frequency stable), alternating electric current used with both wireless transmitting and receiving apparatus. Such predicted responses would-at least-take the form of induced electric and magnetic fields, telluric currents, and changes in earth conductivity. Additional non-mechanical responses to the initial acoustic impulses may also be detectable using instruments that measure various electrical and magnetic parameters. Data from reflected and refracted signals can be analyzed to deduce the location and characteristics of underground formations. Tesla designed this system for use in prospecting and discerning the location of underground mineral structures through the transmission of mechanical energy through the subsurface.
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