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A tiny Python package to parse spice raw data files.

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Spyci

A tiny Python package to parse and plot spice raw data files.

Documentation Status

Getting Started

These instructions will get you a copy of the package up and running on your local machine.

Note: at the moment only ascii raw spice format is supported!

Installation

From PyPI

$ pip install spyci  # it is recommended to this in a virtual environment

From the github repo

$ pip install git+https://github.com/gmagno/spyci.git

or

$ git clone git@github.com:gmagno/spyci.git
$ cd spyci/
$ python setup.py install

Usage

From python run:

>>> from spyci import spyci
>>> data = spyci.load_raw("/path/to/rawspice.raw")  # see 'Data structure' section below

Or just use the CLI:

$ spyci -r /path/to/rawspice.raw vin vout

for more details use:

$ spyci -h
usage: spyci [-h] [-v] [-r RAW_FILE] [-l] [-f] [-o OUT_IMAGE] ...

Spyci (spyci v0.6.1) -- parses ngspice raw data files and
plots the specified variables.
For full documentation check the repo: https://github.com/gmagno/spyci

positional arguments:
  VARS                  List of variables to plot

optional arguments:
  -h, --help            show this help message and exit
  -v, --version         shows spyci version
  -r RAW_FILE, --raw-file RAW_FILE
                        path to raw file to be parsed
  -l, --list-variables  lists variables that can be plotted
  -f, --out-formats     lists supported output image formats
  -o OUT_IMAGE, --out-image OUT_IMAGE
                        path to output image file, use -f, to list supported
                        formats

                                                 /##
                                                |__/
          /#######  /######  /##   /##  /####### /##
         /##_____/ /##__  ##| ##  | ## /##_____/| ##
        |  ###### | ##  \ ##| ##  | ##| ##      | ##
         \____  ##| ##  | ##| ##  | ##| ##      | ##
         /#######/| #######/|  #######|  #######| ##
        |_______/ | ##____/  \____  ## \_______/|__/
                  | ##       /##  | ##
                  | ##      |  ######/
                  |__/       \______/

return:
    The return value of spyci is 0 if the raw file is successfully
    parsed and plotted.

examples:
    # Run without arguments will attempt to load rawspice.raw from cwd
    # and plot all variables
    $ spyci

    # List variables that can be plotted
    $ spyci -l
    Variables:

    idx  name        type
    -----  ----------  -------
        1  i(l1)       current
        2  n1          voltage
        3  vi          voltage
        4  vo          voltage
        5  i(vsource)  current

    # Load 'some/location/sim.raw' and plot variables 'i(l1)' and 'vo'
    $ spyci -r some/location/sim.raw "i(l1)" vo

    # Indices can be used insted of variable names, this is equivalent
    # to the previous example
    $ spyci -r some/location/sim.raw 1 4

    # Save your plot to the file system
    $ spyci -o myplot.png 1 4

    # Different image formats are supported, just use the correct
    # extension, {.png, .svg, .pdf, ...}. For a list of supported
    # formats run with -f flag
    $ spyci -f
    Supported output image file formats:

    ext    format
    -----  -------------------------
    raw    Raw RGBA bitmap
    rgba   Raw RGBA bitmap
    pgf    PGF code for LaTeX
    svgz   Scalable Vector Graphics
    svg    Scalable Vector Graphics
    ps     Postscript
    png    Portable Network Graphics
    eps    Encapsulated Postscript
    pdf    Portable Document Format

copyright:
    Copyright © 2020 Gonçalo Magno <goncalo@gmagno.dev>
    This software is licensed under the MIT License.

Data structure

A properly parsed raw spice file by load_raw() returns a dictionary with the following structure:

{
    "title": <str>,
    "date:": <str>,
    "plotname:": <str>,
    "flags:": <str>,
    "no_vars:": <str>,
    "no_points:": <str>,
    "vars": [
        { "idx": <int>, "name": <str>, "type": <str> },
        { "idx": <int>, "name": <str>, "type": <str> }
        ...
        { "idx": <int>, "name": <str>, "type": <str> }
    ]
    "values": {
        "var1": <numpy.ndarray>,
        "var2": <numpy.ndarray>,
        ...
        "varN": <numpy.ndarray>
    }
}

Where values values is a numpy structured array with the actual data.

Examples

The following examples make use of ngspice to run the spice simulations, so please ensure it is installed. On ubuntu that would be:

$ sudo apt install ngspice

Inverting amplifier with an opamp LM741

Check the directory examples/amplifier/ for details on the cirtcuit and the simulation files.

The schematic:

amplifier

Run the simulation with:

$ cd examples/amplifier
$ ngspice -r rawspice.raw -o output.log main.cir
$ spyci vout vin

which will fire ngspice generating output.log and rawspice.raw files and also plots the voltages vin and vout.

amplifier

Second order low pass filter with an opamp LM741

Check the directory examples/lp_filter/ for details on the cirtcuit and the simulation files.

The schematic:

lp_filter

Run the simulation with:

$ cd examples/lp_filter
$ ngspice -r rawspice.raw -o output.log main.cir
$ spyci vout vin

which will fire ngspice generating output.log and rawspice.raw files and also plots the gain vout/vin in dB.

lp_filter

License

This project is licensed under the MIT License - see the LICENSE file for details