synthgauge 2.2.0

A package for evaluating synthetic data

SynthGauge

SynthGauge is a Python library providing a framework in which to evaluate synthetically generated data.

The library provides a range of metrics and visualisations for assessing and comparing distributions of features between real and synthetic data. At its core is the Evaluator class, which provides a consistent interface for assessing two sets of data. By creating several Evaluator instances, you can easily evaluate synthetic data generated from a range of methods in a consistent and comparable manner.

Privacy vs. Utility

:lock: vs. :bar_chart:

When generating synthetic data, there is generally a trade-off between privacy (i.e. keeping sensitive information private) and utility (i.e. ensuring the dataset is still fit for purpose).

The metrics included in SynthGauge fall into these categories and work is continuing to add more metrics.

Mission Statement

SynthGauge is a toolkit providing metrics and visualisations that aid the user in the assessment of their synthetic data.

SynthGauge is not going to make any decisions on behalf of the user. It won’t specify if one synthetic dataset is better than another. This decision is dataset- and purpose-dependent so can vary widely from user to user.

Simply, SynthGauge is a decision-support tool, not a decision-making tool.

Getting Started

Install

The synthgauge package is available on PyPI and can be installed via pip in the standard way:

$ python -m pip install synthgauge

If you'd rather install the package from source, you can do so by first cloning this repository from GitHub. The synthgauge package is configured using setup.cfg, which requires newer versions of pip, setuptools and wheel. Be sure to update these if you haven't for a while.

$ cd /path/to/synthgauge
$ python -m pip install --upgrade pip setuptools wheel
$ python -m pip install .

Now you're ready to start using the package!

Usage

To help users get acquainted with the package, an example Jupyter Notebook is included in the :open_file_folder: examples directory. This notebook is also available in the package documentation.

The following shows an example workflow for evaluating a single real-synthetic dataset pair.

>>> import synthgauge as sg
>>>
>>> # 1. Create or read in some data as a `pandas.DataFrame`
>>> real = sg.datasets.make_blood_types_df(noise=0, nan_prop=0, seed=0)
>>> synth = sg.datasets.make_blood_types_df(noise=1, nan_prop=0, seed=0)
>>>
>>> # 2. Instantiate an Evaluator object
>>> ev = sg.Evaluator(real, synth)
>>>
>>> # 3. Explore the data
>>> ev.describe_numeric()
               count     mean        std    min    25%    50%    75%    max
age_real      1000.0   41.745   7.073472   22.0   37.0   41.0   48.0   62.0
age_synth     1000.0   41.536   9.195829   18.0   35.0   41.0   48.0   68.0
height_real   1000.0  174.976   7.771346  153.0  169.0  176.0  181.0  194.0
height_synth  1000.0  175.266   9.633070  147.0  168.0  176.0  182.0  205.0
weight_real   1000.0   80.014   9.455115   56.0   74.0   80.0   86.0  114.0
weight_synth  1000.0   80.117  11.113452   50.0   72.0   80.0   88.0  118.0
>>> ev.describe_categorical()
                  count unique most_frequent freq
blood_type_real    1000      4             O  384
blood_type_synth   1000      4             A  535
eye_colour_real    1000      3         Brown  577
eye_colour_synth   1000      3         Brown  664
hair_colour_real   1000      4         Brown  435
hair_colour_synth  1000      4         Brown  480
>>> ev.plot_histograms(figsize=(12,12))
<Figure size 1200x1200 with 6 Axes>
>>>
>>> # 4. Add metrics to compute
>>> ev.add_metric('wasserstein', 'wass-age', feature='age')
>>>
>>> # 5. Evaluate the metrics and review the results
>>> results = ev.evaluate()
>>> print(results)
{'wass-age': 1.7610000000000001}

Further Help

The API is described in the reference documentation. Please direct any questions to datacampus@ons.gov.uk.

Contributing

If you encounter any bugs as part of your usage of synthgauge, please file an issue detailing as much information as possible and include a minimal reproducible example. If you wish to contribute code to the project, please refer to the contribution guidelines.