pysimmmulator 0.6.1

Python package for generating MMM (Marketing Mix Model) input data

PySiMMMulator

PySiMMMulator is an open source Python framework for simulation of Marketing data for use in testing Marketing Mix Models (MMMs). While this package contains a full pipeline for data generation (configurable via YAML) it can also be utilized in parts to generate select portions of MMM input data (e.g. campaign/channel spend).

Originally predicated on adapting the R-package siMMMulator for python. PySiMMMulator has retained core function parallels to the functions of siMMMulator but has since expanded capabilities to support a far broader array of MMM inputs and utilities (e.g. geographic distribution, modular adstock/saturation).

Installation

Accessable via PyPI

pip install pysimmmulator

Usage

PySiMMMulator's simulator can either be run on a step-by-step basis, or can be run single-shot by passing a config file.

Run via config

Run using this method, you'll be returned a SimulationResult object containing both a dataframe for MMM input as well as the "True ROI" values for each of your channels, and associated metadata. These true values are critical to validating your MMM model.

from pysimmmulator import load_config, Simulate

cfg = load_config(config_path="./my_config.yaml")
simmm = Simulate()
result = simmm.run_with_config(config=cfg)

# Access results
mmm_input_df = result.df
channel_roi = result.channel_roi

Run via CLI

A configuration file is required as input for this and should be passed as seen below. An output path can also be passed via -o, however when not passed the current working directory will be used.

pysimmm -i example_config.yaml -o .

Run by stages

Alternatively you may run each of the stages independently, which allows for easier debugging and in-run adjustments. Due to the stateless architecture, each stage returns its results which are then passed to the next stage.

from pysimmmulator import load_config, Simulate, define_basic_params, create_all_parameters

cfg = load_config("./my_config.yaml")
params = create_all_parameters(cfg)
simmm = Simulate(params["basic_params"])

baseline_df = simmm.simulate_baseline(params["baseline_params"])
spend_df = simmm.simulate_ad_spend(baseline_sales_df=baseline_df, params=params["ad_spend_params"])
spend_df = simmm.simulate_media(spend_df=spend_df, params=params["media_params"])
spend_df = simmm.simulate_cvr(spend_df=spend_df, params=params["cvr_params"])
mmm_df = simmm.simulate_decay_returns(spend_df=spend_df, params=params["adstock_params"])
mmm_df = simmm.calculate_conversions(mmm_df=mmm_df)
mmm_df = simmm.consolidate_dataframe(mmm_df=mmm_df, baseline_sales_df=baseline_df)
channel_roi = simmm.calculate_channel_roi(mmm_df=mmm_df)
final_df = simmm.finalize_output(mmm_df=mmm_df, params=params["output_params"])

Exogenous Factors

PySiMMMulator supports the inclusion of external shocks, holidays, and promotions. These can be specified as either multipliers or additive impacts within the baseline_params block.

baseline_params:
  ...
  exogenous_factors:
    - name: "Black Friday"
      dates: ["2023-11-24"]
      impact: 3.5
      type: "multiplier"
    - name: "Christmas Peak"
      start_date: "2023-12-20"
      end_date: "2023-12-24"
      impact: 2.0
      type: "multiplier"

Automated Sensitivity Analysis (Monte Carlo)

The Multisim class enables Monte Carlo simulations by allowing you to define uncertainty ranges for any configuration parameter. This helps researchers understand how sensitive an MMM is to data volatility.

from pysimmmulator import Multisim, load_config

base_cfg = load_config("my_config.yaml")
sensitivity_config = {
    "baseline_params": {
        "error_std": [20.0, 150.0]  # sample noise level for each run
    }
}

msim = Multisim(random_seed=42)
msim.run(config=base_cfg, runs=100, sensitivity_config=sensitivity_config)

# results is a list of SimulationResult objects
results = msim.get_data

Geographic distribution

Marketing Mix Models may use geographic grain data for the purposes of budget allocation or during the calibration phase. PySiMMMulator provides Geos to facilitate the generation of randomized geographies as well as a distribution function to allocate synthetic data across the geographies.

Study simulation

Study and BatchStudy are also provided to simplify the simulated outcomes of marketing studies, which are an important component of MMM calibration.

Within this framework study results are drawn from a normal distribution about the true value of a channel's effectiveness (defaulted to ROI within this package). Both Study and BatchStudy provide the ability to pass bias and standard deviation parameters for stationary and non-stationary distributions—allowing users to replicate a diverse set of real-world measurement difficulties.

Development

Setting up a dev environment

python3 -m venv venv
source venv/bin/activate
pip install -e '.[dev]'