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Scalable machine learning based time series forecasting

Project description

mlforecast  

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Machine Learning 🤖 Forecast

Scalable machine learning for time series forecasting

CI Python PyPi conda-forge License

mlforecast is a framework to perform time series forecasting using machine learning models, with the option to scale to massive amounts of data using remote clusters.

Install

PyPI

pip install mlforecast

conda-forge

conda install -c conda-forge mlforecast

For more detailed instructions you can refer to the installation page.

Quick Start

Minimal Example

import lightgbm as lgb

from mlforecast import MLForecast
from sklearn.linear_model import LinearRegression

mlf = MLForecast(
    models = [LinearRegression(), lgb.LGBMRegressor()],
    lags=[1, 12],
    freq = 'M'
)
mlf.fit(df)
mlf.predict(12)

Get Started with this quick guide.

Follow this end-to-end walkthrough for best practices.

Sample notebooks

Why?

Current Python alternatives for machine learning models are slow, inaccurate and don’t scale well. So we created a library that can be used to forecast in production environments. MLForecast includes efficient feature engineering to train any machine learning model (with fit and predict methods such as sklearn) to fit millions of time series.

Features

  • Fastest implementations of feature engineering for time series forecasting in Python.
  • Out-of-the-box compatibility with Spark, Dask, and Ray.
  • Probabilistic Forecasting with Conformal Prediction.
  • Support for exogenous variables and static covariates.
  • Familiar sklearn syntax: .fit and .predict.

Missing something? Please open an issue or write us in Slack

Examples and Guides

📚 End to End Walkthrough: model training, evaluation and selection for multiple time series.

🔎 Probabilistic Forecasting: use Conformal Prediction to produce prediciton intervals.

👩‍🔬 Cross Validation: robust model’s performance evaluation.

🔌 Predict Demand Peaks: electricity load forecasting for detecting daily peaks and reducing electric bills.

📈 Transfer Learning: pretrain a model using a set of time series and then predict another one using that pretrained model.

🌡️ Distributed Training: use a Dask, Ray or Spark cluster to train models at scale.

How to use

The following provides a very basic overview, for a more detailed description see the documentation.

Data setup

Store your time series in a pandas dataframe in long format, that is, each row represents an observation for a specific serie and timestamp.

from mlforecast.utils import generate_daily_series

series = generate_daily_series(
    n_series=20,
    max_length=100,
    n_static_features=1,
    static_as_categorical=False,
    with_trend=True
)
series.head()
unique_id ds y static_0
0 id_00 2000-01-01 17.519167 72
1 id_00 2000-01-02 87.799695 72
2 id_00 2000-01-03 177.442975 72
3 id_00 2000-01-04 232.704110 72
4 id_00 2000-01-05 317.510474 72

Models

Next define your models. If you want to use the local interface this can be any regressor that follows the scikit-learn API. For distributed training there are LGBMForecast and XGBForecast.

import lightgbm as lgb
import xgboost as xgb
from sklearn.ensemble import RandomForestRegressor

models = [
    lgb.LGBMRegressor(verbosity=-1),
    xgb.XGBRegressor(),
    RandomForestRegressor(random_state=0),
]

Forecast object

Now instantiate a MLForecast object with the models and the features that you want to use. The features can be lags, transformations on the lags and date features. The lag transformations are defined as numba jitted functions that transform an array, if they have additional arguments you can either supply a tuple (transform_func, arg1, arg2, …) or define new functions fixing the arguments. You can also define differences to apply to the series before fitting that will be restored when predicting.

from mlforecast import MLForecast
from mlforecast.target_transforms import Differences
from numba import njit
from window_ops.expanding import expanding_mean
from window_ops.rolling import rolling_mean


@njit
def rolling_mean_28(x):
    return rolling_mean(x, window_size=28)


fcst = MLForecast(
    models=models,
    freq='D',
    lags=[7, 14],
    lag_transforms={
        1: [expanding_mean],
        7: [rolling_mean_28]
    },
    date_features=['dayofweek'],
    target_transforms=[Differences([1])],
)

Training

To compute the features and train the models call fit on your Forecast object.

fcst.fit(series)
MLForecast(models=[LGBMRegressor, XGBRegressor, RandomForestRegressor], freq=<Day>, lag_features=['lag7', 'lag14', 'expanding_mean_lag1', 'rolling_mean_28_lag7'], date_features=['dayofweek'], num_threads=1)

Predicting

To get the forecasts for the next n days call predict(n) on the forecast object. This will automatically handle the updates required by the features using a recursive strategy.

predictions = fcst.predict(14)
predictions
unique_id ds LGBMRegressor XGBRegressor RandomForestRegressor
0 id_00 2000-04-04 299.923771 309.664124 298.424164
1 id_00 2000-04-05 365.424147 382.150085 365.816014
2 id_00 2000-04-06 432.562441 453.373779 436.360620
3 id_00 2000-04-07 495.628000 527.965149 503.670100
4 id_00 2000-04-08 60.786223 75.762299 62.176080
... ... ... ... ... ...
275 id_19 2000-03-23 36.266780 29.889120 34.799780
276 id_19 2000-03-24 44.370984 34.968884 39.920982
277 id_19 2000-03-25 50.746222 39.970238 46.196266
278 id_19 2000-03-26 58.906524 45.125305 51.653060
279 id_19 2000-03-27 63.073949 50.682716 56.845384

280 rows × 5 columns

Visualize results

from utilsforecast.plotting import plot_series
fig = plot_series(series, predictions, max_ids=4, plot_random=False)
fig.savefig('figs/index.png', bbox_inches='tight')

How to contribute

See CONTRIBUTING.md.

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