A lightweight python library for keeping track of numerical experiments
Project description
maggot is a very simple but useful library with primary goal to remove the need of custom experiment tracking approaches most people typically use. The focus is on reproducibility and removing boilerplate code.
Main issues maggot (at least partially) solves:
- Removes the need for meditations on what is a proper name for the experiment. Say you are a machine learning researcher/engineer and you want to train a convolutional neural network with a particular set of parameters, say, 50 convolutional layers, dropout 0.5 and relu activations. You might want to create a separate directory for this experiment to store some checkpoints and summaries there. If you do not expect to have a lot of different models you can simply go off with something like "convnet50layers" or "convnet50relu". But if the number of experiments grows, you need a more reliable and automated solution. maggot offers such a solution - any experiment you run will have a name derived from the configuration parameters of your model. For the aforementioned model it would be "50-relu-0.5". You still can use a custom experiment name if you want to.
- Assists reproducibility. Ever experienced a situation when results you got a month ago with an "old" model are no longer reproducible? Even if you are using git, you probably had used some command-line arguments that are now lost somewhere in the bash history... maggot stores all command line parameters, saves full stdout, and much more.
- Restoring a model is now really painless! Since maggot saves all the parameters you used to run the experiment, all you need to restore a model is to provide a path to a saved experiment.
Let's consider a toy example and train an SVM on the Iris dataset.
First, import required packages and define command-line arguments:
import argparse
import os
import pickle
from sklearn.datasets import load_iris
from sklearn.svm import SVC
from sklearn.model_selection import cross_val_score, StratifiedKFold
from maggot import Experiment
parser = argparse.ArgumentParser(
formatter_class=argparse.ArgumentDefaultsHelpFormatter)
parser.add_argument(
"--C", type=float, default=1.0,
help="Regularization parameter for SVM")
parser.add_argument(
"--gamma", type=float, default=0.01,
help="Kernel parameter for SVM")
parser.add_argument(
"--cv", type=int, default=5,
help="Number of folds for cross-validation")
parser.add_argument(
"--cv_random_seed", type=int, default=42,
help="Random seed for cross-validation iterator")
args = parser.parse_args()
Define a configuration object for the experiment:
svm_config = {
"model": {
"C": args.C,
"gamma": args.gamma
},
"crossval": {
"n_folds": args.cv,
"_random_seed": args.cv_random_seed
}
}
The random_seed
parameter is not really important for analyzing and comparing different experiments, so we included an underscore before its name in config. This tells maggot to ignore it for experiment's identifier (short name).
Lets create an experiment object!
experiment = Experiment(config=svm_config)
From here you can reach the model identifier:
>>> experiment.config.identifier
5-1.0-0.01
Or the experiment directory:
>>> experiment.experiment_dir
experiments/5-1.0-0.01
Lets examine what this directory contains by now.
tree -a experiments/5-1.0-0.01/
experiments/5-1.0-0.01/
└── .maggot
├── command
├── config.json
├── environ
├── logs
│ └── 2020-11-15-14-53-22-1605444802
└── results.json
The command
file contains the command we run from terminal, config.json
stores the configuration, and logs
directory will store any output you get during the run.
Lets train the model!
with experiment:
config = experiment.config
model = SVC(C=config.model.C, gamma=config.model.gamma)
score = cross_val_score(
model, X=iris.data, y=iris.target, scoring="accuracy",
cv=StratifiedKFold(
config.crossval.n_folds,
shuffle=True,
random_state=config.crossval._random_seed),
).mean()
Note that we can access parameters using dot notation rather than ["keyword"]
notation, which looks much nicer.
We can print accuracy and this will be stored in a log file:
print("Accuracy is", round(score, 4))
Additionaly it's possible to register score
as a result of this experiment:
experiment.register_result("accuracy", score)
This creates a results.json
file in the .maggot
directory with the following content:
{
"accuracy": 0.9333333333333332
}
Later we can use such files from different experiments to be able to compare them.
Finally, lets save the model using pickle module.
with open(os.path.join(experiment.experiment_dir, "model.pkl"), "wb") as f:
pickle.dump(model, f)
See how directory structure has changed:
tree -a experiments/5-1.0-0.01/
experiments/5-1.0-0.01/
├── .maggot
│ ├── command
│ ├── config.json
│ ├── environ
│ ├── logs
│ │ └── 2020-11-15-14-53-22-1605444802
│ └── results.json
└── model.pkl
If we want to restore the experiment we can easily do:
with Experiment(resume_from="experiments/5-1.0-0.01") as experiment:
config = experiment.config # the same config we created above
...
Configuration file and other stuff is loaded automatically.
We can easily run several experiments with different parameters:
python ../maggot/examples/iris_sklearn.py --C=10
python ../maggot/examples/iris_sklearn.py --C=10 --gamma=1
python ../maggot/examples/iris_sklearn.py --C=10 --gamma=0.1
python ../maggot/examples/iris_sklearn.py --C=0.001 --gamma=0.1
python ../maggot/examples/iris_sklearn.py --C=0.001 --gamma=10
And now let's compare them!
maggot summarize experiments --sort accuracy
Results for /home/dmytro/code/stuff/mag-tests/experiments:
accuracy
5-10.0-0.1 0.986667
5-10.0-0.01 0.973333
5-10.0-1.0 0.953333
5-0.001-0.1 0.926667
5-0.001-10.0 0.813333
CLI
maggot has a minimalistic CLI interface for working with experiments and being able to inspect them, compare between them and so forth.
Currently, the following commands are supported:
summarize Summarize metrics from all experiments in a given directory.
show-config Show experiment config.
show-command Show command used to run an experiment.
config-diff Show diff between configs in two experiments.
Simple type maggot COMMAND
in terminal to see help for a specific command.
Installation
To install, clone the repository and then use pip install .
or simply run pip install git+https://github.com/ex4sperans/maggot.git
to install directly from GitHub. The repository will be added to PyPI soon to simplify the installation.
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