OptSchedule

Flexible parameter scheduler that can be implemented with proprietary and open source optimizers and algorithms.

• Free software: MIT license
• Documentation: https://optschedule.readthedocs.io/en/latest/

Installation

optschedule can be installed through Python's package installer pip. To install, run

pip install optschedule

in your terminal. Alternatively, install the package directly from GitHub

git clone -b development https://github.com/draktr/optschedule.git
cd monte
python setup.py install

Features

• Exponential decay (gradual and staircase)
• Cosine decay
• Inverse time decay (gradual and staircase)
• Polynomial decay
• Piecewise constant decay
• Constant schedule
• Geometric decay
• Arithmetic decay
• Time decay
• Step decay

Advantages

• FLEXIBLE - the package is designed to be simple and compatible with existing implementations and custom algorithms

• COMPREHENSIVE - the package contains the largest collection of schedules of any Python package. For more, feel free to raise a feature request in Issues.

• NUMBA FRIENDLY - schedule produced by the package is compatible with Numba and will not cause any issues if the rest of the algorithm is Numba compatible. This can drastically speed up the algorithm.

Usage

Package contains Schedule class with methods that return an array of elements that is useful as a pre-defined parameter schedule (e.g. learning rate). The package can also be used for manually assigning varying weights to abstract particles. Overall, due to the general nature of the package a user might finds its own particular application.

Example: Variable Learning Rate in Gradient Descent Algorithm

from optschedule import Schedule

# Function to be minimized (objective function) $ f(x) = (x+2)^2 $
def foo(params):
    return (params[0] + 2) ** 2

# Creating learning rate schedule
schedule = Schedule(1000)
learning_rate = schedule.exponential_decay(initial_value=0.1, decay_rate=0.5)

# Array with objective value
objective = np.zeros(1000)
# Initial parameter value
param = [10]
# Difference
d = 0.01

# Gradient Descent Algorithm
for epoch, l in enumerate(learning_rate):
    objective[epoch] = foo(param)
    difference_objective = foo([param[0]+d])
    param[0] = param[0] - l*(difference_objective - objective[epoch])/d

print(f"Solution: {param[0]}")

Maintaining and Contributing

Feel free to reach out through Issues forum to add or request features. Any issues, bugs and improvement recommendations are very welcome.