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AutoBound: Automatically Bounding Functions
AutoBound is a generalization of automatic differentiation. In addition to computing a Taylor polynomial approximation of a function, it computes upper and lower bounds that are guaranteed to hold over a user-specified trust region.
As an example, here are the quadratic upper and lower bounds AutoBound computes
for the function f(x) = 1.5*exp(3*x) - 25*(x**2), centered at 0.5, and
valid over the trust region [0, 1].
The code to compute the bounds shown in this plot looks like this (see quickstart):
import autobound.jax as ab
import jax.numpy as jnp
f = lambda x: 1.5*jnp.exp(3*x) - 25*x**2
x0 = .5
trust_region = (0, 1)
# Compute quadratic upper and lower bounds on f.
bounds = ab.taylor_bounds(f, 2)(x0, trust_region)
# bounds.upper(1) == 5.1283045 == f(1)
# bounds.lower(0) == 1.5 == f(0)
# bounds.coefficients == (0.47253323, -4.8324013, (-5.5549355, 28.287888))
These bounds can be used for:
- Computing learning rates that are guaranteed to reduce a loss function
- Upper and lower bounding integrals
- Proving optimality guarantees in global optimization
and more!
Under the hood, AutoBound computes these bounds using an interval arithmetic variant of Taylor-mode automatic differentiation. Accordingly, the memory requirements are linear in the input dimension, and the method is only practical for functions with low-dimensional inputs. A reverse-mode algorithm that efficiently handles high-dimensional inputs is under development.
A detailed description of the AutoBound algorithm can be found in this paper.
Installation
Assuming you have installed pip, you can install this package directly from GitHub with
pip install git+https://github.com/google/autobound.git
or from PyPI with
pip install autobound
You may need to upgrade pip before running these commands.
Limitations
The current code has a few limitations:
- Only JAX-traceable functions can be automatically bounded.
- Many JAX library functions are not yet supported. What is
supported is bounding the squared error loss of a multi-layer perceptron or convolutional neural network that uses the
jax.nn.sigmoid,jax.nn.softplus, orjax.nn.swishactivation functions. - To compute accurate bounds for deeper neural networks, you may need to use
float64rather thanfloat32.
Citing AutoBound
To cite this repository:
@article{autobound2022,
title={Automatically Bounding the Taylor Remainder Series: Tighter Bounds and New Applications},
author={Streeter, Matthew and Dillon, Joshua V},
journal={arXiv preprint arXiv:2212.11429},
url = {http://github.com/google/autobound},
year={2022}
}
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