From Cornell University Computational Optimization Open Textbook - Optimization Wiki
Author: Aolei Cao (ac3237), Ziyang Li (zl986), Junjia Liang (jl4439) (ChemE 6800 Fall 2024)
Stewards: Nathan Preuss, Wei-Han Chen, Tianqi Xiao, Guoqing Hu
Introduction
Problem formulation
1. Objective
Minimize the loss function , where and is the weight vector to be optimized.
2. Parameters
is the running average of the squared gradient.
is the corrected decay parameter.
is a regularization constant.
- Where:
- is the relative step size.
- is a regularization constant.
- is the root mean square, defined as:
3. Problem Formulation
Adafactor for Weighted Vectors
Inputs:
- Initial point:
- Relative step sizes: for to
- Second moment decay: for to , with
- Regularization constants:
- Clipping threshold:
Algorithm:
- For to :
- Compute adaptive step size:
- Compute gradient:
- Update second moment estimate:
- Compute normalized gradient:
- Apply clipping:
- Update parameter:
- End for
Adafactor for Weighted Matrices
Inputs:
- Initial point:
- Relative step sizes: for to
- Second moment decay: for to , with
- Regularization constants:
- Clipping threshold:
Algorithm:
- For to :
- Compute adaptive step size:
- Compute gradient:
- Update row-wise second moment:
- Update column-wise second moment:
- Update overall second moment estimate:
- Compute normalized gradient:
- Apply clipping:
- Update parameter:
- End for
4. Proposed Hyperparameters for Adafactor
- Regularization constant 1:
- Regularization constant 2:
- Clipping threshold:
- Relative step size:
- Second moment decay:
Numerical Examples
Applications
Conclusion
Reference