Implement the Pareto Optimizer and pcgrad to make a self-adaptive loss for multi-task

Last update: Dec 25, 2022

Related tags

Deep Learning multi-task_loss_optimizer

Overview

multi-task_losses_optimizer

Implement the Pareto Optimizer and pcgrad to make a self-adaptive loss for multi-task

已经实验过了，不会有cuda out of memory情况

##Pareto optimizer

from Pareto_fn import pareto_fn
w_list = [w1,w2,...]
c_list = [c1,c2,...]
[loss1,loss2,...] = model(inputs)
loss_list = [loss1,loss2,...]
# config is the superparameter for training
new_w_list = pareto_fn(w_list,c_list,config,loss_list)
loss = 0
for i in range(len(w_list)):
    loss += new_w_list[i]*loss_list[i]
model.zero_grad()

loss.backward()
optimizer.step()

##pcgrad optimizer

from pcgrad_fn import pcgrad_fn

[loss1,loss2,...] = model(inputs)
loss_list = [loss1,loss2,...]
# config is the superparameter for training

pcgrad_fn(model,loss_list,optimizer)

optimizer.step()

Reference

Please cite as:

@article{yu2020gradient,
  title={Gradient surgery for multi-task learning},
  author={Yu, Tianhe and Kumar, Saurabh and Gupta, Abhishek and Levine, Sergey and Hausman, Karol and Finn, Chelsea},
  journal={arXiv preprint arXiv:2001.06782},
  year={2020}
}

paper: "A Pareto-Efficient Algorithm for Multiple Objective Optimization in E-Commerce Recommendation". RecSys, 2019, Alibaba

Implement the Pareto Optimizer and pcgrad to make a self-adaptive loss for multi-task

Related tags

Overview

multi-task_losses_optimizer

Reference

Owner

The official implementation of Equalization Loss v1 & v2 (CVPR 2020, 2021) based on MMDetection.

MinkLoc++: Lidar and Monocular Image Fusion for Place Recognition

Visualizer using audio and semantic analysis to explore BigGAN (Brock et al., 2018) latent space.

Source code and data from the RecSys 2020 article "Carousel Personalization in Music Streaming Apps with Contextual Bandits" by W. Bendada, G. Salha and T. Bontempelli

Memory-efficient optimum einsum using opt_einsum planning and PyTorch kernels.

Some methods for comparing network representations in deep learning and neuroscience.

Miscellaneous and lightweight network tools

Generating Digital Painting Lighting Effects via RGB-space Geometry (SIGGRAPH2020/TOG2020)

Rainbow: Combining Improvements in Deep Reinforcement Learning

[ICML 2021] A fast algorithm for fitting robust decision trees.

Graph parsing approach to structured sentiment analysis.

[CVPR 2021] Scan2Cap: Context-aware Dense Captioning in RGB-D Scans

Author's PyTorch implementation of TD3+BC, a simple variant of TD3 for offline RL

Python scripts form performing stereo depth estimation using the HITNET model in Tensorflow Lite.

Convolutional Neural Networks

Locally Most Powerful Bayesian Test for Out-of-Distribution Detection using Deep Generative Models

🐦 Opytimizer is a Python library consisting of meta-heuristic optimization techniques.

Colossal-AI: A Unified Deep Learning System for Large-Scale Parallel Training

Code for paper "Vocabulary Learning via Optimal Transport for Neural Machine Translation"

Users can free try their models on SIDD dataset based on this code